CN104007834B - Digital operation coding input method for world character information and its information processing system - Google Patents

Abstract

A digital operation coding processing system for world character information belongs to the technology of digital coding processing for world character information and thoroughly solves the contradiction between the simplicity and high efficiency of the coding processing for world character information. The main characteristics are as follows: the operation coding of the world character digital punctuation marks by using 0-9 digits, and the digital codes as the world character document retrieval index number and the computer world character input code, establish a whole set of the digital operation coding and input computer of the world character information, the sequencing retrieval of the world character code, the computer language and the operating system of the world character and the chip instruction design method system, and are widely used for computer systems, communication systems and the sequencing retrieval system of the world character code.

Description

Digital operation coding input method for world character information and its information processing system

The scheme is a divisional application of Chinese patent application 01809017.6 filed on 8/5/2001.

Technical Field

The invention relates to a digital coding input method of world character information and a related information processing system, in particular to an input method for coding world characters by using numbers and a related information processing system.

Background

The current state of the world character information digital coding processing technology:

the digital coding technology of world character information is a historical important subject worldwide, and various countries in the world are researching the subject and provide thousands of proposals, and the existing proposals have advantages and disadvantages that the existing proposals cannot unify standards, are easy to learn and use and are difficult to learn and violate Chinese character configuration principles.

Object of the Invention

The purpose of the invention is: the ten numbers of 0-9 are uniformly used for carrying out digital operation coding processing on the world character information, and the contradiction between the simplicity and the high efficiency of the coding processing of the world character information is solved.

Summary of The Invention

To achieve the object of the present invention, according to a first aspect of the present invention, there is provided a method for encoding and inputting world characters into a computer device, the computer device including a numeric keypad, the method comprising: for each character in the world characters, distributing a plurality of basic components which form the character or can determine the character to corresponding numeric keys of a numeric keyboard, wherein the code of each basic component is uniquely determined by an area code and a bit code, the area code is the number of the key where the component is located, and the bit code is the position number of the basic component in the numeric key to which the basic component belongs; selecting the type of characters to be input; for each character of the kind of characters to be input, decomposing the character into a combination of the parts; arranging the area code and the bit code corresponding to each component in the combination in sequence as the code for the character; and inputting the code of the word.

In the first aspect according to the present invention, the world characters are divided into ideograms and phonograms; for phonograms, the component is the letter of the phonogram; for ideograms, the basic components may include basic strokes that make up the font of the ideogram, pinyin that makes up the pronunciation of the ideogram, basic strokes that make up the font of the ideogram, and pinyin characters, respectively.

The phonograms comprise English, French, German, Italian, Spanish, Russian, Greek, Arabic, Japanese, Korean, and the ideograms comprise Chinese; for Chinese, the basic components can respectively comprise basic strokes forming Chinese character patterns, pinyin letters or initials and finals forming Chinese pronunciation of the Chinese character, and basic strokes and pinyin letters or initials and finals forming Chinese pronunciation and patterns; for Japanese, the basic components may include basic strokes of Chinese character patterns in Japanese, kana constituting Japanese characters, and kana constituting Japanese pronunciations of Japanese Chinese characters, respectively; for korean, the basic parts respectively include basic strokes constituting a kanji glyph in korean, korean letters constituting korean characters, and korean letters of korean reading of kanji.

Preferably, when a Chinese character is coded according to the Chinese character font, the basic component is the basic stroke of the Chinese character, the coding is determined only by the area code, and the basic stroke and the area code are determined according to the following method: classifying strokes of the Chinese characters into five basic strokes of horizontal, vertical, left-falling, dot and turning strokes, and correspondingly defining codes of the five basic strokes as 1, 2, 3, 4 and 5 to form one stroke codes; combining the horizontal stroke, the vertical stroke, the left-falling stroke, the dot stroke and the folding stroke in pairs, adding the stroke codes of each combination, and performing the operation of subtracting ten from ten to form a two-stroke combined code; combining any three strokes of horizontal stroke, vertical stroke, left-falling stroke, dot stroke and folding stroke, adding the numbers of the combined stroke codes, and performing the operation of subtracting ten from ten to form three-stroke combined codes; the combination of horizontal, vertical, left-falling, dot and fold more than three strokes, the respective combined stroke code numbers are added, and the operation of subtracting ten from ten is carried out, so as to form the combined code of more than three strokes.

Preferably, when the Chinese characters are encoded according to the pinyin letters of the Chinese characters, the basic components comprise the pinyin letters forming the Chinese pronunciation of the Chinese characters and the tones of the Chinese characters, the codes of the Chinese characters are sequentially formed by zone codes and tone codes of the pinyin letters forming the Chinese pronunciation of the Chinese characters, and the tone codes are formed by coding the tones of the Chinese characters by 4 optional different numbers in ten numbers from 0 to 9.

Preferably, when the Chinese character is encoded according to the Chinese pronunciation of the Chinese character, the basic components are the initial consonant and the final consonant of the Chinese pronunciation letter which form the Chinese character, and the region code and the bit code of the initial consonant and the final consonant which form the Chinese pronunciation of the Chinese character sequentially form the code of the Chinese character.

Preferably, when the Chinese character is coded according to the shape and the pronunciation of the Chinese character, the basic components are the initial consonant and the vowel which form the Chinese pronunciation of the Chinese character and the basic strokes of the Chinese character; the zone codes of initial consonant, vowel and basic stroke are respectively defined, the zone codes of initial consonant and vowel can adopt the same number as that of basic stroke, and the basic stroke and its code of Chinese character are defined according to the method of claim 4.

Preferably, for japanese, the basic components may include kana constituting japanese characters and kana constituting japanese reading of chinese characters in japanese, and the kana constituting japanese characters and the kana constituting japanese reading are encoded, and the encoding of japanese characters is sequentially composed of the encoding of kana.

Preferably, for korean, the basic parts include korean alphabets constituting korean characters, and korean alphabets constituting korean reading of korean chinese words. The Korean letters are arranged in a partitioned mode in sequence, and the codes of the letters are formed by the partition codes.

Preferably, for korean, the basic part is korean alphabet, and the area code of korean alphabet is determined as follows:

using ten numbers from 0 to 9, classifying strokes of Korean letters into five basic strokes of horizontal stroke, vertical stroke, left falling stroke, dot stroke and turning stroke, correspondingly defining the codes as 1, 2, 3, 4 and 5, adding stroke codes of letters, and after ten-minus-ten operations, coding Korean letters respectively as:

ス

the code is 0; firstly, the coded number is 1; 1.

the code is 2;

the code of the notch, , is 3;

the code of (4);

ヮ、

the code of (3) is 5; ヒ,

The code is 6;

the code of (3) is 7; a mouth,

The code of (3) is 8; ス,

The code is 9.

Preferably, for phonograms, the zone codes of their letters may in turn constitute a code for the letter.

Preferably, the phonetic characters may be encoded by the zone code and the bit code of the alphabet.

According to a second aspect of the present invention there is provided a method of writing world characters in a computer language, the method comprising the steps of: using world characters, punctuations, symbols and numbers as writing characters, and writing computer languages according to the types, formats, contents and purposes of the computer languages; the world characters are encoded and input by the encoding input method and the processing device thereof according to the first aspect of the invention.

According to a third aspect of the present invention there is provided a method of writing in a machine language, the method comprising the steps of: using world characters, numbers, punctuations and symbols to explain tasks to be completed by a computer machine language; any four-digit decimal number is used for representing world characters, numbers, punctuations and symbols which explain the task to be completed by the machine language, or the four-digit decimal number is used according to the coding method adopting the first aspect of the invention for coding the world characters, numbers, punctuations and symbols which show the task to be completed by the machine language, the codes which are less than four digits use 0 plus enough four digits in front of the codes, and the codes which are four-digit decimal numbers are used for representing the world characters, numbers, punctuations and symbols which explain the task to be completed by the machine language; a decimal number is represented using a four-digit binary number, and a total of sixteen-digit binary numbers are used to represent a four-digit decimal number.

According to a fourth aspect of the present invention there is provided a method of authoring in assembly language, the method comprising the steps of: using world characters, numbers, punctuations and symbols to explain tasks to be completed by a computer assembly language; any four-digit decimal number is used for representing the world characters, numbers, punctuation marks and symbols which explain the tasks to be completed by the assembly language, or the four-digit decimal number is used according to the coding method adopting the first aspect of the invention for coding the world characters, numbers, punctuation marks and symbols which explain the tasks to be completed by the assembly language, the coding with less than four digits uses 0 plus four digits in front of the coding, and the coding with four-digit decimal number is used for representing the world characters, numbers, punctuation marks and symbols which explain the tasks to be completed by the assembly language.

According to a fifth aspect of the present invention, there is provided a method for designing a core chip instruction of a world character computer, comprising the steps of: chinese characters, letters, punctuations, symbols and numbers are used as command design symbols to indicate tasks to be completed by a computer chip command; representing a world text character using a four digit decimal number code according to the encoding method according to the first aspect of the present invention; and sixteen-bit binary numbers 0 and 1 are used to represent the tasks to be performed by the computer chip.

According to a sixth aspect of the present invention there is provided a wordwise computer chip instruction using the instruction design method according to the first aspect of the present invention.

According to a seventh aspect of the present invention, there is provided a world language computer program language, said program language comprising constants, variables, operational expressions, and program flow control, wherein the world characters are input by the encoding method of the first aspect of the present invention.

According to an eighth aspect of the present invention, there is provided a method for designing an operating system of a world character computer, the method comprising the steps of: using figures, world characters, letters, kana, punctuations, symbols and numbers as operational characters, and designing a computer operating system according to the type, the purpose and the task of the computer operating system; naming a file by using world characters, and accessing a storage address of the file in a disk, wherein the file is marked by the world characters by using the name of the world character file; the world characters are input by adopting the coding input method of the first aspect of the invention according to country codes or not.

According to a ninth aspect of the present invention, there is provided a world character computer operating system comprising operators constructed using graphics, world characters, letters, kana, punctuation, symbols, and numbers; the world character file name is used for accessing the storage address of the file in the disk, which is marked by the world characters; using the operation command that the graphics, the world characters and the numbers are displayed on the display screen in the form of window pictures and are used for providing selection operation; the encoding input processing device adopting the encoding method of the first aspect of the present invention is used for encoding and inputting world character operators for operation.

Advantageous effects

Compared with the prior art, the scheme of the world character information digital operation coding processing system has the following advantages:

1. the digital operation coding processing is carried out on the world character information by uniformly using ten numbers from 0 to 9, and the contradiction between the simplicity and the high efficiency of the world character information coding processing is thoroughly solved.

2. A whole set of digital operation coding and input computer of world character information, sorting and searching of world character coding, language and operation system of world character computer and chip instruction design method system are established.

3. The method is universal for the input method of the computer world character codes and the sorting and searching method of the world character codes.

Brief description of the drawings

The advantages of the present invention will become more apparent from the following detailed description of embodiments thereof, when taken in conjunction with the accompanying drawings, wherein:

FIG. 1 is a diagram of the names, codes, strokes and stroke trends of five types of basic strokes used in the present invention;

FIG. 2 is the result of 15 two-stroke combinations of five classes of basic strokes and their encoding;

FIG. 3 is a distribution of the 1-8 regions of the Pinyin alphabet;

FIG. 4 is a distribution of the 1-0 regions of the Pinyin alphabet;

FIG. 5 shows the distribution of the 0-9 regions of the initial consonants and the final consonants of the Chinese phonetic alphabet;

FIG. 6 is a distribution of the 1-9 regions of the bopomofo;

FIG. 7 is a distribution of Japanese kana 1-8 regions;

FIG. 8 is a distribution of Japanese kana 2-9 regions;

FIG. 9 is a distribution of Japanese kana 1-9 regions;

FIG. 10 is a distribution of Japanese kana 1-0 regions;

FIG. 11 is a distribution of Korean letters in regions 1-8;

FIG. 12 is a distribution toward 1-0 regions of Korean letters;

FIG. 13 is a distribution of 1-0 regions for Korean vowels and consonants; FIG. 14 is a Korean alphabet and its operation code;

FIG. 15 shows the distribution of the English letters 1-8;

FIG. 16 shows the distribution of the English letters 1-0;

FIG. 17 is a distribution of the 1-8 Spanish letters;

FIG. 18 is a distribution of the 1-0 region of Spanish letters;

FIG. 19 is a distribution of the 1-8 regions of German letters;

FIG. 20 is a distribution of 1-0 regions of German letters;

FIG. 21 is a distribution of regions 1-8 of the Russian letters;

FIG. 22 is a distribution of the 1-0 regions of the Russian letters;

FIG. 23 is a distribution of the French letters 1-8 zones;

FIG. 24 is a distribution of French letter 1-0 regions;

FIG. 25 is a distribution of the areas of Greek letters 1-8;

FIG. 26 is a distribution of the 1-0 regions of Greek letters;

FIG. 27 is a distribution of regions 1-8 of the Arabic letters;

FIG. 28 is a distribution of the Arabic letters 1-0 regions;

FIG. 29 is the names of punctuation, symbols and their coding;

FIG. 30 is a ranking of an electronic publication class retrieval system; and

fig. 31 is a setting of a display screen.

Fig. 32 is a schematic setting of the numeric keypad.

Best Mode for Carrying Out The Invention

The invention relates to a digital coding input method of world character information and an information processing system scheme thereof, comprising the following items: a digital operation coding input method of world character information and a processing device thereof; a world character code ordering retrieval method and a retrieval system thereof; a world character computer language compiling method and an execution mode thereof; a method for designing a world character computer chip instruction; world word computer chip instructions; world language computer program language; a design method and an operation mode of a world character computer operation system; a world character computer operating system and an operating method.

Digital operation coding input method for world character information and its processing device

The following describes a method for inputting the digitized arithmetic coding of world character information and a processing device thereof.

The input method and the processing device for the digital operation coding of the world character information comprise: a digital operation code input method for world character information and a digital operation code input processing device for world character information.

Digital operation coding input method for world character information

The input method of the digital operation code of the world character information comprises the following steps: a digital operation coding method of world character information and a digital input method of world character information.

Digital operation coding method for scattered and world character information

The digital operation coding method of the world character information comprises the following steps: according to the character form (i.e. image information of characters) and pronunciation (i.e. sound information of characters) of the world characters, using 0-9 numerals, adopting addition, subtraction and partition bitwise operation coding method to code and form the character form and pronunciation stroke and letter of the world characters, and using the code of combined stroke, code of letter or letter to form the code of the world characters, and according to the classification of the world characters, classifying the world characters into Chinese characters (i.e. ideographic characters), phonograms, numerals, punctuations and symbols to implement digital operation coding.

1. Chinese character digital operation coding method

The digital operation coding method of the Chinese characters comprises the following steps: according to the character form and pronunciation of the Chinese character, ten numbers of 0-9 are used, and the strokes and letters of the character form and pronunciation of the Chinese character are coded and formed by adopting an addition method, a subtraction method and a partition bitwise operation coding method, and the codes of the Chinese character are formed by the codes of the combined strokes and the letters or the codes of the letters.

(1) Method for coding Chinese characters according to their font and digitalized operation

The method for coding Chinese characters by digital operation according to the character patterns of the Chinese characters comprises the following steps: dividing the Chinese character into radicals and the rest parts (the rest parts for short) which are combined into the Chinese character except the radicals according to the character form of the Chinese character, using ten numbers of 0-9, respectively calculating and coding by adopting addition and subtraction to combine the strokes of the radicals and the rest parts, combining the codes of the radicals and the rest parts by adding the codes of the combined strokes, combining the codes of the three-stroke combination after fully subtracting ten from ten, according to the writing stroke order of the Chinese character, firstly taking the code of the multi-stroke combination code and then taking the code taking sequence of the less-stroke combination code, firstly taking the code of more than three-stroke combination, then taking the code of the two-stroke combination, finally taking the code of one stroke, wherein the radicals take no more than two codes, the rest parts take no more than three codes, combining the codes of the radicals and the rest parts into the code of the Chinese character, and each Chinese character takes at most four codes, at least one code is selected, and the Chinese characters are divided into single characters and phrases for coding according to the division of the single characters and the phrases of the Chinese characters.

The codes of the addition and subtraction operations of 'one stroke', 'two stroke combination', 'three stroke combination' and 'more than three stroke combination' are respectively:

a: coding of "one stroke":

the strokes of Chinese characters are classified into five basic strokes of horizontal (-), vertical (-), left falling (ノ), point (-), and turning (B), and the codes are correspondingly defined as 1, 2, 3, 4 and 5, thereby forming a one-stroke code. (as shown in FIG. 1)

B: coding of "binary combination":

fifteen results are obtained by combining the transverse, vertical, left-falling, point and folding two by two: transverse and transverse combination, transverse and vertical combination, transverse and left-falling combination, transverse point combination and transverse folding combination; vertical and vertical combination, vertical and left-falling combination, vertical point combination and vertical folding combination; a skimming combination, a skimming combination and a skimming and folding combination; point combination and point folding combination; folding and combining; the respective stroke code numbers of each combination are added, and the corresponding codes after the operation of subtracting ten from full are respectively as follows: 2. 3, 4, 5, 6; 4. 5, 6 and 7; 6. 7, 8; 8. 9; 0; thereby forming a "two-stroke combination" code. (as shown in FIG. 2)

C: coding of "three-division combination":

the combination of horizontal, vertical, left-falling, point and folding is as follows: cun, Yi,

Adding the numbers of the respective combined stroke codes, and after the operation of subtracting ten from ten, coding the combined stroke codes into 0; , men, ji, qiang, zi, ji, and ma, the combined stroke codes of the herbs are added, and the whole ten minus ten operations are coded as 1: the numbers of the combined stroke codes are added, namely, the codes of the stroke codes are , and small, and the code is 2 after the operation of subtracting ten from ten; , ツ and , the respective combined stroke codes are added in number, and after ten-odd operation, the codes are coded into 3; earth and worker's earth,

And performing per unit, adding the numbers of the respective combined stroke codes, and performing the operation of subtracting ten from ten to obtain a code 4; +, , adding the respective combined stroke code numbers, and subtracting ten from ten to obtain the final productThe code is 5; , which encodes 6; (iii) banks, , , whose respective combined stroke code numbers add up, which is encoded as 7; the combined stroke codes of big, medium and wide are added in number, and the code is 8; especially, small, scarf, mountain, , , シ, corpse, woman, their respective combination stroke code numbers add, its code is 9; thereby forming a "three-division combined" code.

D: coding for more than three-stroke combination

The combination of horizontal, vertical, left-falling, dot and folding is more than three strokes: the numbers of the combined stroke codes of wood, moon, Chinese character radicals, fire, water and day are added, and the corresponding codes are respectively 0, 2, 4, 7 and 9 after the operation of subtracting ten from ten; thereby forming a code of "more than three strokes combination".

Secondly, according to the codes of the first stroke, the second stroke combination, the third stroke combination and the more than third stroke combination, the coding method of the single Chinese character and the phrase respectively comprises the following steps:

a: coding method for single character

The coding method of single character is based on the classification of single character and multiple character.

a. Coding method for single-body character

The single-body character coding method codes the Chinese characters which exceed and do not exceed four codes.

I: the encoding method of the unique character without exceeding four codes (including four codes) comprises the following steps: the stroke combination codes of the single-body characters are taken out to form the codes of the characters in sequence.

Example (c): the code of the word "middle", wherein "mouth" is coded as 8, and "|" is coded as 2, then "middle", is 82.

II: the coding method of the more than four-code single-body root character comprises the following steps: the first three codes and the tail code of the single character are taken to form the code of the character in sequence.

For example: the 'yue' word, wherein 'ノ' is coded as 3, 'Jiong' is coded as 7, 'is coded as 7,' is coded as 0, 'is coded as 1,' is coded as 6, and the first three codes and the last code are taken, so that the code of 'yue' is 3776.

b. Method for encoding combined character

The method for coding the multi-character codes comprises the steps of coding the multi-character partial radicals and the rest parts which exceed and do not exceed four codes.

I: the encoding method of the no-more-than-four-code combined character comprises the following steps:

i. the radicals take one code, the rest take one to three codes, and the codes of the character are formed in sequence.

Example (c): the "exterior" word, the radical is "sunset", the code is 2, the rest of the "Po" code is 6, then the "exterior" word code is 26.

And ii, taking two codes for the radical part and one to two codes for the rest parts to form the character code in sequence.

Example (c): the "code" word, radical "stone" is coded as 48, the rest "horse" is coded as 1, then the "code" is coded as 481.

II: the encoding method of the more than four-code combined character comprises the following steps:

i. the radicals take one code, the rest take the first two codes and the tail code, and the codes of the character are formed in sequence.

Example (c): the code of the different component is "zhu" character, which is coded as 1, and the code of the other component is "flat" 9475, which is 1945.

And ii, taking the first code and the tail code by the radical, and taking the first code and the tail code by the rest parts to form the code of the word in sequence.

Example (c): the "number" word, radical "" is coded as 47, the remainder "Rou" is coded as 709, and the coding of the "number" word is 7947.

B: method for coding phrases

The coding method of the phrase is divided into two-character words, three-character words and multi-character words more than three characters for coding according to the character number of the phrase.

a. The coding method of the two-word comprises the following steps: each character takes a head code and a tail code to form the code of the phrase in turn.

Example (c): the encoding of the "information" word is 5528, the encoding of the "information" word is 3288, and the encoding of the "information" word is 5838 for the head code and the tail code of each word.

b. The coding method of the three words comprises the following steps: the first two characters take the first code, the last one takes the first code and the last code, and the codes of the phrase are formed in sequence.

Example (c): "digitized," "digital" word encoded as 7947, "word" encoded as 21, "digitized" word encoded as 58, then "digitized" encoded as 7258.

c. The coding method of the multi-word comprises the following steps: the first three characters and the last character respectively take the first code, and the four codes are combined to form the code of the phrase in turn.

Example (c): "the people's republic of China", "the code of" China "is 82," the code of "Hua" is 583, "the code of" people "is 7," the code of "nation" is 8234, then the code of "the people's republic of China" is 8578.

(2) Coding method for Chinese characters by digital operation according to pronunciation of Chinese characters

The method for coding Chinese characters according to the pronunciation of the Chinese characters comprises the following steps: according to the pronunciation of Chinese character, using 0-9 digits, adopting zone-by-zone bit-by-bit operation coding method to code the letters forming the pronunciation of Chinese character, distributing the letters in ten zones numbered with 0-9 digits, arranging the letters on the bits numbered with 0-9 digits in each zone, using zone number or zone number of the letters as the code of the letters, then forming the code of the character by the letters or codes of the letters, and according to the pronunciation of Chinese character in different countries, the Chinese character is divided into the codes according to the Chinese pronunciation of Chinese character, the codes according to Japanese pronunciation of Chinese character, and the codes according to Korean pronunciation of Chinese character.

Coding method for Chinese characters by digitalized operation of Chinese pronunciation

The Chinese character pronunciation digital operation Chinese character encoding method includes the following steps: according to Chinese pronunciation of a Chinese character, using ten numbers of 0-9, adopting a coding method of dividing into regions and operating letters according to positions, coding the letters and tones forming the Chinese pronunciation of the Chinese character, distributing the letters in ten regions numbered by the ten numbers of 0-9, arranging the letters in the positions numbered by the ten numbers of 0-9 in each region, and taking the region number or region position number of the letters as the coding of the letters; the coding of tone is that its ordinal number is used as coding, the encoding of Yinping (I) is 1, the encoding of Yangping (I) is 2, the encoding of Shangping (v) is 3, the encoding of De-voicing (/) is 4; the character codes are composed of letters and tones or the codes of the letters and the tones, and the Chinese characters are coded by performing digital operation according to the types of the letters forming the Chinese pronunciation of the Chinese characters, namely pinyin letters and initials and finals.

A: method for coding Chinese characters according to Chinese phonetic alphabet digitalization operation

The method for coding Chinese characters according to the digitalized operation of the Chinese phonetic letters comprises the following steps: the method for coding phonetic letters according to Chinese pronunciation of Chinese character by using ten numbers of 0-9 and adopting zone-by-zone bit-by-bit operation is characterized by that the phonetic letters and tone of Chinese pronunciation of Chinese character are coded, the letters are distributed in ten zones numbered with ten numbers of 0-9, and arranged on the bits numbered with ten numbers of 0-9 in every zone, and the zone number or zone bit number of the letter is used as code of said letter, then the code of said letter, tone or code of letter and tone is formed into the code of said character.

a. Method for coding phonetic alphabet by using partition bitwise operation

The method for coding the pinyin letters by adopting partition bitwise operation comprises the following steps: eight-zone method for coding phonetic letters by bit operation, ten-zone method for coding phonetic letters by bit operation.

I: method for coding phonetic alphabet by eight-zone bitwise operation

The method for coding the pinyin letters by eight-region bitwise operation comprises the following steps: eight or ten zones are numbered using any eight of the ten numbers 0-9, each number dividing one zone, each zone number dividing. 1-3 or 1-4, the twenty-six Chinese phonetic letters are distributed on twenty-six of eight regions according to letter sequence, and the region number or region number of the letter is used as the code of said letter. Wherein:

the letters of the partition 8 area coded by bitwise operation are respectively as follows: (as shown in FIG. 3)

Positions 1-4 of region 1 correspond to: a. b, c, d'

Positions 1-3 of region 2 correspond to: e. f, g

Positions 1-4 of region 3 correspond to: h. i, j, k

1-3 positions in the 4 region are respectively 1, m and n

1-3 positions in the 5 region are respectively o, p and q

Positions 1-3 of region 6 correspond to: r, s, t

Positions 1-3 of region 7 correspond to: u, v, w

Positions 1-3 of region 8 correspond to: x, y, z

II: method for coding phonetic alphabet by ten-zone bitwise operation

The ten-zone bitwise operation coding method for the pinyin letters comprises the following steps: ten numbers of 0-9 are used, the number is divided into ten areas, each number is divided into one area, each area number is divided into 1-2 bits or 1-3 bits, twenty-six Chinese phonetic letters are distributed on twenty-six bits of the ten areas according to the letter sequence, and the area code or area code of the letter is used as the code of the letter. Wherein:

the letters of the pinyin coded by 1-0 region according to bit operation are respectively as follows: (as shown in FIG. 4)

. Positions 1-2 of region 1 correspond to: a. b, the step (a).

Positions 1-2 of region 2 correspond to: c. d

Positions 1-3 of region 3 correspond to: e. f, g

Positions 1-2 of region 4 correspond to: h. i.e. i

Positions 1-2 of region 5 correspond to: j. k is a radical of

Positions 1-3 of region 6 correspond to: l, m, n

Positions 1-3 of region 7 correspond to: o, p, q

Positions 1-3 of region 8 correspond to: r, s, t

Positions 1-3 of region 9 correspond to: u, v, w

Positions 1-3 of region 0 correspond to: x, y, z

For example: in the letter method of 1-8 area bitwise operation coding, the Chinese pronunciation of 'Zhong' is 'zhong', and the area code coding of the pinyin letters is as follows in sequence: z is 8, h is 3, o is 5, n is 4, g is 2, the code for "zhong" is 83542, the code for "zhong" is zhong; or the code 83542 of "zhong" constitutes the code of the word "zhong"; when the coding is added with tones, the coding of the tone negative (-) is 1, the coding of zh ō ng is 835421, and zh ō ng is used as the coding of the Chinese character; or the code of the word "middle" is composed of the code 835421 of "zh ō ng".

B: method for coding Chinese characters according to Chinese initial consonant and vowel digital operation

The method for coding Chinese characters according to the digitalized operation of the Chinese initials and the finals comprises the following steps: according to Chinese pronunciation of a Chinese character, using ten digits of 0-9, adopting a method of coding an initial consonant and a final sound by partition bitwise operation, coding the initial consonant, the final sound and the tone which form the Chinese pronunciation of the Chinese character, distributing letters in ten areas numbered by the ten digits of 0-9, arranging the letters in the positions numbered by the ten digits of 0-9 in each area, and taking area codes or area code numbers of the initial consonant and the final sound as codes of the initial consonant and the final sound; the coding of tone is the ordinal number as coding, the negative (-) coding is 1, the positive (-) coding is 2, the up (v) coding is 3, the down (/) coding is 4; and then the codes of the characters are formed by the letters and the tones or the codes of the letters and the tones, and the Chinese characters are divided into single characters and phrases for coding according to the division of the single characters and the phrases of the Chinese characters.

a. Method for coding initial consonants and vowels by adopting partition bitwise operation

The method for coding Chinese characters according to the digitalized operation of Chinese initials and finals comprises the following steps: nine-zone method for coding initial consonant and vowel by bit operation, ten-zone method for coding initial consonant and vowel by bit operation.

I: method for coding initial consonants and vowels by nine-region bitwise operation

The method for coding the initial consonants and the vowels by nine partitions according to the bit operation comprises the following steps: nine numbers of any number of 0-9 ten numbers are used, nine areas are divided by numbers, each number is divided into one area, each area is divided into 1-4 four bits by numbers, the initial consonants and the vowels which are not more than forty are distributed on forty bits of the ten areas according to the sequence of the initial consonants and the vowels, and the area codes or the area codes of the initial consonants and the vowels are used as codes of the initial consonants and the vowels. Wherein:

the Chinese phonetic alphabet and vowel coded by 1-9 areas according to bit operation are respectively: (as shown in FIG. 6)

Positions 1-4 of region 1 correspond to: , sunset, YY,

Positions 1-4 of region 2 correspond to: jiong half transverse n,

|

Positions 1-4 of region 3 correspond to:

メ、

positions 1-4 of region 4 correspond to:

positions 1-4 of region 5 correspond to: ,

Yao, ヌ

Positions 1-4 of region 6 correspond to: h-shaped,

Positions 1-4 of region 7 correspond to:

,

Slit layer

Positions 1-4 of region 8 correspond to: grow up to,

Positions 1-4 of region 9 correspond to: ,

, サ

II: method for coding initial consonants and vowels by ten-zone bitwise operation

The ten-zone bitwise operation coding method of the initial consonant and the final sound comprises the following steps: ten areas are divided by using 0-9 digits and numbers, each digit number is divided into one area, each area number is divided into 1-4 four bits, the initial consonants and the finals which are not more than forty are distributed on forty bits of the ten areas according to the sequence of the initial consonants and the finals, and the area numbers or the area number numbers of the initial consonants and the finals are used as the codes of the initial consonants and the finals. Wherein:

the Chinese phonetic alphabets and vowels which are coded by 1-0 region according to bit operation are respectively: (as shown in FIG. 5)

Positions 1-4 of region 1 correspond to: b. p, a, o

Positions 1-4 of region 2 correspond to: m, f, e, I

Positions 1-4 of region 3 correspond to: d. t, u

Positions 1-4 of region 4 correspond to: n, l, ai, ei

Positions 1-4 of region 5 correspond to: g. k, ao, ou

Positions 1-4 of region 6 correspond to: h. j, an, en

Positions 1-4 of region 7 correspond to: q, x, ang, eng

Positions 1-4 of region 8 correspond to: zh, ch, ong, ie

Positions 1-4 of region 9 correspond to: sh, r, in, un

The 1-4 positions of region 0 correspond to: z, c, s, ing

c. According to the coding of the initial consonants, the vowels and the tones, the coding method of the single character and the word group respectively comprises the following steps:

i: coding method for single character

According to the Chinese pronunciation of the Chinese character, the code forms the initial consonant, the final sound and the tone of the Chinese pronunciation of the Chinese character, the area code or the area code of the initial consonant and the final sound is used as the code of the initial consonant and the final sound, and the code of the Chinese character is formed by the code of the initial consonant, the final sound and the tone or the code of the initial consonant, the final sound and the tone.

Example 1: the Chinese phonetic pronunciation of the Chinese character is han, in the Chinese phonetic initial consonant and final sound which are coded by 1-0 ten regions according to bit operation, the region number code of the initial consonant h is 6, the region number code is 61, the region number code of the final sound an is 6, the region number code is 63, the code of han is 66 or 61(h) and 63(an), and han is used as the code of the Chinese character; when the tone coding is added, the code of tone yin-Flat (/) is 4, the code of "h a n" is 664 or 61(h), 63(an), 4, and then h a n is used as the code of "Chinese character". Or the Chinese character coding is 61634 when the Chinese character coding is composed of the zone number coding 61 of the initial letter ' h ', the zone number coding 63 of the final letter ' an ', the yin ' in \ the coding 4 of the tone.

Example 2: chinese phonetic alphabet of Chinese character

In the Chinese phonetic alphabet and vowel which are respectively coded by 1-9 regions according to bit operation, the region number code of initial consonant ' factory ' is 6, and vowel ' is "

"area code of 6, then" factory

"is 66, and then the factory

As the encoding of "Chinese" words; when the coding of tone is added, the coding of tone is shaded ("/) is 4, then" factory ""

"is encoded as 664, and then sent to the factory

As the encoding of the "chinese" word. Or by the zone number of the initial "factory" to encode 61, the final "

The code of region number 63, the code of voice tone yin Ping (/) 4 form the code of Chinese character, then the code of Chinese character is 61634.

II: method for coding phrases

The coding method of the phrase is divided into two-character words, three-character words and multi-character words more than three characters for coding according to the character number of the phrase.

i. Coding method for two-character word

The coding method of the two-word comprises the following steps: the area code of the initial consonant and the final consonant of each Chinese character sequentially forms the code of the two words.

For example: the Chinese phonetic pronunciation of the information is ' xin xi ', the initial consonant ' x ' area code of the information ' is 7, the final consonant ' in ' area code is 9; the area code of the initial consonant x of the information is 7, the area code of the final vowel i is 2, and the code of the information is 7971.

Method for encoding three-word

The coding method of the three words comprises the following steps: the coding of the three words is composed of the area code coding of the initial consonant of the first two words, the area code coding of the initial consonant and the area code coding of the final word in sequence.

For example: the digitalized pinyin is shu zi hua, the zone number of the initial letter sh of the numeral is 9, the zone number of the initial letter z of the numeral is 0, the zone number of the digitalized initial letter h is 6, the zone numbers of the vowels u and a are 3 and 1, and the digitalized encoding is 90631.

Method for encoding a multi-word

The coding method of the multi-word comprises the following steps: the coding of the multi-character word is formed by the initial area code coding of the first three characters and the initial area code coding of the last character in sequence.

For example: the pronunciation of the middle in the ' people's republic of China ' is ' zhong ', and the area code of the initial zh is 8; the pinyin of Hua is hua, and the area code of the initial consonant h is 6; the phonetic pronunciation of "person" is "ren", the area code of the initial consonant r is 9; the phonetic pronunciation of the country is guo, the area code of the initial consonant g is 5, and the code of the people's republic of China is 8695.

It should be noted that the alphabetical partition table and the partition tables thereafter are only preferred arrangements of the present invention. In addition to this, other types of arrangement sections are possible as long as they satisfy the condition that one letter is uniquely determined by the area number and the bit number.

Method for coding Chinese characters by Japanese pronunciation digitalization operation

The Chinese character Japanese pronunciation digital operation coding method comprises the following steps: coding kana forming Japanese pronunciation of the Chinese character by using 0-9 digits according to Japanese pronunciation of the Chinese character and adopting a method of partitioning and bitwise coding Japanese kana, distributing the kana in ten areas numbered by 0-9 digits and arranging the kana on the bits numbered by 0-9 digits in each area, taking the area number or area digit number of the kana as the code of the kana, forming the code of the Chinese character by the kana or kana code, and dividing the Chinese character of the Japanese pronunciation into the following Chinese characters according to the number of the Japanese kana forming the Japanese pronunciation of the Chinese character: the Chinese characters with pronunciation formed by not more than three kana and more than three kana are coded.

A: method for coding Japanese kana by adopting partition bitwise operation

The method for coding Japanese kana by adopting partition bitwise operation comprises the following steps: eight-partition method for coding Japanese kana by bitwise operation and ten-partition method for coding Japanese kana by bitwise operation.

a. Method for coding Japanese kana by eight-region bitwise operation

The method for coding Japanese kana by eight-region bitwise operation comprises the following steps: the method comprises the steps of dividing eight areas by using any eight numbers of ten numbers from 0 to 9, dividing one area by each number, dividing 0 to 9 ten bits by each area number, distributing eighty Japanese kana on eighty bits of the eight areas, and taking the area number or area bit number of the kana as the code of the kana. Wherein:

japanese kana coded by 1-8 bitwise operations is respectively as follows: (as shown in FIG. 7)

Positions 0-9 of region 1 correspond to: ぁ (ァ), ぃ (ィ), ぅ (ゥ), ぇ (ェ), ぉ (Only),

か (power), き (キ), く (ク), け (ク), こ (コ)

Positions 0-9 of region 2 correspond to: さ (サ), レ (シ), す (ス), せ (せ), そ (ソ),

た (タ), ち (チ), っ (ツ), て (ラ), と (turnip)

Positions 0-9 of zone 3 correspond to: ゐ

(ニ)、ぬ(ヌ)、ね(ネ)、の(ノ)、

は(ハ)、ひ(ヒ)、ふ(フ)、へ(へ)、ほ(ホ)

Positions 0-9 of zone 4 correspond to: ま (マ), み (ミ), む (), ゐ (メ), も (モ),

ゃ(ヤ)、い(イ)、ゅ(ュ)、ぇ(ェ)、ょ(ョ)

Positions 0-9 of zone 5 correspond to: ち (ラ), り (リ), (ル), れ (レ), ろ (kou),

ゎ(ワ)、る(ヰ)、ラ(ゥ)、ゑ(ヱ)、を(ぇ)

Positions 0-9 of zone 6 correspond to: y (ガ), ぎ (ギ), ぐ (ゲ), an (グ), こ (ゴ),

ざ(ザ)、ヒ(ジ)、ず(ブ)、ぜ(ぜ)、だ(ゾ)

Positions 0-9 of region 7 correspond to: だ (ダ), ぢ (ヂ), づ (ヅ), で (デ), ど (ド),

ば(バ)、び(ビ)、ぶ(ブ)、べ(べ)、ぼ(ボ)

Positions 0-9 of zone 8 correspond to: ぱ (パ), ぴ (ピ), ぷ (プ), ぺ (べ), ぽ (ポ),

ん(ン)、っ(ツ)、ゃ(ヤ)、ゅ(ュ)、ょ(ョ)

c. Method for coding Japanese kana by ten-zone bitwise operation

The method for coding Japanese kana by ten-zone bitwise operation comprises the following steps: ten areas are divided by using 0-9 digits, each digit number is divided into one area, each area number is divided into 1-5 five bits or 1-6 six bits, eighty Japanese kanas are distributed on any fifty-one bits of the ten areas, and the area number or the area number of the kana is used as the code of the kana. Wherein:

japanese kana coded by 1-0 region according to bit operation is respectively as follows:

positions 1-5 of region 1 correspond to: ぁ (ァ), ぃ (ィ), ぅ (ゥ), ぇ (ェ), ぉ (measure)

Positions 1-5 of zone 2 correspond to; かガ (force ガ), きぎ (キギ), くぐ (クグ), け (クグ), こご (コゴ)

Positions 1-5 of region 3 correspond to: さ Disk (サザ), レヒ (シジ), すず (スズ), せぜ (せゼ), そ tools (ソゾ),

Positions 1-5 of region 4 correspond to: ただ (タダ), ちぢ (チヂ), っづっ (ツヅツ), てで (ぅデ), てど (bobble 12489

Positions 1-5 of region 5 correspond to: を

(ニ)、ぬ(ヌ)、ね(ネ)、の(ノ)

Positions 1-5 of region 6 correspond to: はばぱ (ハバパ), ひ flap being woven into the crotch ぴ (ヒビピ), ふぶぷ (フブプ), へべぺ (へべぺ), ほぼぽ (ホボポ)

Positions 1-5 of region 7 correspond to: ま (マ), み (ミ), た (), ぬ (メ), ま (モ),

Positions 1-5 of region 8 correspond to: ゃゃ (ヤャ), ぃ (イ), ゅゅ (ュュ), ぇ (ェ), ょょ (ョョ)

Positions 1-5 of region 9 correspond to: ち (ぅ), Zi Zhi (リ), る (ル), れ (しレ), ろ (kou)

Positions 1-6 of region 0 correspond to: ゎ (ゥ), る (ヰ), ラ (ゥ), ゑ (エ), を (ヲ), and Si (ン)

B: according to the Japanese kana coding, according to the number of kana forming Japanese pronunciation of Chinese character, the Chinese character coding method of not more than three Japanese kana forming pronunciation and more than three Japanese kana forming pronunciation respectively is as follows:

a. chinese character coding method by composing pronunciation with no more than three Japanese kana

According to Japanese pronunciation of Chinese character, coding kana to form Japanese pronunciation of Chinese character, using area code or zone bit code of kana as code of said kana, and using code of kana or kana as code of said character

Example 1: the Japanese pronunciation of a Chinese character with pronunciation formed by one Japanese kana is 'ゐ', the kana is in Japanese kana coded by 1-0 ten-zone bitwise operation, the zone number of 'ゐ' is coded as 7, the zone number is coded as 74, the code of the kana 'is' 7 or 74, and the kana ゐ is used as the code of the 'target' character; or by the code 7 or 74 of the pseudonym "ゐ" as the code for the "destination" word.

Example 2: the Chinese character with pronunciation formed by two Japanese kana is that the Japanese pronunciation kana of the 'national' character is

In 1-0 ten-zone bit-by-bit operation codingIn the japanese kana of the code, the area code of "く" is coded as 2, the area code bit is coded as 23,

if the area code of (1) is 5 and the area code is 52, then the pseudonym is obtained

Is 25 or 23(く), 52

By pseudonym く

The code forming the "nation" word, or by the pseudonym "く

The code 25 of "constitutes the code of the" nation "word.

Example 3: the Japanese pronunciation of the character is ' ゎたレ ', the region number of ' ゎ ' in Japanese kana coded by 1-0 ten regions according to bit operation is coded as 5, the region number is coded as 54, the region number of ' た ' is coded as 4, the region number of 41 ' レ ' is coded as 3, and the region number is coded as 32, so that the code of kana ' ゎたレ ' is 543, 54(ゎ), 41(た) and 32(た), the code of kana ' ゎたレ is the code of ' me ' character, or the code of kana ' ゎたレ ' is the code of ' me ' character.

b. The coding method of Chinese characters (or phrases) is characterized by that more than three Japanese kana are used to form pronunciation.

The Chinese character (or phrase) coding method for composing pronunciation by more than three Japanese kana names comprises the following steps: the coding forms the kana of Japanese pronunciation of Chinese character, the area code or position code of kana is used as the coding of said kana, and the area code of each kana or kana is used to code Chinese character (or phrase) in turn.

For example: the japanese pronunciation of "watch" is "ぅでどけぃ", in japanese kana coded by bitwise arithmetic in 1-0 ten regions, the region number of "ぅ" is 1, the region number is 13, the region number of "で" is 2, the region number is 25, the region number of "ど" is 4, the region number is 45, the region number of "け" is 2, the region number is 24, the region number of "ぃ" is 1, and the region number is 12, then the code of "ラでどけぃ" is 12421 or 13(ぅ), 25(て), 45(ど), 24(けけ), 12(ぃ), and the code of "watch" is composed of kana ラでどけぃ; or the code 12421 of the pseudonym ラでどけぃ constitutes the code of a voice watch ".

Coding Chinese characters by digitalization operation of pronunciation of Korean Chinese characters.

The Chinese character Korean pronunciation digital operation Chinese character encoding method includes the following steps: coding Korean letters forming Korean pronunciation of the Chinese character by using ten digits from 0 to 9 according to the Korean pronunciation of the Chinese character and adopting a method of adding, subtracting and dividing the position-by-position operation coding letters, wherein the coding of Korean letters forming Korean pronunciation of the Chinese character or the coding of Chinese characters forming Korean pronunciation syllables of the Chinese character are divided into the following Chinese characters according to the number of the syllables forming Korean pronunciation of the Chinese character: the Chinese characters with pronunciation formed by one, two, three or more than three syllables are coded.

A: method for coding Korean letters by adopting addition, subtraction and partition bitwise operation

The method for coding Korean letters by adopting addition, subtraction and partition bitwise operation comprises the following steps: the Korean letter encoding method adopts addition and subtraction operation, and the Korean letter encoding method adopts partition bitwise operation.

a. Method for coding Korean alphabet (twenty-four basic letters) by adopting addition and subtraction operations

The method for coding Korean letters (twenty-four basic letters) by adopting addition and subtraction operations comprises the following steps: using ten numbers from 0 to 9, classifying strokes forming Korean letters into five basic strokes of horizontal stroke, vertical stroke, left falling stroke, dot stroke and turning stroke, correspondingly defining the codes as 1, 2, 3, 4 and 5, adding stroke codes of the letters, and after ten-tenth subtraction operation, respectively coding the Korean letters as follows: the code of (a) is 0; the code of the first step and the code of the second step are 1; 1.

the code is 2;

the code of the notch, , is 3;

the code of (4);

ヮ、

the code of (3) is 5; the code is 6;

the code of (3) is 7; a mouth,

The code of (3) is 8; ス,

The code is 9. (as shown in FIG. 14)

b. Method for coding Korean letters by partition bitwise operation

The method for coding Korean letters by adopting partition bitwise operation comprises the following steps: korean alphabet is distributed in ten regions numbered with 0-9 numerals, arranged on the bits numbered with 0-9 numerals in each region, and the region number or region number of Korean alphabet is used as the code of Korean alphabet, and according to the type of Korean alphabet, the Korean alphabet is coded by division and bitwise operation according to the basic alphabet order, the vowel order and the consonant alphabet order. Wherein:

i: method for coding Korean letters by partitioning according to basic alphabetic order and performing bitwise operation

The method for encoding Korean letters by partitioning according to basic alphabetic order and performing bitwise operation comprises the following steps: eight-region method for coding Korean letter by bit operation, ten-region method for coding Korean letter by bit operation.

i. Method for coding Korean letters by eight-region bitwise operation

The Korean letter encoding method based on eight-zone bitwise operation in the basic alphabetical order comprises the following steps: eight regions are divided by using eight numbers of any number from 0 to 9, each number divides one region, each region number divides 1 to 3 three digits, twenty-four Korean basic letters are distributed on twenty-four digits of the eight regions according to the alphabetical order, and the region number or the region number of the Korean letter is used as the code of the Korean letter. Wherein:

the Korean letters coded by 1-8 regions according to bit operation are respectively: (as shown in FIG. 11)

Positions 1-3 of region 1 correspond to:

positions 1-3 of region 2 correspond to:

positions 1-3 of region 3 correspond to:

positions 1-3 of region 4 correspond to:

ヲ

positions 1-3 of region 5 correspond to:

positions 1-3 of region 6 correspond to:

positions 1-3 of region 7 correspond to: loop

Positions 1-3 of region 8 correspond to:

a pass through

Method for coding Korean letters by ten-zone bitwise operation

The Korean letter encoding method includes the following steps: using ten numbers of 0-9, dividing ten areas by numbers, dividing one area by each number, dividing 12 bits or 1-3 three bits by each area number, distributing twenty-four Korean Y basic letters on twenty-four bits of the ten areas according to the alphabetical order, and using the area number or the area number of the Korean letter as the code of the Korean letter. Wherein:

the Korean letters coded by 1-0 regions according to bit operation are respectively: (as shown in FIG. 12)

Positions 1-3 of region 1 correspond to: ヮ

Positions 1-3 of region 2 correspond to:

ヒ

positions 1-3 of region 3 correspond to: mouth piece

Positions 1-3 of region 4 correspond to:

positions 1-3 of region 5 correspond to: ス

Positions 1-3 of region 6 correspond to: ヲ

Positions 1-3 of region 7 correspond to:

positions 1-3 of region 8 correspond to:

the position 3 of the Bu in the 9 region is correspondingly: loop

Positions 1-3 of region 0 correspond to:

a pass through

II: method for coding forty Korean vowels and consonant letters in ten-zone bitwise operation according to vowel and consonant letter sequence

The method for coding forty Korean vowels and consonant letters by ten-zone bitwise operation according to the sequence of vowels and consonant letters comprises the following steps: ten areas are divided by using ten number numbers of 0-9, each number is divided into one area, each area number is divided into 1-4 four digits, forty Korean vowels and consonant letters are distributed on the forty digits of the ten areas, and the area numbers or the area number numbers of the vowels and the consonant letters are used as codes of the vowels and the consonant letters.

The fourteen vowels and consonant letters coded according to bit operation in the ten regions in Korean are respectively: (as shown in FIG. 13)

Positions 1-4 of region 1 correspond to:

positions 1-4 of region 2 correspond to:

positions 1-4 of region 3 correspond to: mouth piece

Loop

Positions 1-4 of region 4 correspond to: oa

Positions 1-4 of region 5 correspond to: フ

|

Positions 1-4 of region 6 correspond to:

ヲ

positions 1-4 of region 7 correspond to:

positions 1-4 of region 8 correspond to:

the 4-position of the 9-region is correspondingly:

the 1-4 positions of region 0 correspond to:

b: the method for coding Chinese characters by digitalizing the Korean pronunciation of the Chinese characters according to the codes of twenty-four basic letters, forty vowels and consonant letters of Korean is divided into the following steps according to the number of syllables forming the Korean pronunciation of the Chinese characters: the Chinese characters with pronunciation formed by one, two, three or more than three syllables are coded.

a. Chinese character coding method by pronunciation formed by Korean phonetic section

The Chinese character coding method for composing pronunciation by Korean phonetic syllable comprises the following steps: according to the writing sequence of the letters, the area code codes of the letters (including basic letters, vowels and consonant letters) forming the pronunciation syllables of the Korean language of the Chinese characters or the codes of the Korean language syllables sequentially form the Chinese characters.

For example: the Korean pronunciation syllable of the female character is

In the method of encoding twenty-four basic letters in korean by bitwise operation divided into 1-8 regions, the region number of "レ" is encoded as 2,

the area code of (1) is 6, then the code of "woman" is 26 or

。

b. Chinese character (phrase) coding method by composing pronunciation from two Korean phonetic codes

The Chinese character (phrase) coding method for forming pronunciation by two Korean phonetic codes comprises the following steps: according to the writing sequence of the letters, the codes of the first letter (including basic letter, vowel and consonant) and the last letter (including basic letter, vowel and consonant) of each syllable sequentially or towards Korean phonetic syllable form the code of the Chinese character (phrase).

For example: the "economic" Korean pronunciation syllables are

In the method of encoding twenty-four basic Korean letters by addition and subtraction,

the initial letter of (a) is "フ", the code is 5, the last letter is "oa", the code is 0,

has a first letter of 'ス', is coded as 9, and has a last letter of

Coding of 2, then "economic coding of 5092 or

c. Chinese character (phrase) coding method by composing pronunciation from three Korean phonetic codes

The Chinese character (phrase) coding method for composing pronunciation by three Korean phonetic codes comprises the following steps: according to the writing sequence of the letters, the codes of Chinese characters (phrases) are sequentially formed by the area codes of the first letters (including basic letters, vowels and consonant letters) of the first two syllables, the first letters (including basic letters, vowels and consonant letters) of the last syllable and the tail letters (including basic letters, vowels and consonant letters) or Korean phonetic syllables.

For example: the pronunciation syllables of Korean language of "Credit card" are

In the method of encoding twenty-four basic letters in Korean by bitwise operation in 1-8 regions,

the initial letter of (1) is "human", the area code is 1,

first letter of

The area code is coded to be 3,

the first letter of (1) is "day", the area code is 3, and the last letter is

The code of area code is 3, then the code of 'letter of credit' is 1333 or

d. Chinese character (phrase) coding method using more than three Korean phonetic codes to form pronunciation

The Chinese character (phrase) coding method for forming pronunciation by more than three Korean phonetic codes comprises the following steps: the coding of Chinese characters (phrases) is composed of the area code of the first letter of each syllable (including basic letter, vowel, consonant) or Korean phonetic syllable in turn according to the writing sequence of the letters.

For example: korean pronunciation syllable of 'sales confirmation' is

In the method of coding forty vowels and consonants in Korean by using ten-zone bitwise operation,

the initial letter of (1) is "mutual", the area code is 7,

first letter of

The area code is coded to be 3,

first letter of

The area code is coded to be 7,

first letter of

The area code is coded to be 4,

head ofThe letter is "person", the area code is 4, the code of "sales confirmation" is 73744 or

(3) Method for coding Chinese characters according to combination of Chinese character font and pronunciation

The method for coding Chinese characters according to the combination of the character patterns and the pronunciation of the Chinese characters comprises the following steps: according to the character pattern and pronunciation of the Chinese character, according to (1) the method for coding Chinese character by digital operation according to the character pattern of Chinese character, the first code of Chinese character radical and the tail code of rest pieces are coded; coding Chinese characters by a method of coding Chinese characters through digital operation according to the pronunciation of the Chinese characters in step (2), and coding initial consonants and vowels of Chinese pronunciation of the Chinese characters; the Chinese character codes are composed of initial consonants and vowel zone code codes which form Chinese pronunciation of the Chinese characters, first codes of radicals of the Chinese characters and tail codes of rest pieces in sequence; coding is carried out by dividing single character and phrase.

Coding method for single character

The coding method of the single character comprises the following steps: the Chinese character codes are composed of initial consonants and vowel zone code codes which form Chinese pronunciation of the Chinese character, the first codes of radicals of the Chinese character and the tail codes of the rest parts in sequence.

For example: the Chinese pronunciation of 'fortune' is 'yun', the area code of initial consonant 'y' is 2, and the area code of final 'un' is 9 in Chinese phonetic initial consonant and final of Chinese phonetic alphabet coded by 0-9 area according to bit operation; if the radical code of the 'lucky' word is 9 and the tail code of the rest 'cloud' is 9, the code of the 'lucky' word is 2999.

Coding method of phrase

The encoding method of the phrase comprises the following steps: the Chinese character codes are formed by the area codes of the initial consonants and the final consonants which form the Chinese pronunciation of the Chinese character; coding is carried out by dividing two words, three words and multi-word words.

A: coding method for two words

The coding method of the two words comprises the following steps: the area code of the initial consonant and the final consonant of each Chinese character sequentially forms the code of the two words.

For example: the Chinese phonetic pronunciation of the information is xin xi, the initial consonant of the information is x, the region code is 7, the final is in, and the region code is 9; the initial consonant of "information" is "x", the area code is 7, the final is "i", the area code is 2, and the code of "information" is 7971.

B: coding method for three words

The coding method of the three words comprises the following steps: the coding of the three words is composed of the area code coding of each area code of the first two words and the area code of the initial consonant and the final sound of the last word in sequence.

For example: the digitalized pinyin is shu zi hua, the initial consonant of the numeral is sh, the zone code is 9, the initial consonant of the character is z, and the zone code is 0; the 'digitalized' code is 9061 if the initial consonant is h, the region code is 6, the last vowel is a, and the region code is 1.

C: coding method of multi-word

The coding method of the multi-word comprises the following steps: the coding of the multi-character word is formed by the initial area code coding of the first three characters and the initial area code coding of the last character in sequence.

For example: the pronunciation of the middle in the ' people's republic of China ' is ' zhong ', the initial consonant is zh, and the region number is coded as 8; the pinyin of Hua is hua, the initial consonant is h, and the region code is 6; the phonetic pronunciation of the 'person' is 'ren', the initial consonant is r, and the region code is 9; the pronunciation of the pinyin of the country is guo, the initial consonant is g, the area code is 5, and the code of the people's republic of China is 8695.

2. Digital operation coding method for phonogram

The digitalized operation coding method of the phonogram comprises the following steps: according to the character form and pronunciation of the phonogram, ten numbers of 0-9 are used, and the coding method of addition, subtraction and partition bitwise operation is adopted to code the strokes and letters forming the character form and pronunciation of the phonogram, and the codes of the phonogram or the letters forming the codes of the phonogram.

(1) Method for coding phonogram according to phonogram font and digitalization operation

The method for coding the phonograms in a digitalized operation mode according to the font types of the phonograms comprises the following steps: according to the character form of the phonogram, using ten numbers of 0-9, adopting coding method of addition, subtraction and partition bitwise operation to code letters forming phonogram character form, and using the code of letters to form coding of phonogram character, according to the character form structure of phonogram character, dividing phonogram character into phonogram character formed from letters arranged from top to bottom and left and right and phonogram character formed from letters arranged from left to right and making digital operation coding.

Coding method for phonogram (Korean character) composed of letters arranged up and down and left and right

The phonetic characters composed of letters arranged up, down, left and right only have korean characters.

The coding method of phonogram (Korean character) composed of letters arranged up and down and left and right includes: according to the font of the Korean character, using 0-9 ten numbers, adopting an encoding method of addition, subtraction and partition bitwise operation to encode the strokes and letters forming the font of the Korean character, forming the encoding of the Korean character by the encoding of the letters, and dividing the Korean character into the Korean characters formed by one, two, three or more than three syllables according to the number of syllables forming the Korean character for encoding.

A: method for coding (twenty-four basic Korean) letters by addition and subtraction

The method for coding (twenty-four basic Korean letters) by adopting addition and subtraction operations comprises the following steps: using 0-9 ten numbers, coding strokes of the formed (Korean) letters by adopting addition and subtraction operations, classifying the strokes of the formed (Korean) letters into five basic strokes of horizontal, vertical, left falling, dot and turning, correspondingly defining the codes as 1, 2, 3, 4 and 5, adding the stroke codes of the letters, and after the operation of subtracting ten from ten, respectively coding the Korean letters as follows: go out,

The code of (a) is 0; the code of the first step and the code of the second step are 1; 1.

the code of (3) is 2;

a seam, ,The code of (3);

the code of (4);

、л、

the code of (3) is 5; the code is 6: a human body,

The code of (3) is 7; a mouth,

Is 8: ス,

The code is 9. (as shown in FIG. 14)

B: method for coding twenty-four basic Korean letters by partition bitwise operation

a. Method for coding twenty-four basic Korean letters by eight-region bitwise operation

The method for coding (twenty-four basic Korean letters) by eight-region bitwise operation comprises the following steps: eight regions are divided by using eight numbers of any number from 0 to 9, each number divides one region, each region number divides 1 to 3 three digits, the letters (twenty-four korean basic) are distributed over twenty-four digits of ten regions in alphabetical order, and the region number or region number of the letter (korean) is used as the code of the letter (korean). Wherein:

the (Korean) letters coded by 1-8 regions according to bit operation are respectively: (as shown in FIG. 11)

Positions 1-3 of region 1 correspond to: ヮ Ethyl ヒ

Positions 1-3 of region 2 correspond to:

mouth piece

Positions 1-3 of region 3 correspond to:

ス

positions 1-3 of region 4 correspond to:

ヲ

positions 1-3 of region 5 correspond to:

positions 1-3 of region 6 correspond to:

positions 1-3 of region 7 correspond to: loop

Positions 1-3 of region 8 correspond to:

a pass through

b. Method for coding twenty-four basic Korean letters by using ten-zone bitwise operation

The method for coding (twenty-four basic Korean letters) by using ten-division bitwise operation comprises the following steps: ten regions are numbered using ten numbers of 0 to 9, one region is numbered per number, 1 to 2 bits or 1 to 3 bits per region number, and the (twenty-four korean basic) letters are distributed alphabetically over twenty-four bits of the ten regions, with the region number or region number of the (korean) letter as the code for the (korean) letter. Wherein:

the letters coded by 1-0 regions according to bit operation (Korean) are respectively: (as shown in FIG. 12)

Positions 1-3 of region 1 correspond to:

positions 1-3 of region 2 correspond to: hai Yu (oral medicine)

Positions 1-2 of region 3 correspond to:

б

positions 1-3 of region 4 correspond to: フ

ヲ

Positions 1-3 of region 5 correspond to:

positions 1-2 of region 6 correspond to:

positions 1-2 of region 7 correspond to:

positions 1-2 of region 8 correspond to: loop

Positions 1-2 of region 9 correspond to:

The 1-2 positions of the 0 region correspond to: a pass through

C: according to the above-mentioned coding of (twenty-four basic korean) letters, the coding methods of (korean) characters consisting of one, two, three, or more than three syllables respectively are:

a. method for coding (Korean) characters composed of one syllable

The coding method of characters (Korean) composed of one syllable comprises the following steps: according to the writing sequence of the letters, the codes of the letters (in Korean) are sequentially combined into the codes of the characters (in Korean).

For example:

(female) "in the method of bitwise-encoding (twenty-four basic letters in korean) by 1-8 regions,

is coded to be 2, and,

number coded as 6, then

Is 26.

b. Method for coding Korean characters (phrases) composed of two syllables

The coding method of the (Korean) character (phrase) composed of two syllables comprises the following steps: the code of the (korean) character (phrase) is composed of the code of the first letter and the last letter of each syllable or the syllable in turn according to the writing order of the letters.

For example:

(economy) "in the method of encoding (twenty-four basic korean letters) using addition and subtraction operations,

has a first letter of 'フ', is coded as 5, and has a last letter of

The code is a number of 0 s,

first letter ofス, code is 9, the tail letter is 1, code is 2, then

(economic) "encoding of 5092 or

c. Method for coding (Korean) characters (phrases) composed of three syllables

The coding method of (Korean) characters (phrases) composed of three syllables comprises the following steps: according to the writing sequence of the letters, the codes of the first letters of the first two syllables, the codes of the first letter and the last syllable or the syllables are sequentially formed into the codes of (Korean) characters (phrases).

For example:

(letter of credit) "in the method of bitwise encoding (twenty-four basic korean letters) in 1-8 zones,

the initial letter of (1) is "human", the area code is 1,

first letter of

The area code is coded to be 3,

the first letter of (A) is 'フ', the area code is 3, and the last letter is

The code is 3, then

(Credit) "is coded as 1333 or

d. Method for coding (Korean) characters (phrases) composed of more than three syllables

The coding method of (Korean) characters (phrases) composed of more than three syllables comprises the following steps: the code of the (korean) character (phrase) is composed in turn from the code of the first letter of each syllable or the syllable according to the writing order of the letters.

Example (b)

(sales confirmation) "in the method of encoding (in korean) letters using addition and subtraction operations,

first letter of

The code is 9, and the code is,

the first letter of (A) is "kou", the code is 8,

first letter of

The code is a code of 2, and the code is a code of 2,

first letter of

The code is a number of 0 s,

first letter of

The code is 5

(sales confirmation) "is coded as 98205 or

Coding method of phonogram composed of letters arranged from left to right

The coding method of phonogram composed of letters arranged from left to right is as follows: according to the character form of the phonogram, ten numbers of 0-9 are used, a method of coding letters by partition and bitwise operation is adopted, the letters forming the character form of the phonogram are coded, the letters are distributed in ten areas numbered with the ten numbers of 0-9 and are arranged on the positions numbered with the ten numbers of 0-9 in each area, the codes of the phonogram are formed by the codes or the letters of the letters, and the phonogram is coded by digital operation according to the difference of the phonogram in different countries. Wherein:

a: english digitalized operation coding method

The English digitalized operation coding method comprises the following steps: the method is characterized in that according to English characters, ten numbers of 0-9 are used, a method of coding letters by partition bitwise operation is adopted, the letters forming the English characters are coded, the letters are distributed in ten areas numbered with the ten numbers of 0-9 and are arranged on the positions numbered with the ten numbers of 0-9 in each area, the area numbers or the area number of the letters are used as codes of the letters, then the codes of characters are formed by the letters or the codes of the letters, and English is divided into letters and single words to be coded according to the division of the English letters and the single words.

a. Method for coding English letters by partition bitwise operation

The method for coding English letters by adopting partition bitwise operation comprises the following steps: the eight-zone bitwise operation coding method for English letters and the ten-zone bitwise operation coding method for English letters.

I: method for coding English letters by eight-zone bitwise operation

The method for coding English letters by eight-region bitwise operation comprises the following steps: eight numbers of any number of 0-9 ten numbers are used, the number is divided into eight areas, each number is divided into one area, each area number is divided into 1-3 three bits or 1-4 four bits, twenty-six English letters are distributed on twenty-six bits of the ten areas, and the area number or the area number of the letter is used as the code of the letter. Wherein:

english letters which are coded by 1-8 areas according to bit operation are respectively: (as shown in FIG. 15)

Positions 1-4 of region 1 correspond to: aa. Bb, Cc, Dd

Positions 1-3 of region 2 correspond to: ee. Ff, Gg

Positions 1-4 of region 3 correspond to: hh. I i, Jj, Kk

Positions 1-3 of region 4 correspond to: l1, Mm, Nn

Positions 1-3 of region 5 correspond to: oo, Pp, Qq

Positions 1-3 of region 6 correspond to: rr, Ss, Tt

Positions 1-3 of region 7 correspond to: uu, Vv, Ww

Positions 1-3 of region 8 correspond to: xx, Yy, Zz

II: method for coding English letters by ten-zone bitwise operation

The method for coding English letters by ten-zone bitwise operation comprises the following steps: ten numbers of 0-9 are used, the number is divided into ten areas, each number is divided into one area, each area number is divided into 1-2 bits or 1-3 bits, twenty-six English letters are distributed on twenty-six bits of the ten areas, and the area number or the area number of the letter is used as the code of the letter. Wherein:

english letters which are coded by 1-0 areas according to bit operation are respectively: (as shown in FIG. 16)

Positions 1-2 of region 1 correspond to: aa. Bb

Positions 1-2 of region 2 correspond to: cc. Dd

Positions 1-3 of region 3 correspond to: ee. Ff, Gg

Positions 1-2 of region 4 correspond to: hh. I i

Positions 1-2 of region 5 correspond to: jj. Kk

Positions 1-3 of region 6 correspond to: ll, Mm, Nn

Positions 1-3 of region 7 correspond to: oo, Pp, Qq

Positions 1-3 of region 8 correspond to: rr, Ss, Tt

Positions 1-3 of region 9 correspond to: uu, Vv, Ww

Positions 1-3 of region 0 correspond to: xx, Yy, Zz

b. According to the above English letter coding, the coding method of the English word is as follows: the English words are composed of codes of English letters or English letters.

For example: "china", in the english alphabet of the 1-8 division bitwise arithmetic coding, "c" has an area code of 1, an area code of 13, "h" has an area code of 3, an area code of 31, "i" has an area code of 3, an area code of 32, "n" has an area code of 4, an area code of 33, "a" has an area code of 1, and an area code of 11, the "china" has a code of 13341 or 13(c), 31(h), 32(i), 43(n), 11 (a).

B: japanese coding method

The encoding method of Japanese comprises the following steps: the method for coding Japanese kana by using 0-9 digits according to Japanese font and adopting partition bitwise operation encodes the kana forming the Japanese font, distributes letters in ten areas numbered with 0-9 digits, arranges the letters on the bits numbered with 0-9 digits in each area, uses the area number or the area bit number of the kana as the code of the kana, forms the code of characters by the code of the kana or the kana, and divides the Japanese into kana and a monolingual for coding according to Japanese kana and monolingual division.

a. Method for coding Japanese kana by adopting partition bitwise operation

The method for coding Japanese kana by adopting partition bitwise operation comprises the following steps: ten areas are divided by using 0-9 digits, each digit number is divided into one area, each area number is divided into 1-5 five bits or 1-6 six bits, eighty Japanese kanas are distributed on any fifty-one bits of the ten areas, and the area number or the area number of the kana is used as the code of the kana. Wherein:

japanese kana coded by 1-0 ten regions according to bit operation is respectively as follows:

positions 1-5 of region 1 correspond to: ぁ (ァ), ぃ (イ), ラ (ゥ), ぇ (ェ), ぉ (measure)

Positions 1-5 of region 2 correspond to: かガ (force ガ), きぎ (キギ), くぐ (クゲ), け (クグ), こで (コゴ)

Positions 1-5 of region 3 correspond to: さ Disk (サザ), レヒ (シジ), すず (スズ), せぜ (セぜ), そ tools (ソゾ),

Positions 1-5 of region 4 correspond to: ただ (タダ), ちぢ (チヂ), っづっ (ツヅツ), てで (ぅデ), とど (bobble 12489

Positions 1-5 of region 5 correspond to: ゐ

(こ)、ぬ(ヌ)、ね(ネ)、の(ノ)

Positions 1-5 of region 6 correspond to: はばぱ (ハバパ), ひ flap being woven into the crotch ぴ (ヒビピ), ふぶぷ (フブプ), へべぺ (へべぺ), ほぼぽ (ホボポ)

Positions 1-5 of region 7 correspond to: ま (マ), み (ミ), む (), (メ), ま (モ),

Positions 1-5 of region 8 correspond to: ゃゃ (ヤヤ), ぃ (ィ), ゅゅ (ュュ), ぇ (ェ), ょょ (ョョ)

Positions 1-5 of region 9 correspond to: ち (ぅ), Zi Zhi (リ), る (ル), れ (レ), ろ (kou)

Positions 1-6 of region 0 correspond to: ゎ (ワ), る (ヰ), ラ (ゥ), ゑ (ヱ), を (ヲ), and Si (ン)

b. According to the Japanese kana coding, the Japanese monolingual coding method comprises the following steps: the coding of Japanese monolingual is composed of the coding of kana or kana.

For example: "ゎたレ", in japanese kana encoded by bitwise operation in 1 to 0 ten divisions, the code for "ゎ" is 5, the code for "54", the code for "た" is 4, the code for "41" し "is 3, and the code for" ゎたレ "is 543, 54(ゎ), 41(た), 32(し).

C: spanish language coding method

The spanish coding method comprises the following steps: according to the character form of Spanish, ten numbers of 0-9 are used, a method of coding letters by partition and bitwise operation is adopted, the letters forming the Spanish character form are coded, the letters are distributed in ten areas numbered with the numbers of the ten numbers of 0-9 and are arranged on the positions numbered with the numbers of the ten numbers of 0-9 in each area, the area number or the area number of the letter is used as the code of the letter, then the code of the letter or the code of the letter forms the code of the character, and the Spanish is divided into single letters and single words for coding according to the division of the Spanish letters and the single words.

a. Method for coding Spanish letters by adopting partition bitwise operation

The method for coding Spanish letters by adopting partition bitwise operation comprises the following steps: eight-region bitwise operation coding method for letters and ten-region bitwise operation coding method for Spanish letters.

I: method for coding Spanish letters by eight-region bitwise operation

The method for coding Spanish letters by eight-region bitwise operation comprises the following steps: eight numbers of any number from 0 to 9 are used, eight regions are marked by numbers, each number is divided into one region, each region number is divided into 1 to 3 three bits or 1 to 5 four bits, thirty-four Spanish letters are distributed on twenty-nine bits of the ten regions, and the region number or the region number of the letter is used as the code of the letter. Wherein:

spanish letters which are coded by 1-8 areas according to bit operation are respectively as follows: (as shown in FIG. 17)

Positions 1-4 of region 1 correspond to: aa (a), Bb, C (Ch) C (Ch), Dd

Positions 1-3 of region 2 correspond to: ee, Ff, Gg

Positions 1-4 of region 3 correspond to: hh. Ii (i), Jj, Kk

Positions 1-3 of region 4 correspond to: l (Ll)1(11), Mm, N (N) N (N),

Positions 1-3 of region 5 correspond to: oo (Lou), Pp, Qq

Positions 1-3 of region 6 correspond to: rr, Ss, Tt

Positions 1-3 of region 7 correspond to: uu (u), Vv, ww

Positions 1-3 of region 8 correspond to: xx, Yy, Zz.

II: method for coding Spanish letters by ten-zone bitwise operation

The method for coding Spanish letters by ten-region bitwise operation comprises the following steps: ten areas are divided by using 0-9 digits, each digit number is divided into one area, each area number is divided into 1-2 two bits or 1-3 three bits or 1-4 four bits, thirty-four Spanish letters are distributed on twenty-nine bits of eight or ten areas, and the area number or the area number of the letter is used as the code of the letter. Wherein:

spanish letters which are coded by 1-0 regions according to bit operation are respectively as follows: (as shown in FIG. 18)

Positions 1-2 of region 1 correspond to: aa (ā), Bb

Positions 1-2 of region 2 correspond to: c (Ch) c (ch), Dd

Positions 1-3 of region 3 correspond to: ee, Ff, Gg

Positions 1-2 of region 4 correspond to: hh. Ii (i)

Positions 1-2 of region 5 correspond to: jj. Kk, k,

Positions 1-3 of region 6 correspond to: l (Ll)1(11), Mm, N (N) N (N)

Positions 1-3 of region 7 correspond to: oo (Lou), Pp, Qq,

Positions 1-3 of region 8 correspond to: rr, Ss, Tt,

Positions 1-3 of region 9 correspond to: uu (u), Vv, Ww

Positions 1-3 of region 0 correspond to: xx, Yy, Zz.

c. According to the coding method of the Spanish letters, the coding method of the Spanish words comprises the following steps: the coding of the spanish words is composed of the codes of the letters or the letters.

For example: "globo", in spanish letters coded by bitwise arithmetic in 1-8 regions, the region number code of "g" is 1, the region number code is 13, the region number code of "1" is 3, the region number code is 31, the region number code of "o" is 3, the region number code is 32, the region number code of "b" is 4, the region number code is 33, the region number code of "o" is 1, and the region number code is 11, then the code of "globo" is 13341 or 13(c), 31(h), 32(i), 43(n), 11 (a).

D: german encoding method

The encoding method of German comprises the following steps: according to the character form of German, using ten numbers of 0-9, adopting zone-by-zone bit-by-bit operation coding method to code the letters forming German character form, distributing the letters in ten zones using ten number of 0-9, arranging the letters in the bits using ten number of 0-9 in each zone, using zone number or zone number of the letter as code of said letter, then using the letter or code of the letter to form code of the character, according to the division of German letter and word, dividing German into letters and word single words to code.

a. Method for coding German letters by partition bitwise operation

The method for encoding German letters by adopting partition bitwise operation comprises the following steps: the method for coding German letters by eight-zone bitwise operation and the method for coding German letters by ten-zone bitwise operation.

I: method for coding German letters by eight-region bitwise operation

The method for coding German letters by eight-region bitwise operation comprises the following steps: eight numbers of any number from 0 to 9 are used, eight regions are marked by numbers, each number is marked by a region, each region number is marked by 1 to 3 three bits or 1 to 4 four bits, thirty-four German letters are distributed on twenty-nine bits of the eight regions, and the region number or the region number of the letter is used as the code of the letter. Wherein:

the German letters coded by 1-8 regions according to bit operation are respectively: (as shown in FIG. 19)

Positions 1-4 of region 1 correspond to: a (A), a (a), Bb, Cc, Dd

Positions 1-3 of region 2 correspond to: ee. Ff, Gg

Positions 1-4 of region 3 correspond to: hh. Ii, Jj, Kk

Positions 1-3 of region 4 correspond to: ll, Mm, Nn

Positions 1-3 of region 5 correspond to: 0(P) o (o), Pp, Qq

Positions 1-4 of region 6 correspond to: rr, Ss, Tt, beta

Positions 1-3 of region 7 correspond to: u (U) U (U), Vv, Ww

Positions 1-3 of region 8 correspond to: xx, Yy, Zz

II: method for coding German letters by ten-zone bitwise operation

The method for encoding German letters by ten-zone bitwise operation comprises the following steps: ten areas are divided by using 0-9 digits, each digit number is divided into one area, each area number is divided into 1-2 bits or 1-3 three bits, thirty-four German letters are distributed on twenty-nine bits of the ten areas, and the area number or the area number of the letters is used as the code of the letters. Wherein:

the German letters coded by 1-0 regions according to bit operation are respectively: (as shown in FIG. 20)

Positions 1-2 of region 1 correspond to: a (A) a, (a), Bb,

Positions 1-2 of region 2 correspond to: cc. Dd

Positions 1-3 of region 3 correspond to: ee. Ff, Gg

Positions 1-2 of region 4 correspond to: hh. I i

Positions 1-2 of region 5 correspond to: jj. Kk

Positions 1-3 of region 6 correspond to: ll, Mm, Nn

Positions 1-3 of region 7 correspond to: o (O) o (o), Pp, Qq

Positions 1-4 of region 8 correspond to: rr, Ss, Tt, beta

Positions 1-3 of region 9 correspond to: u (U) U (U), Vy, Ww

Positions 1-3 of region 0 correspond to: xx, Yy, Zz

b. According to the above German letter code, the coding method of German words is as follows: the code of the German word is composed of the codes of letters or letters.

For example: "wenn", in the 1-0 region of the German letter coded by bitwise operation, the region number code of "w" is 9, the region number code is 93, the region number code of "e" is 3, the region number code is 31, the region number code of "n" is 6, the region number code is 63, and the code of "wenn" is 9366 or 93(w), 31(e), 63 (n).

E: russian encoding method

The coding method of Russian is as follows: according to the Russian font, using 0-9 digits, adopting a method of partitioning and bitwise operation to code the Russian letters, coding the letters forming the Russian font, distributing the letters in ten regions numbered with 0-9 digits, arranging the letters in the positions numbered with 0-9 digits in each region, using the region numbers or region numbers of the letters as the codes of the letters, forming the codes of characters by the letters or the codes of the letters, and dividing the Russian letters into letters and single words for coding according to the division of the Russian letters and the single words.

a. Method for coding Russian letters by adopting partition bitwise operation

The method for coding the Russian letters by adopting partition bitwise operation comprises the following steps: the method for coding the Russian letters by eight-region bitwise operation and the method for coding the Russian letters by ten-region bitwise operation.

I: method for coding Russian letters by eight-region bitwise operation

The method for encoding the Russian letters by eight-region bitwise operation comprises the following steps: eight numbers of any eight numbers of 0-9 ten numbers are used, eight regions are marked by numbers, each number of the number. Wherein:

the Russian letters coded by 1-8 regions according to bit operation are respectively: (as shown in FIG. 21)

1-4 positions in region 1 correspond to: Aa, Ъb, B B, Гг

The 1-4 positions of the 2 region are correspondingly: Дд, Еe, Жж, 3з

The 1-4 positions of the 3 region are correspondingly: Ии, Йй, Кк, Лл

The 1-4 sites of the 4 region are M M, H H, O o, Пп

The 1-4 positions of the 5 region are correspondingly: Pp, Cc, Tt, Yy

The 1-4 positions of the 6 region are correspondingly: ΦΦ, X x, Цц, Чч

The 1-4 positions of the 7 region are correspondingly: Шш, Щщ, Ъъ, Ыы

The 1-4 positions of the 8 region are correspondingly: Ъ-ъ, Зэ, Юю, Яя

II: method for encoding Russian letters by ten-region bitwise operation

The method for encoding the Russian letters by ten-region bitwise operation comprises the following steps: using ten numbers of 0-9, dividing ten regions by numbers, dividing one region by each number, dividing 1-2 bits or 1-3 three bits by each region number, distributing thirty-four Russian letters on thirty-four bits of the ten regions, and using the region numbers or region number of the letters as the codes of the letters. Wherein:

the Russian letters which are coded by 1-0 regions according to bit operation are respectively: (as shown in FIG. 22)

1-3 positions in region 1 correspond to: Aa, Ъb, B B

The 1-3 positions of the 2 region are correspondingly: Γг, Дд, Еe

The 1-3 positions of the 3 region are correspondingly: Жж, 3з, Ии

The 1-3 positions of the 4 region are correspondingly: Йй, Кк, Лл

The 1-4 positions of the 5 region are correspondingly: Mм, H H, O o, ПП

1-3 positions of region 6 correspond to: Pp, Cc, Tt,

The 1-3 positions of the 7 region are correspondingly: Yy, ΦΦ, X x

The 1-3 positions of the 8 region are correspondingly: цц, Чч, Шш

The 1-3 positions of the 9 region are correspondingly: Щщ, Ъъ, Ыы

The 1-4 positions in the 0 region are correspondingly: Ъъ, Зэ, Юю, Яя

b. According to the Russian letter code, the coding method of the Russian words comprises the following steps: the coding of the russian word is composed of the coding of letters or the letters.

For example: "Ъ e ж я" is encoded by 1-8 regions according to the bit arithmetic coding, wherein the region number of "Ъ" is 1, the region number of "e" is 12, the region number of "e" is 2, the region number of "ж" is 22, the region number of "ж" is 23, the region number of "я" is 8, and the region number of "Ъ e ж" is 13341 or 12(Ъ), 22(e), 23(ж), and 84(я).

F: french coding method

The method for encoding French comprises the following steps: the method for coding the French letters by using 0-9 digits according to the font of French and adopting a partition bitwise operation method is characterized in that the letters forming the French font are coded, the letters are distributed in ten areas numbered with 0-9 digits and are arranged on the positions numbered with 0-9 digits in each area, the area number or the area number of the letter is used as the code of the letter, then the code of the letter or the code of the letter forms the code of the character, and the French is divided into letters and single words for coding according to the division of the French letters and the single words.

a. Method for coding French letters by adopting partition bitwise operation

The method for coding French letters by adopting partition bitwise operation comprises the following steps: the method for coding the French letters by eight-zone bitwise operation and the method for coding the French letters by ten-zone bitwise operation.

I: method for coding French letters by eight-region bitwise operation

The method for coding French letters by eight-region bitwise operation comprises the following steps: eight numbers of any eight numbers of 0-9 ten numbers are used, eight regions are marked by numbers, each number of the number. Wherein:

a. the French letters coded by 1-8 regions according to bit operation are respectively: (as shown in FIG. 23)

Positions 1-4 of region 1 correspond to: Aa(à), Bb, Cc, Dd

Positions 1-3 of region 2 correspond to: Ee(èéě), Ff, Gg

Positions 1-4 of region 3 correspond to: hh. Ii, Jj, Kk

Positions 1-3 of region 4 correspond to: ll, Mm, Nn

Positions 1-3 of region 5 correspond to: oo, Pp, Qq

Positions 1-3 of region 6 correspond to: rr, Ss, Tt

Positions 1-3 of region 7 correspond to: uu (u), Vv, Ww

Positions 1-3 of region 8 correspond to: xx, Yy, Zz

II: method for coding French letters by ten-zone bitwise operation

The method for coding French letters by ten-zone bitwise operation comprises the following steps: ten areas are divided by using 0-9 digits, numbers are divided into ten areas, each digit number is divided into one area, each area number is divided into 1-2 bits or 1-3 bits, twenty-six French letters are distributed on twenty-six bits of the ten areas, and the area numbers or the area number of the letters are used as codes of the letters. Wherein:

the French letters coded by 1-0 region according to bit operation are respectively: (as shown in FIG. 24)

Positions 1-3 of region 1 correspond to: aa (a), Bb

Positions 1-3 of region 2 correspond to: cc. Dd

Positions 1-3 of region 3 correspond to: Ee(èéě), Ff, Gg

Positions 1-3 of region 4 correspond to: hh. I i

Positions 1-3 of region 5 correspond to: jj. Kk

Positions 1-3 of region 6 correspond to: l1, Mm, Nn

Positions 1-4 of region 7 correspond to: oo, Pp, Qq

Positions 1-3 of region 8 correspond to: rr, Ss, Tt,

Positions 1-4 of region 9 correspond to: uu (u), Vv, Ww

Positions 1-3 of region 0 correspond to: xx, Yy, Zz.

b. According to the above French letter code, the coding method of French words is: the code of the French word is composed of the codes of letters or letters.

For example: "wenn", in the French letter of 1-8 division bitwise arithmetic coding, the region number code of "w" is 9, the region number code is 93, the region number code of "e" is 3, the region number code is 31, "n" vowel region number code is 6, the region number code is 63, "n" region number code is 6, the region number code is 63, then the code 9366 of "wenn" is either 93(w), 31(e), 63 (n).

G: greek text coding method

The Greek text coding method comprises the following steps: the method for coding Greek letters by using 0-9 digits according to the Greek font and adopting a partition bitwise operation method is characterized in that the letters forming the Greek font are coded, the letters are distributed in ten areas numbered with 0-9 digits and are arranged on the positions numbered with 0-9 digits in each area, the area number or the area number of the letter is used as the code of the letter, the code of the letter or the code of the letter forms the code of the character, and the Greek is divided into letters and single words according to the division of the Greek letters and the words to be coded.

a. Method for coding Greek letters by adopting partition bitwise operation

The method for coding Greek letters by adopting partition bitwise operation comprises the following steps: the method for coding Greek letters by eight-region bitwise operation and the method for coding Greek letters by ten-region bitwise operation.

I: method for coding Greek letters by eight-region bitwise operation

The method for coding Greek letters by eight-region bitwise operation comprises the following steps: eight numbers of any one of 0 to 9 and eight numbered zones are used, each number of each number divides one zone, each zone number divides 1 to 3 three digits, twenty-four Greek letters are distributed on twenty-four digits of the eight zones, and the zone number or zone digit number of the letter is used as the code of the letter. Wherein:

the Greek letters coded by 1-8 regions according to bit operation are respectively: (as shown in FIG. 25)

Positions 1-4 of region 1 correspond to: A a, Bβ, Γγ

Positions 1-3 of region 2 correspond to: Δδ, Еε, zら

Positions 1-4 of the 3 region correspond to Нη,

θ, I

Positions 1-3 of region 4 correspond to: Kк, Λλ, Mμ

Positions 1-3 of region 5 correspond to: N v, Ξら, O o

Positions 1-3 of region 6 correspond to: Пл, Pρ, ∑σ

Positions 1-3 of region 7 correspond to: Tτ, Υυυ, ΦΦ

Positions 1-3 of region 8 correspond to: XΧ, Ψω, ΩЁ

II: method for coding Greek letters by ten-zone bitwise operation

The method for coding Greek letters by ten-region bitwise operation comprises the following steps: ten areas are divided by using 0-9 numbers, each number is divided into one area, each area number is divided into 1-2 bits or 1-3 bits, twenty-four Greek letters are distributed on twenty-four bits of the ten areas, and the area numbers or the area number of the letters are used as codes of the letters. Wherein:

the Greek letters coded by 1-0 regions according to bit operation are respectively: (as shown in FIG. 26)

Positions 1-2 of region 1 correspond to: aa. Beta

Positions 1-2 of region 2 correspond to: gamma, delta

Positions 1-2 of region 3 correspond to: e, z ら

Positions 1-2 of the 4 region correspond to the NEs η,

θ

Positions 1-3 of region 5 correspond to: i is

Kк

Positions 1-3 of region 6 correspond to: lambda, M mu

Positions 1-3 of region 7 correspond to: nv, xi ら, Oo

Positions 1-3 of region 8 correspond to: pi, P ρ, Σ σ

Positions 1-3 of region 9 correspond to: t tau, upsilon and phi

Positions 1-3 of region 0 correspond to: x beta, psi omega, omega Ё

b. According to the Greek letter codes, the coding method of the Greek words comprises the following steps; the codes of the greek words are composed of the codes of letters or the letters.

For example: "pi η Φ μ", in greek letters coded by bitwise division 1 to 8, the region number of "pi" is coded 6, the region number is coded 61, the region number of "η" is coded 3, the region number is coded 31, the region number of "Φ" is coded 7, the region number is coded 73, the region number of "μ" is coded 4, and the region number is coded 43, the coding of "pi η Φ μ" is 6374 or 61 (pi), 31(η), 73(Φ), 43(μ)

H: arabic coding method

The Arabic coding method comprises the following steps: according to the character form of Arabic, using ten numbers of 0-9, adopting a method of partition bitwise operation coding Arabic letters, coding to form the letters of Arabic character form, distributing the letters in ten areas numbered with ten numbers of 0-9, arranging the letters in the positions numbered with ten numbers of 0-9 in each area, using the area number or area number of the letters as the code of the letters, forming the code of characters by the letters or codes of the letters, and dividing Arabic into letters and single words according to the division of the Arabic letters and the single words for coding.

a. Method for coding Arabic letters by partition bitwise operation

The method for encoding Arabic letters by adopting partition bitwise operation comprises the following steps: eight-zone bit-by-bit arithmetic coding method for Arabic letters and ten-zone bit-by-bit arithmetic coding method for Greek letters.

I: method for coding Arabic letters by eight-region bitwise operation

The method for coding Arabic letters by eight-region bitwise operation comprises the following steps: eight numbers of any eight numbers from 0 to 9 are used, eight regions are marked by numbers, each number of the numbers of the eight regions are divided into 1 to 3 three digits, twenty eight Arabic letters are distributed on twenty-eight digits of the eight regions, and the area number or the area number. Wherein:

a. the Arabic letters coded by 1-8 areas according to bit operation are respectively: (as shown in FIG. 27)

Positions 1-4 of region 1 correspond to:

positions 1-3 of region 2 correspond to:

positions 1-4 of region 3 correspond to:

positions 1-3 of region 4 correspond to:

positions 1-3 of region 5 correspond to:

positions 1-3 of region 6 correspond to:

positions 1-3 of region 7 correspond to:

positions 1-3 of region 8 correspond to:

II: method for coding Arabic letters by ten-zone bitwise operation

The method for encoding Arabic letters by ten-zone bitwise operation comprises the following steps: ten areas are divided by using 0-9 digits, numbers are divided into ten areas, each digit number is divided into one area, each area number is divided into 1-2 bits or 1-3 bits, twenty eight Arabic letters are distributed on twenty-eight bits of the ten areas, and the area number or the area number of the letters is used as the code of the letters. Wherein:

the Arabic letters coded by 1-0 regions according to bit operation are respectively: (as shown in FIG. 28)

Positions 1-4 of region 1 correspond to:

positions 1-4 of region 2 correspond to:

positions 1-4 of region 3 correspond to:

positions 1-2 of region 4 correspond to:

positions 1-2 of region 5 correspond to:

positions 1-2 of region 6 correspond to:

positions 1-3 of region 7 correspond to:

positions 1-3 of region 8 correspond to:

positions 1-2 of region 9 correspond to:

1-2 positions of the 0 region correspond to

b. According to the Arabic letter coding, the coding method of the Arabic word comprises the following steps: the code of the Arabic word is formed by the code of the letters or the letters.

For example: "in the letters of 1-8 division bitwise arithmetic coding, the" code is 1, 13, 3, 31, 3, 32, 4, 33, 13341, 31(), 32(), 11 ().

(2) Method for coding phonogram according to pronunciation of phonogram and digitalized operation

The method for coding the phonogram by digital operation according to the pronunciation of the phonogram comprises the following steps: according to the pronunciation of the phonogram, using ten numbers from 0 to 9, adopting a method of partition bitwise operation coding letters, coding the letters forming the pronunciation of the phonogram, forming the coding of the phonogram by the coding of the letters, and dividing the phonogram into: the phonetic phonograms (phonograms of a phoneme in the voice represented by a letter) composed of letters arranged from top to bottom and from left to right and the syllable phonograms (phonograms of a syllable in the voice represented by a letter) composed of letters arranged from left to right are subjected to digital arithmetic coding.

Coding method for phonemic phonographemes (Korean characters) composed of letters arranged up and down and left and right

The coding method of the phoneme phonogram (Korean character) composed of the letters arranged up and down and left and right comprises the following steps: the method comprises coding vowels and consonants constituting the pronunciation of a character by using ten numbers from 0 to 9 according to the pronunciation of the character, coding the character by using a partition bitwise operation coding method, coding the character by using the codes of the vowels and consonants, and coding the character by dividing the character into characters (Korean) consisting of one, two, three or more syllables according to the number of syllables constituting the pronunciation of the character (Korean).

A: the method for coding (forty in Korean) vowels and consonant letters by adopting partition bitwise operation comprises the following steps: the vowels and consonant letters in Korean are distributed in ten areas with ten numbers of 0-9 and arranged in the positions of 0-9, and the area number or position number of vowel and consonant letter in Korean is used as the code of vowel and consonant letter in Korean. Wherein:

the (forty korean) vowels and consonants coded by 1-0 region according to bit operation are respectively: (as shown in FIG. 13)

Positions 1-4 of region 1 correspond to:

positions 1-4 of region 2 correspond to:

positions 1-4 of region 3 correspond to: mouth piece

Loop

Positions 1-4 of region 4 correspond to:

Positions 1-4 of region 5 correspond to: ス

A pass through

Positions 1-4 of region 6 correspond to:

ヲ

positions 1-4 of region 7 correspond to:

positions 1-4 of region 8 correspond to:

positions 1-4 of region 9 correspond to:

the 1-4 positions of region 0 correspond to:

b: according to the coding of the (forty korean) vowels and consonants, the coding method of the (korean) characters consisting of one, two, three or more than three syllables respectively comprises the following steps:

a. method for coding (Korean) characters composed of one syllable

The coding method of characters (Korean) composed of one syllable comprises the following steps: the codes of the characters (Korean) are sequentially composed of codes of vowels (Korean) and consonant letters or syllables according to the pronunciation of the characters (Korean).

For example:

(woman) "," し "has an area code of 1,

the area code of is 2, then

The code of (2) is 12.

b. Method for coding Korean characters (phrases) composed of two syllables

The coding method of the (Korean) character (phrase) composed of two syllables comprises the following steps: the code of the (korean) character (phrase) is composed of the code of the first letter (i.e., vowel or consonant), the code of the last letter (i.e., vowel or consonant) or the syllable of each syllable in turn according to the reading of the (korean) character.

For example: "

(economy) ",

the first letter of (1) is 'ケ', the area code is 1, and the last letter is

The area code is coded to be 4,

the first letter of (A) is 'ス', the area code is 5, and the last letter is

The code of the area code is 7, then "

(economic) "is 1457 or

c. Method for coding (Korean) characters (phrases) composed of three syllables

The coding method of (Korean) characters (phrases) composed of three syllables comprises the following steps: the coding of a (korean) word (phrase) is composed in turn of codes or syllables of the first two syllables (i.e. vowels or consonants), the first syllable (i.e. vowels or consonants) and the last syllable (i.e. vowels or consonants) according to the pronunciation of the (korean) word.

For example: "

(letter of credit) ",

first letter of

The area code is coded to be 4,

first letter of

The area code is coded to be 4,

the first letter of (A) is 'ス', the area code is 5, and the last letter is

The code of the area code is 4, then "

(letter)Certificate) "is 4454 or

d. Method for coding (Korean) characters (phrases) composed of more than three syllables

The coding method of (Korean) characters (phrases) composed of more than three syllables comprises the following steps: the codes of (korean) characters (phrases) are composed in turn from the code of the first letter of each syllable, i.e. vowel or consonant, or syllable, according to the pronunciation of the (korean) characters.

Example (c) "

(sales confirmation) "in the method of encoding (in korean) letters using addition and subtraction operations,

first letter of

The area code is coded to be 7,

first letter of

The area code is coded to be 3,

first letter of

The area code is coded to be 7,

first letter of

The area code is coded to be 4,

the first letter is '/', the area code is 3, then "

(sales confirmation) "is 73743 or

Coding method of syllable phonogram (Japanese) composed of letters arranged from left to right

The coding method of syllable phonogram (Japanese) formed by arranging letters from left to right is as follows: a method for coding Japanese kana by partition bitwise operation using ten digits from 0 to 9 according to the reading of Japanese, coding the kana forming Japanese font, distributing the kana in ten areas numbered with the digits from 0 to 9, arranging the kana on the bits numbered with the digits from 0 to 9 in each area, using the area number or the area bit number of the kana as the code of the kana, forming the Japanese code by the code of the kana, and coding Japanese by dividing Japanese into kana and monolingual according to the Japanese kana and monolingual division.

A: method for coding Japanese kana by adopting partition bitwise operation

The method for coding Japanese kana by adopting partition bitwise operation comprises the following steps: the method comprises the steps of dividing eight areas by using any eight numbers of ten numbers from 0 to 9, dividing one area by each number, dividing 0 to 9 ten bits by each area number, distributing eighty Japanese kana on eighty bits of the eight areas, and taking the area number or area bit number of the kana as the code of the kana. Wherein:

a. japanese kana coded by 1-8 regions according to bit operation is respectively as follows: (as shown in FIG. 7)

Positions 0-9 of region 1 correspond to: ぁ (ァ), ぃ (ィ), ラ (ゥ), ぇ (ェ), ぉ (zhi), zhi (li), き (キ), く (ク), け (ク), こ (コ)

Positions 0-9 of region 2 correspond to: さ (サ), レ (シ), す (ス), せ (セ), そ (ソ), だ (タ), ち (チ), っ (ツ), て (ぅ), て (radish)

Zone 3The 0-9 positions of (a) correspond to: ゐ

(ニ)、ぬ(ヌ)、れ(ネ)、の(ノ)、は(ハ)、ひ(ヒ)、ふ(7)、へ(へ)、ほ(ホ)

Positions 0-9 of zone 4 correspond to: ま (マ), み (ミ), む (), ゐ (メ), ま (モ), ゃ (ヤ), ぃ (イ), ゅ (ュ), ぇ (ェ), ょ (ョ)

Positions 0-9 of zone 5 correspond to: ち (ラ), り (リ), る (ル), れ (し), ろ (kou), ゎ (ワ), る (ヰ), ラ (ゥ), ゑ (ヱ), を (ヲ)

Positions 0-9 of zone 6 correspond to: ガ (ガ), ぎ (ギ), ぐ (グ), an anchor (ゲ), で (ゴ), a nut (ザ), a nut (ヒ) (ジ), a nut (ず), a nut (ズ), a nut (ぜ) (ぜ), a nut (だ) (ゾ)

Positions 0-9 of region 7 correspond to: だ (ダ), ぢ (ヂ), づ (ヅ), で (デ), ど (ド), ば (バ), and a crotch (ど), ぶ (グ), べ (べ), ぼ (ボ)

Positions 0-9 of zone 8 correspond to: ぱ (パ), ぴ (ピ), ぶ (プ), ぺ (べ), ぼ (ポ),

B: according to the Japanese kana coding, the Japanese monolingual coding method comprises the following steps: the Japanese monolingual code is composed of the code of the kana or the kana.

For example: "ゎたレ", in japanese kana encoded by eight-partition bitwise 1-8, the code for the kana "ゎたレ" is 322 or 34(ゎ), 26(た), 22(し) when the code for "ゎ" is 3, the code for "た" is 2, the code for "た" is 26, the code for "レ" is 2, and the code for "ゎたレ" is 22.

3. Coding method for punctuation and symbol

The coding method of punctuation and symbol is as follows: according to the character form of punctuation, using ten numbers of 0-9, adopting addition, subtraction and bit-wise operation coding method to code and form stroke of punctuation character form, and using stroke code to form code of punctuation and symbol, according to the classification of punctuation and symbol, dividing punctuation and symbol into punctuation symbol and special symbol to code.

(1) Punctuation coding method

The coding method of punctuation marks is as follows: the stroke of punctuation mark is classified into five basic strokes of horizontal (-), vertical (-), left falling (ノ), point (+), and turning (B), the codes are correspondingly defined as 1, 2, 3, 4, and 5, the stroke codes of punctuation mark are added, the operation of subtracting ten from ten to obtain the code of punctuation mark, and the coding is divided into single punctuation mark and double punctuation mark according to the number of the components forming punctuation mark.

Coding of the single punctuation marks is respectively as follows: the code for period (|) is 0, the code for connection (—), dash (—), is 1, the code for comma (,) is 3, the code for pause (,), space (·), duplication (·), and ellipsis (·) is 4, the code for exclamation (|) is 6, the code for division (;) is 7, the code for colon (:) is 8, and the code for question mark (?.

②, the codes of the double-punctuation marks are respectively the code of the single-letter title number (<) 55, the code of the double-letter title number (10), the code of the single-letter quotation mark of the vertical book (55) and the double-quotation mark of the vertical book

The code of (1) is 00, the code of a double-prime (") in the abscissa is 86, the code of a single-prime (' ') in the abscissa is 43, the code of a bracket () is 43, the code of an empty bracket (') is 09, and the code of a real bracket ([ sic ]) is 09. (as shown in FIG. 29)

(2) Method of encoding special symbols

The coding method of the special symbol comprises the following steps: ten numbers of 0-9 are used, and the coding method is adopted for coding according to the bit operation.

The encoding of the special symbols is: space, plus sign, minus sign, multiply sign and divide sign are coded as 0, < $ >,

The xi, Ψ, Ω, П, and @ are encoded as 00, 01, 02, 03, 04, 05, 06, 07, 08, 09, respectively.

4. Coding of the number: zero, o and 0 are coded as 0, one and 1 are coded as 1, two and 2 are coded as 2, three and 3 are coded as 3, four and 4 are coded as 4, five and 5 are coded as 5, six, 6 are coded as 6, seven, 7 are coded as 7, eight and 8 are coded as 8, Jiu, nine and 9 are coded as 9, and Jic and ten are coded as 10.

The said coding method can encode Chinese characters, phonetic characters, punctuation marks and numbers.

Digital input method for world character information

The digital input method of world character information comprises the following steps: the invention relates to a digital operation coding method of world character information, which codes characters to be input to obtain the digital codes of the characters, uses 0-9 ten digital input codes, uses a space key to represent the codes of the input characters, uses a page turning key to select the characters to be input in a candidate character column, uses 1-0 ten numeric keys or space keys to confirm the characters selected in the candidate character column, and can complete the digital input of the characters, and classifies the world characters into Chinese characters (ideograms), phonograms, punctuations, symbols and numbers for input according to the classification of the world characters.

1. Chinese character digital input method

The digital input method of the Chinese characters comprises the following steps: according to the digital operation coding method of world character information of the invention, encode the Chinese character that needs to be input, obtain the digital code of the Chinese character, use the input code of ten numbers of 0-9, finish the code of the Chinese character of input by the space key representation, use page turning key in the Chinese character that needs to be input in the choice word column of candidate, confirm the Chinese character + selected in the word column of candidate with ten number keys of 1-0 or space key and can finish the digitized input of the Chinese character, according to the font, pronunciation of the Chinese character, divide the digitized input method of the Chinese character into: the Chinese character input method is based on the Chinese character font, the Chinese character pronunciation and shape.

(1) The method for inputting Chinese characters according to the character patterns of the Chinese characters comprises the following steps:

coding Chinese characters to be input according to the digital operation coding method of world character information of the invention to obtain the font digital coding of the Chinese characters;

secondly, inputting the codes of the Chinese characters by using ten number keys of 0-9 in sequence, and completing the coding of the input Chinese characters by punching blank keys or number keys;

thirdly, selecting Chinese characters to be input in the candidate character column by using a page turning key;

and fourthly, confirming the selected Chinese character in the candidate character column by using the ten number keys or space keys from 1 to 0, thus finishing the digital input of the Chinese character.

For example: the Chinese character is coded according to the Chinese character font digital operation coding method of the invention to obtain font digital coding 82 of the Chinese character; the codes 82 are sequentially typed by using keys 0-9, and the blank key is typed to indicate that the codes of the Chinese characters are input; selecting a 'middle' word in the candidate word column by using a page turning key; the 1-0 key or the space key is used for confirming the selected 'middle' character in the candidate character column, and the digital input of 'middle' can be completed.

(2) The method for inputting Chinese characters according to the pronunciation of the Chinese characters comprises the following steps:

coding Chinese characters to be input according to the Chinese character pronunciation digitalized operation coding method of the invention to obtain pronunciation digitalized coding of the Chinese characters;

secondly, sequentially typing the codes of the Chinese characters by using ten number keys from 0 to 9, and typing blank keys to finish the codes of the input Chinese characters;

thirdly, selecting Chinese characters to be input in the candidate character column by using a page turning key;

and fourthly, confirming the selected Chinese character in the candidate character column by using the ten number keys or space keys from 1 to 0, thus finishing the digital input of the Chinese character.

For example: the Chinese pronunciation of the 'middle' character is 'zh ō ng', according to the Chinese character pronunciation digitalization operation coding method of the invention, the 'zh ō ng' is coded to obtain a code 81831 of 'zh ō ng', keys are sequentially typed in 81831 by 0-9 keys, a blank lattice key is typed to finish the input of the code of 'zh ō ng', a page turning key is used for selecting the 'middle' character in the candidate character column, and the 1-0 key or a space key is used for confirming the 'middle' character selected in the candidate character column, thus finishing the digitalized input of the 'middle'.

Or:

coding letters (including initial consonants, vowels, kana, vowels and consonants) and tones forming syllables of the pronunciation of the Chinese character according to the digital operation coding method of the pronunciation of the Chinese character, and obtaining digital codes of the syllables;

secondly, sequentially typing in the codes of the syllables by using ten number keys from 0 to 9, and typing in empty keys to finish the codes of the input syllables;

thirdly, confirming the pronunciation syllables of the Chinese characters in a prompt bar by using 1-0 ten numeric keys or space keys;

selecting Chinese characters to be input in the candidate character column by using page turning keys;

fifthly, the Chinese character selected in the candidate character column is confirmed by using 1-0 ten numeric keys or space keys, and the digital input of the Chinese character can be completed.

For example: the Chinese pronunciation syllable of the Chinese character is zh ō ng, and according to the Chinese pronunciation digital operation coding method of the invention, zh ō ng is coded to obtain the code 881 of zh ō ng; sequentially typing in the code 881 by using keys 0-9, and blank-typing a lattice key to represent that the code of inputting the 'zh ō ng' is completed; confirming the pinyin syllable 'zh ō ng' in the prompt bar by using a 1-0 key or a space key; selecting a 'middle' character in the candidate character column by using a page turning key; the 1-0 key or the space key is used for confirming the selected 'middle' character in the candidate character column, and the digital input of 'middle' can be completed.

Or:

coding the letters (including initial consonant, vowel, kana, vowel and consonant) forming the syllable of Chinese character pronunciation according to the digital operation coding method of Chinese character pronunciation of the present invention to obtain the zone number code of the letter;

secondly, sequentially typing zone number codes of letters (including initial consonants, vowels, kana, vowels and consonants) by using ten number keys of 0-9, and typing blank lattice keys or number keys to finish the coding of the input letters;

thirdly, confirming the pronunciation syllables of the Chinese characters in a prompt bar by using 1-0 ten numeric keys or space keys;

selecting Chinese character to be input in candidate character column by page turning key

Fifthly, the Chinese character selected in the candidate character column is confirmed by using 1-0 ten numeric keys or space keys, and the digital input of the Chinese character can be completed.

For example: the Chinese pronunciation syllable zh ō ng of the Chinese character "Zhong" is composed of zh and ong, and according to the Chinese pronunciation digitalization operation coding method of the invention, zh and ong are coded; the region code bit code 81 of the zh is sequentially typed in by using keys 0-9, and the blank key is typed to finish inputting the code of the zh; sequentially keying in area code bit codes 83 of 'ong', and blank key punching indicates that the codes of 'ong' are input; confirming the syllable "zh ō ng" marked with tone in the prompt bar by 1-4 keys or space key; selecting a 'middle' character in the candidate character column by using a page turning key; the 1-0 key or the space key is used for confirming the selected 'middle' character in the candidate character column, and the digital input of 'middle' can be completed.

(3) The Chinese character sound-shape digital operation coding input method is as follows:

firstly, according to the Chinese character sound-shape digital operation coding method, Chinese characters need to be input for coding, and sound-shape digital codes of the Chinese characters are obtained;

secondly, sequentially typing the codes of the Chinese characters by using ten number keys from 0 to 9, and typing blank keys to finish the codes of the input Chinese characters;

thirdly, selecting Chinese characters to be input in the candidate character column by using a page turning key;

and fourthly, confirming the selected Chinese character in the candidate character column by using the ten number keys or space keys from 1 to 0, thus finishing the digital input of the Chinese character.

For example: the Chinese character is encoded according to the Chinese character pronunciation and shape digital operation encoding method to obtain the pronunciation and shape digital encoding 8882 of the Chinese character; sequentially keying in the code of the 'middle' character by using ten number keys from 0 to 9, and marking blank keys to finish inputting the code of the 'middle'; selecting a 'middle' character in the candidate column by using a page turning key; the 1-0 key or the space key is used for confirming the selected 'middle' character in the candidate character column, and the digital input of 'middle' can be completed.

2. Digital input method for phonogram

The digitalized input method of phonogram characters comprises the following steps: according to the digital operation coding method of world character information of the invention, the phonogram that the code needs to be input, get the numerical code of the phonogram, use 0-9 figure input code, finish inputting the code of the phonogram with the space key representation, choose the phonogram that needs to be input in the candidate word column with the page turning key, confirm the phonogram chosen in the candidate word column with 1-0 ten number keys or space key, can finish the digitized input of the phonogram, according to the font structure of the phonogram, divide the phonogram into: the phonetic characters are arranged from top to bottom and from left to right, and the phonetic characters are digitally input.

(1) The digitalized input method of phonogram composed of letters arranged up and down and left and right is as follows:

coding phonogram to be input according to the digital operation coding method of world character information of the invention to obtain digital coding of phonogram;

secondly, sequentially keying in the coding of the phonogram by using ten number keys from 0 to 9, and marking empty keys to finish inputting the coding of the phonogram;

thirdly, selecting phonogram characters needing to be input in the candidate character column by using a page turning key;

and fourthly, confirming the phonogram selected in the candidate word column by using the ten number keys or the space key from 1 to 0, and finishing the digital input of the phonogram.

For example:

according to the digital operation coding method of the world character information of the invention, the result is

The digitized code of 5092; typing 5092 with ten number keys of 0-9 in turn, and blank to finish input

The coding of (2); selecting in candidate columns by page-turning keys

Confirming the selection with 1-0 key or space keyIs fixed

Can finish the process

Is input digitally.

(2) The method for inputting the phonograms in the digitalized manner, which are formed by arranging letters from left to right, comprises the following steps:

coding phonogram to be input according to the digital operation coding method of world character information of the invention to obtain the digital code of phonogram;

secondly, sequentially keying in the coding of the phonogram by using ten number keys from 0 to 9, and marking empty keys to finish inputting the coding of the phonogram;

thirdly, selecting phonogram characters needing to be input in the candidate character column by using a page turning key;

and fourthly, confirming the selected phonogram by using the ten number keys or the space key from 1 to 0, and then completing the digital input of the phonogram.

For example: "china", according to the digital operation coding method of the world literal information of the invention, obtain the digital code 13341 of "china"; 13341 are typed by ten number keys of 0 to 9 in sequence, and the blank key is opened to indicate that the code of 'china' is input; selecting "china" in the candidate column using the page-up key; the digitalized input of "china" can be completed by confirming the selected china in the Chinese character by using 1-0 key or space key.

Or:

coding the letters forming the phonogram according to the digital operation coding method of the world character information to obtain the zone number digital codes of the letters;

using ten number keys of 0-9 to sequentially key in the zone number codes of the letters, and punching blank keys or number keys to finish the coding of the input letters;

thirdly, the 1-0 ten number keys or space keys are used for sequentially confirming the selected letters in the candidate column, and then the digitalized input of the phonogram characters can be completed.

For example: "china", according to the digital operation coding method of world character information of the invention, obtain the regional code 13, 31, 32, 43, 11 of the letter (namely part) c, h, i, n, a that makes up "china"; sequentially typing in the region number code 13 of the 'c', typing a space key, and confirming the c in the candidate character column by using a numeric key or the space key; sequentially typing in the region number code 31 of the 'h', typing a blank key, and confirming the h in the candidate character column by using a numeric key or a space key; sequentially typing in the zone number code 32 of the 'i', typing a space key, and confirming the i in the candidate character column by using a numeric key or the space key; sequentially keying in the region number code 43 of 'n', making a blank key, and confirming n in the candidate character column by using a numeric key or a space key; the area code 11 of 'a' is typed in sequence, a blank space key is typed, and a is confirmed in the candidate character column by using a numeric key or a space key, thus completing the digital input of 'china'.

Or:

coding the letters forming the phonogram according to the digital operation coding method of the world character information to obtain the zone number digital codes of the letters;

secondly, sequentially typing the zone number codes of the letters by using ten numeric keys from 0 to 9; the blank key indicates that the coding of the phonogram is finished, and the digitalized input of the phonogram can be finished.

For example: "china", according to the digital operation coding method of world character information of the invention, obtain the regional code 13, 31, 32, 43, 11 of the letter (namely part) c, h, i, n, a that makes up "china"; zone number code 13 of "c" is typed in sequence, zone number code 31 of "h" is typed in sequence, zone number code 32 of "i" is typed in sequence, zone number code 43 of "n" is typed in sequence, and zone number code 11 of "a" is typed in sequence; and the blank lattice key is opened to indicate that the coding of the Chinese is finished, so that the digital input of the Chinese can be finished.

Or:

coding the letters forming the phonogram according to the digital operation coding method of the world character information to obtain the area code digital codes of the letters;

secondly, sequentially typing area code codes of the letters by using ten number keys from 0 to 9, and typing blank keys to finish the coding of the input letters;

thirdly, the letters selected in the candidate character column are sequentially confirmed by using 1-0 ten numeric keys or space keys, and the blank keys are marked to finish the coding of the input phonograms, so that the digitalized input of the phonograms can be finished.

For example: "china", according to the digital operation coding method of world character information of the invention, obtain the area code 1, 3, 4, 1 of the letter (namely part) c, h, i, n, a which forms "china"; typing area code 1 of 'c', making space key, and confirming c in the candidate character column by using number key 1; typing an area code 3 of 'h', typing a space key, and confirming h in a candidate character column by using a numeric key 1; typing in an area code 3 of 'i', typing a space key, and confirming i in a candidate character column by using a numeric key 2; typing in an area code 4 of 'n', typing a space key, and confirming n in a candidate character column by using a numeric key 3; typing area code 1 of 'a', making space key, and confirming a in the candidate character column by using number key 1; and the blank lattice key is opened to indicate that the coding of the Chinese is finished, so that the digital input of the Chinese can be finished.

3. Digital input method for punctuation and symbol

The digitalized input method of punctuation marks comprises the following steps: according to the digital operation coding method of world character information, punctuation marks needing to be input are coded to obtain digital codes of the punctuation marks, ten numbers of 0-9 are used for inputting the codes, a space key is used for representing and finishing the codes of the punctuation marks, a page turning key is used for selecting the punctuation marks needing to be input in a candidate word column, ten numbers of 1-0 or the space key is used for confirming the punctuation marks selected in the candidate word column, and then the digital input of the punctuation marks can be finished.

For example: the pause sign and the pause sign are obtained according to the digital operation coding method of the world character information, and the pause sign coding 4 are obtained; typing in the pause number and the code 4 of the pause number, and marking a blank key to indicate that the pause number and the code of the pause number are input; selecting pause signs and pause signs in the candidate character field by using a page turning key; confirming the selected pause signs and the pause signs in the candidate character field by using a number key;

4. digital input method

The input method of the number is as follows: according to the digital operation coding method of the world character information, the number to be input is coded to obtain the code of the number, ten numbers of 0-9 are used for inputting the code, a space key is used for indicating the code of the input number, a page turning key is used for selecting the number to be input in a candidate word column, and the number selected in the candidate word column is confirmed by ten numbers of 1-0 or the space key, so that the input of the number can be completed.

For example: the digital eight or eight obtains the code 8 of the digital eight or eight according to the digital operation coding method of the world character information of the invention; entering the code 8 of the digit 'eight' or 'eight', and blank keys represent that the code of the digit 'eight' or 'eight' is finished; selecting the number "eight" or "eight" in the candidate word column by using a page turning key; and confirming the selected number 'eight' or 'eight' in the candidate word column by using the number keys, thereby completing the input of the number 'eight' or 'eight'.

Second, world character information coding input processing device

The world character information coding input processing device comprises: the device comprises equipment and a working process of the device.

Composing equipment of bulk device

The device comprises hardware and software, the hardware includes keyboard, mouse, host computer, display screen, number key display screen, printer, modem, router, the software includes information exchange code, machine code, world character library, font code, font exchange code, wherein:

1. the display window on the number key position of the keyboard or similar keyboard is set with number, Chinese character radicals, Chinese phonetic alphabet, punctuation mark and symbol:

2. the display screen is provided with a prompt bar, a candidate character bar and a text editing bar, wherein the prompt bar comprises a code input frame and a character display frame. (as shown in FIG. 31)

A prompt bar:

the code input box displays the inputted code.

The character display box displays letters or syllables and their bit codes.

Candidate word frames: and displaying the characters, symbols and numbers of the world to be selected.

Text editing column: and displaying the selected characters, symbols and numbers of the world.

3. The number key display screen is a display screen arranged on ten number keys from 0 to 9, and the content displayed by each number key display screen can display correspondingly set characters according to different input method states. (brief setup of numeric keyboard as shown in FIG. 32)

1 numeral keys are used to set Chinese character radicals including 'one', ', door', Chinese character, bow, seed, cold, horse and Chinese character, the Chinese phonetic letters are 'a', B ', c', d ', p' and o ', the Chinese phonetic letters are' ', タ', Y 'and' て ', and the phonogram letters are' Aa ', A' B ', Bb', Cc ', Dd', ch, Ъ ', B B, Гг, A A, B Ъ', A α, B β

ぁ (ァ), ぃ (ィ), ラ (ゥ), ぇ (ェ), ぉ (talent), か (force), き (キ), く (ク), け (ク), こ (コ) are given the following punctuations and symbols: a connection number, a dash; the set numbers are: one, one and 1.

The radical of the Chinese character set by the 2-digit key is as follows: i, II, V, ; the set Chinese phonetic alphabet is as follows: c. d, e, f, g, m, I; the set Chinese phonetic alphabet is as follows: jiong,

The phonetic alphabet is Cc, Dd, Ee, Ff, Gg, ch, Ee, Гг, Дд, Жж, Зз, E, gamma, delta, E, z

A mouth,

か "" includes force ガ, きぎ (キギ), くぐ (クグ), け slip-casting (クグ), こご (コゴ), さ (サ), し (シ), す (ス), せ (セ), そ (ン), た (タ), ち (チ)) っ (ツ), て (ぅ), と (bo); the numbers set are: II, II and 2.

The Chinese character radicals set by the 3 number keys are ノ, ten, three and , the Chinese phonetic letters are h, i, j, k, d, t, u and ü, and the Chinese phonetic letters are:

メ, wherein the phonetic alphabet includes Ee, E, Ff, Gg, Hh, I i (i), Jj, Kk, an, Йй, Кк, l pi, Жж, Зз, N η,

θ、I レ、Е、Z

Oa, ス, a mouth,

A suture line,

ノハj、っ、さぎ(サザ)、レヒ(シジ)、すず(スズ)、せぜ(せゼ)、そぞ(ソゾ)、な

(ニ), ぬ (ヌ), ね (ネ), bone (ノ), は (ハ), harness (ヒ), ふ (フ), へ (ヘ), ほ (ホ); the set punctuations and symbols are as follows: comma, cross-book quotation marks (right), brackets (right); the numbers set are: three, 3.

The Chinese character radicals set by the 4-number keys are as follows: the Chinese characters are factory, worker, soil, soldier, Yao, fire, dry; the set Chinese phonetic alphabet is as follows: 1. m, n, h, i, ai, ei; the set Chinese phonetic alphabet is as follows:

, respectively;the phonetic alphabet letters are Hh, Ii (i), Ll, Mm, Nn, MM, HH, Oo, Пп, Йй, Кк, pi, Кк, Λ lambda, M mu, i η,

θ、

ヲ、

ス、

,

っ、j、っ、

ただ (タグ), ちぢ (チヂ), っづっ (ツヅツ), てで (ぅゲ), とど (bobbler 12489), ま (マ), み (ミ), む (), ゐ (メ), ま (モ), ゃ (ヤ), (ィ), ゅ (ュ), ぇ (ェ), ょ (ョ); the set punctuations and symbols are as follows: pause number, interval number, emphasis number, ellipsis number, transverse book note quotation number and move number, wherein the set numbers are as follows: four, 4.

The Chinese character radicals set by 5 numeral keys are B, イ, , , +, , the phonetic letters are o, p, q, g, k, j, a o, ou, the phonetic letters are , , Yao, ヌ, the phonogram letters are Jj, Kk, Oo (O) o (O) (o), Pp, Qq, Ll, Pp, Cc, Tt, Yy, M M, NEH, Oo, ПП, N v, xi

、O o、Iι、Kк、

ス, ぇ, I,

ゐ (ナ), こ (ニ), ぬ (ヌ), れ (ネ), periphery (ノ), ち (ぅ), り (リ), る (ルレ), れ (し), ろ (kou), ゎ (ワ), る (ヰ), ラ (ゥ), ゑ (ヱ), を (ヲ); the set punctuations and symbols are as follows: single book name and vertical book single quotation marks; the numbers set are: wu, Wu and 5.

The radicals of the Chinese characters set by the 6 number keys are as follows: half-transverse n, a plurality of poverty, サ, and the set Chinese phonetic alphabet is: l, m, n, r, s, t, h, j, a n, en; the set Chinese phonetic alphabet is as follows: h-shaped,

The intended phonetic alphabet letters are Rr, Ss, Tt, Ll (11), Mm, Nn, phi, X x, Цц, Чч, Pp, Cc, П pi, P rho, sigma, П pi, P rho, ∑ sigma, Tt, Mm, Nn, phi, X x, Цц, 3526, Pp, Cc, П pi, P rho, phi, Tt,

ヲ、

はばぱ(ハバパ)、ひびぴ(ヒビピ)、ふぶぶ(7ズプ)、へべぺ(へべぺ)、ほぼぽ(ホボポ)、ガ(ガ)、ぎ(ギ)、

(ゲ), clam (グ), ど (ゴ), configured cam (ザ), ヒ (ジ), ず (ズ), ぜ (ぜ), だ (ゾ); the set punctuations and symbols are as follows: the Chinese character feeling and the horizontal writing double quotation marks have the set numbers: land, six and 6.

The radicals of the Chinese characters set on the 7 number keys are as follows: リ, Jiong, eights, ク, man, income, , ; the set Chinese phonetic alphabet is as follows: r, s, t, u, v, w, q, r, angg and eng, wherein the set Chinese phonetic alphabet is as follows: く, ,

Especially; is provided withThe definite phonogram letters are Oo, Pp, Qq, Uu (lower) U (ü) U (ü), Vv, ww, Nn, Oo (Lo) O (O) o (o), Pp, Qq, Шш, Щщ, Ъъ, Ыы, Yy, phi, X x, T tau, upsilon, phi, N v, xi

O o, and a fastener,

,

そ、

ま (ヌ), み (ミ), た (), ゐ (メ), ま (モ), だ (ダ), ぢ (ヂ), づ (ヅ), で (デ), ど (ド), ば (バ), and a crotch (ビ), ぶ (ブ), べ (べ), ぼ (ボ) are set with punctuations and symbols as semicolons, and the set numbers are: seven, 7.

The Chinese character radicals set on the 8-number keys are as follows: spoon, ク, table, , knife, force, big, mouth, and long period; the set Chinese phonetic alphabet is as follows: u, v, w, x, y, z, zh, ch, on9, ie; the set Chinese phonetic alphabet is as follows: grow up to,

The phonetic alphabet letters are Rr, Ss, Tt, β, Xx, Yy, Zz, цц, Чч, ШШ, Ъъ, З b, Юю, Яя, П pi, P ρ, Σ, X, ψ, Ω Ё, X, β, λ, Ё, Zz, Y,

A I, a notch,

ゃゃ (ャヤ), ぃ (ィ), ゅゅ (ュュ), ぇ (ェ), ょょ (ョョ), ぱ (パ), ぴ (ピ), ぷ (プ), ぺ (べ), ぽぽ (chequer),Si is one more than one, i.e. ン, っ (ツ), ゃ (ャ), ゅ (ュ), ょ (ョ); the set punctuations and symbols are as follows: colons and cross-book double quotation marks; the numbers set are: ba, Ba and 8.

The Chinese character radicals set on the 9 numeral keys are Chinese characters, their radicals are Chinese characters, their names are , , small, scarf, mountain, Yuan, , シ, corpse, woman, , day and day, the Chinese phonetic letters are x, y, z, sh, r, in and ü n, the Chinese phonetic letters are ,

,

The phonetic letters are Uu (down) (ü), Vv, ww, Шщ, B ъ, Ыы, T tau, upsilon, phi, ,

て, ち (ぅ), zizhu (リ), る (ル), れ (レ), ろ (kou); the set punctuations and symbols are as follows: question marks, solid brackets and empty brackets; the numbers set are: jiu and 9.

The Chinese character radicals set by the number keys of 0 are as follows:  cun, Yi,

Wood and moon, the phonetic letters are X, y, z, c, s and ing, the phonetic letters are Xx, Yy, Zz, Ъъ, Ээ, Юю, Яя, X beta, psi omega, omega Ё, I, II, III, Y, Z, C, S and ing, and the phonetic letters are Xx, Yy, Zz, Ъъ, Ээ, Юю, Яя, X beta, psi omega, omega Ё,

ゎ (ワ), る (ヰ), ぅ (ゥ), ゑ (ヱ), を (ヲ), and Si (ン); the set punctuations and symbols are as follows: sentence, double-book name, vertical double-quotation mark, empty square bracket, solid square bracket, blank space, plus sign, minus sign, multiplication sign and division sign,&、＄、％、￡、

xi, psi, omega, П and @ and the set numbers are zero, 0 and 0.

Working process of waste rock treatment device

The working flow of the processing device is as follows: knocking the number key position corresponding to the Chinese character radicals, Chinese phonetic letters, Chinese phonetic alphabet, phonogram letters, punctuations, symbols and numbers on the number key position of the display window of the keyboard or the similar keyboard set with the Chinese character radicals, phonogram letters, punctuations, symbols and numbers; the keyboard outputs the digital codes corresponding to the radicals, the phonetic letters, the phonetic alphabet, the punctuations, the symbols and the numbers of the Chinese characters; the digital code is searched in the world character library through software, the search result can be output to a display screen of a display through the software to be displayed, can also be output to a printer to be printed with world characters, and can be transmitted to other world character information processing devices through a modulation demodulator and a router in a wired or wireless transmission mode to be processed.

The world character information coding input method and the processing device thereof can code and input the world character information and are widely applied to computer systems and communication systems.

World character code sorting retrieval method and retrieval system thereof

The following describes a world character code sorting retrieval method and a retrieval system thereof by using the digital operation coding method of the world character information.

The world character code ordering searching method and the searching system thereof comprise: a world character code sorting retrieval method and a world character sorting retrieval system.

World character code sorting and searching method

The world character coding sorting retrieval method comprises a coding method, a sorting method and a retrieval method.

Coding method for scattered and world characters

The coding method of the world characters is to code the world characters by adopting the digital operation coding method of the world character information.

Sorting method for characters in world

The method for ordering the world characters comprises the following steps: a sorting method of a printing and publishing retrieval system and a sorting method of an electronic publishing retrieval system.

1. World character ordering method for printing and publishing retrieval system

The world character ordering method of the printing and publishing retrieval system comprises the following steps: a sorting method of a retrieval system for Chinese character printing and publishing, and a sorting method of a retrieval system for phonogram printing and publishing.

(1) Sorting method for Chinese character printing and publishing retrieval system

The sorting method of the Chinese character printing and publishing retrieval system comprises the following steps: index ordering method and text ordering method.

Index sorting method

The index sorting method comprises the following steps: chinese character operation coding index ordering method, Chinese character radical index ordering method, Chinese phonetic syllable index ordering method, and word classification index ordering method.

A: method for ordering Chinese character operation coding index

The method for ordering Chinese character operation coding indexes comprises the following steps: the method comprises the steps of ordering single word indexes, ordering phrase indexes and ordering single words with phrase indexes.

a. Method for sorting single-word index

The order of the single character index is formed by dividing the number code of the single character, the single character and the page position code of the single character into three rows from left to right or dividing the number code of the single character, the single character and the page position code of the single character into two rows from left to right. The sequence of the coding columns of the single characters is arranged according to the sequence of a first-bit code, a second-bit code, a third-bit code and a fourth-bit code from small to large according to the coding number; the single character row is arranged on the right side or below the code; the page bit code is arranged on the right side of the single word column.

b. Method for ordering phrase ordering mode

The phrase ordering of Chinese character operation coding index ordering is formed by dividing the codes of the phrases, the phrases and the page numbers of the phrases into three columns from left to right or by dividing the codes of the phrases, the phrases and the page numbers of the phrases into two columns from left to right. The sequence of the coding columns of the phrases is arranged from small to large according to the sequence of a first-bit code, a second-bit code, a third-bit code and a fourth-bit code; the page bit code is arranged on the right side of the word group column.

c. Sorting method for sorting single words with phrase

The single-word with phrase ordering of the Chinese character operation coding index is composed of single-word codes, Chinese characters and page bit codes of the Chinese characters divided into three rows from left to right or composed of single-word codes and page bit codes of the Chinese characters and the Chinese characters divided into two rows from left to right. The sequence of the coding columns of the single characters is arranged according to the sequence of a first-bit code, a second-bit code, a third-bit code and a fourth-bit code from small to large according to the coding number; the Chinese character column is arranged at the right side or below the code, the first character of the phrase is arranged in the first row of the Chinese character column, and the phrase with the same first character is arranged below the second row; the page bit code is arranged at the right side of the Chinese character column.

B: chinese character radical index ordering method

The Chinese character radical index sorting includes two parts of radical list and indexing table, including:

a. radical directory

The radical catalog is composed of two columns of Chinese character radicals and indexing table pages, the Chinese character radicals are arranged in rows from small to large according to the stroke number of the radicals, the Chinese character radicals with the same stroke number are arranged according to the sequence of starting horizontal, vertical, left-falling, dot and turning, the stroke number is marked on the first row of the radicals with the same stroke number, and the page number of the indexing table is marked on the right side of the radicals.

b. Character checking table

The indexing system is composed of two columns of Chinese characters and text page bit codes, and the upper left corner or the upper right corner of each page of the indexing system indicates the page number and all Chinese character radicals included in the page. The Chinese character columns are arranged from small to large according to the number of strokes of the radicals of the Chinese characters; chinese characters with the same radicals are arranged in one category, the radicals are marked on the first line, and the Chinese characters are arranged from small to large according to the stroke number of the rest parts (called as rest parts for short) except the radicals; the stroke numbers of the rest parts are arranged in one class, the total stroke number of the rest parts is marked in the first row, and the rest parts are arranged according to the sequence of horizontal stroke, vertical stroke, left-falling stroke, dot stroke and folding stroke of the rest parts. The text page number is arranged at the right of each Chinese character.

C: chinese phonetic syllable index ordering method

The Chinese phonetic syllable index is formed from phonetic syllables, example characters and page position codes which are divided into three rows from left to right, the phonetic syllables are classified and arranged according to the phonetic letter sequence, the phonetic syllables identical to the first phonetic letter are arranged in the same class, the first line of each class of syllables uses capital phonetic letters to indicate the first phonetic letter of the syllable, the right side of each syllable uses one character as an example character, and the right side of the example character is the page position code of the text.

D: chinese character phonetic syllable index ordering method

The phonetic syllable index is composed of phonetic syllables, example characters and page numbers which are divided into three rows from left to right, the phonetic syllables are arranged according to the phonetic letter sequence in a classified mode, the phonetic syllables with the same first phonetic letter are arranged in the same class, the first line of each class of syllables uses the phonetic letters to indicate the first phonetic letter of the syllable, one character is taken as the example character on the right of each phonetic syllable, and the page number of the text is on the right of the example character.

E: method for sorting and ordering word classification index

The sorting of the vocabulary order sorting index is composed of two columns of sorting vocabulary orders and text page bit codes. The classified words are arranged according to knowledge content and subject attributes in different categories, the first line of each category of words is marked with a category, each category of words is arranged from small to large according to the stroke number of the first character of the word, and the words with the same stroke number are arranged according to the sequence of horizontal stroke, vertical stroke, left-falling stroke, dot stroke and folding stroke; the text page bit codes are arranged on the right side of each entry.

Text sorting method

The ordering of the text is composed of Chinese character head and explanation, page number and bit number. The Chinese character head and the explanation are arranged according to the sequence of the pinyin syllables or the sequence of the phonetic transcription syllables of the Chinese character, or are arranged according to knowledge content and subject attributes in classified and classified paging, and homophones arranged according to the sequence of the pinyin syllables or the phonetic transcription syllables are arranged according to the sequence of yin-yang-yin, up-voice, de-voice and soft voice; the page numbers are arranged in the blank around each page from small to large according to the number of the page numbers; the position codes of the Chinese characters are arranged on the left side of the character head of the Chinese characters from small to large according to the number of the position codes.

(2) Sorting method of phonogram printing and publishing retrieval system

The sequencing method of the phonogram printing and publishing retrieval system comprises the following steps: index ordering method and text ordering method.

Index sorting method

The index sequence is composed of the coding of the phonograms, the phonograms and the page numbers of the phonograms from left to right in three rows or the coding of the phonograms and the page numbers of the phonograms from left to right in two rows. The sequencing of the coding columns of the phonograms is arranged from small to large according to the coding number, and the phonograms are arranged on the right side or below the codes; the page number is arranged at the right side of the phonogram,

text sorting method

The sequence of the text is composed of the head and explanation of the phonogram, the page number and the position code of the phonogram. The character heads and the explained sequence are arranged in pages according to the sequence of the phonogram letters, and the page numbers are arranged in the blank around each page from small to large according to the number of the page numbers; the position codes of the phonograms are arranged on the left side of the word head in the order of the number of the position codes from small to large.

2. A world character ordering method of an electronic publishing ordering retrieval system.

The world character sorting of the electronic publishing sorting retrieval system consists of a prompt bar, a candidate character bar and a text bar. (as shown in fig. 30) wherein:

(1) the prompt bar is formed by arranging a code input box and a prompt box from left to right; the prompt box is formed by arranging position codes of letters or syllables and the letters or syllables from left to right;

(2) the candidate word column is formed by arranging position codes of world characters and the world characters from left to right;

(3) the text column consists of world text and its interpretations arranged in rows from left to right.

Searching method for world characters

The world character retrieval method comprises the following steps: a world character retrieval method of a printing and publishing sort retrieval system and a world character retrieval method of an electronic publishing sort retrieval system.

1. World character searching method of printing and publishing sort searching system

The world character retrieval method of the printing and publishing class sorting retrieval system comprises the following steps: chinese character retrieval method and phonogram retrieval method

(1) Chinese character retrieval method

The Chinese character retrieval method of the printing and publishing sort ordering retrieval system comprises the following steps of; a method for indexing Chinese characters according to pinyin syllables, a method for indexing Chinese characters according to phonetic syllable indexes, a method for indexing Chinese characters according to radicals of the Chinese characters, a method for indexing and searching the Chinese characters according to Chinese character operation coding, and a method for indexing and searching the Chinese characters according to word order classification; the method for indexing and searching Chinese characters according to Chinese character operation codes can be used independently or combined with the method for searching the Chinese characters.

Method for searching Chinese characters according to Chinese phonetic syllable index

The method for searching Chinese characters according to the pinyin syllable index comprises the following steps: the syllable, homophone example character and page position code of the same pronunciation are searched in the Chinese phonetic syllable index according to the phonetic syllable of the Chinese character, and the Chinese character to be searched and explained are found in the text according to the page position code of the homophone example character.

Method for indexing and searching Chinese characters according to phonetic syllables of Chinese characters

The method for indexing and retrieving the Chinese characters according to the phonetic syllables of the Chinese characters comprises the following steps: according to the phonetic syllable of Chinese character the phonetic syllable, homonym example character and page position code of identical pronunciation can be searched in the phonetic syllable index of Chinese character, and according to the page position code of homonym example character the Chinese character to be searched and explanation can be searched in the text.

Method for indexing and searching Chinese characters according to radicals of Chinese characters

The method for indexing and searching Chinese characters according to Chinese character radicals comprises the following steps: according to the stroke number of the radicals of the Chinese characters, the radicals and the page numbers of the radicals in a character lookup table are searched in a Chinese character radical directory, and the radicals are searched in the character lookup table according to the page numbers; according to the stroke number of the rest parts, searching the Chinese character and the text page position code which need to be searched in the Chinese character column of the radical; and searching the Chinese characters and the explanation which need to be searched in the text according to the text page bit code.

Method for indexing and searching Chinese characters according to Chinese character operation coding

The method for indexing and searching Chinese characters by Chinese character operation coding index is divided into a single character sorting index searching method, a phrase sorting index searching method and a single character with phrase sorting index searching method.

A: method for indexing and searching Chinese characters according to single character sequence

The method for indexing and retrieving Chinese characters according to single character sequencing comprises the following steps: the digital operation coding method of the world character information is adopted to code the code of the Chinese character to be searched, the single character and the page bit code to be searched are searched in the code index according to the code, and the single character and the explanation to be searched are searched in the text according to the page bit code.

B: method for indexing and searching Chinese characters according to phrase sequence

The method for indexing and retrieving Chinese characters according to the phrase sequence comprises the following steps: the invention encodes the code of the word group to be searched according to the digital operation encoding method of the world character information, finds the word group and the page bit code in the encoding index according to the code, finds the word group and the explanation to be searched in the text according to the page bit code.

C: method for indexing and searching Chinese characters according to single character with phrase sequence

The index retrieval method based on the single word with phrase sequence comprises the following steps: the coding method of the digital operation of the world character information is used for coding the first Chinese character of the phrase to be searched, searching the first Chinese character of the phrase, the phrase and the page position code of the phrase in the coding index according to the coding, and searching the phrase and the explanation to be searched in the text according to the page position code.

Method for indexing and searching Chinese characters according to word classification

The method for indexing and retrieving Chinese characters according to the word classification comprises the following steps: according to the category of the word to be searched and the first character stroke number of the word, the word and page number are searched in the word index, and according to the page number, the word and explanation are searched in the text.

(2) Phonetic character retrieval method

The phonogram retrieval method comprises the following steps: the coding method of the digital operation coding of the world character information of the invention codes the phonogram which needs to be searched, searches the phonogram which needs to be searched and the page bit code thereof in the coding index according to the coding, and searches the phonogram header and the explanation which needs to be searched in the text according to the page bit code.

2. World character searching method of electronic publishing sort searching system

The invention discloses a world character searching method of electronic publishing sort searching system, which adopts the digital operation coding input method of world character information, inputs coding and searches world characters, and comprises the following steps: a Chinese character retrieval method and a phonogram retrieval method.

(1) The Chinese character retrieval method comprises the following steps: inputting Chinese character pronunciation syllable code and Chinese character search method, inputting Chinese character operation code and Chinese character search method; the Chinese character operation coding and searching method can be used alone or combined with the Chinese character pronunciation syllable letter coding and searching method. .

Method for inputting pronunciation syllable code of Chinese character and searching Chinese character

The method for inputting the pronunciation syllable codes of the Chinese characters and searching the Chinese characters comprises the following steps: according to the pronunciation syllables of the Chinese characters, the coding method of the invention is adopted to code the pronunciation syllables of the Chinese characters to be searched; inputting syllable codes in a code input frame of a prompt bar, and searching syllables and position codes of the syllables in the prompt frame of the prompt bar; inputting syllable position codes, and searching Chinese characters to be searched and position codes of the Chinese characters in a candidate character column; inputting the position code of the Chinese character, and finding the Chinese character and explanation to be searched in the text column.

Method for inputting Chinese characters, operating code and searching Chinese characters

The method for inputting Chinese character operation code and searching Chinese characters comprises the following steps: the coding method of the invention is adopted to code the Chinese character code to be searched; inputting the code of the Chinese character in the code input box of the prompt column, and searching the Chinese character to be searched and the position code of the Chinese character in the candidate character column; inputting the position code of the Chinese character to be searched, and searching the Chinese character to be searched and the explanation in the text column.

(2) Retrieval method of phonogram

The retrieval method of the phonogram comprises the following steps: the invention is characterized in that the digital operation coding method of world character information is adopted to code the phonogram to be searched, the coding of phonogram is input in the coding input box of the prompt column, the phonogram to be searched and the position code of phonogram are searched in the candidate character column, the position code of phonogram to be searched is input, and the phonogram to be searched and the explanation are searched in the text column.

Second, world character sorting and searching system

The world word sorting retrieval system comprises: a printed publication type world character sorting retrieval system and an electronic publication type world character sorting retrieval system.

Sorting and searching system for scattered, printed and published world characters

The printing and publishing world character sorting retrieval system comprises: chinese characters, phonograms and world characters are compared by six retrieval methods, namely a Chinese pinyin syllable index retrieval method, a Chinese phonetic syllable index retrieval method, a Chinese character radical index retrieval method, a Chinese character operation coding index retrieval method, a phonogram operation coding index retrieval method and a word classification index retrieval method. The Chinese character operation coding index retrieval method and the phonogram operation coding index retrieval method can be used independently or can be combined with other retrieval methods.

Electronic publishing world characters sorting and searching system

The electronic publishing world word sorting retrieval system comprises: chinese characters, phonograms and world characters compared computer dictionaries, tool books, electronic dictionaries, tool books, optical disc dictionaries, tool books, magnetic tape dictionaries, tool books, magnetic card dictionaries, dictionaries and tool books by using the Chinese phonetic syllable retrieval method, the Chinese phonetic alphabet coding retrieval method, the Chinese character operation coding retrieval method and the phonogram retrieval method. The Chinese phonetic alphabet coding and searching method, the Chinese character operation coding and searching method and the phonogram searching method can be used independently or combined with other searching methods.

World character computer language compiling method

The following describes a world character information digitalization operation coding method and a processing device thereof, a world character computer language writing method for inputting world character codes and an execution mode thereof.

The world character computer language writing method and the execution mode thereof comprise the following steps: a world character computer language compiling method and a world character computer language execution mode.

World character computer language compiling method

The method for compiling the world character computer language comprises the following steps: using world characters, punctuations, symbols and numbers as writing characters, and writing the computer language according to the type, format, content and purpose of the computer language; by adopting the world character information coding input method and the processing device thereof, the characters of the world characters are coded and input; according to the classification of computer languages, the world characters of the computer languages are divided into: machine language, assembly language, high-level language.

Compiling method of bulk machine language

The writing method of the machine language comprises the following steps:

1. the tasks to be completed by the computer machine language are explained by using world characters, numbers, punctuations and symbols.

2. Any four-digit decimal number is used for representing the world characters, numbers, punctuation marks and symbols which indicate the task to be completed by the machine language, or the four-digit decimal number is used for coding the world characters, numbers, punctuation marks and symbols which indicate the task to be completed by the machine language by adopting the digital operation coding method of the world character information of the invention, 0 plus enough four digits are used in front of the codes for coding less than four digits, and the codes of the four-digit decimal number are used for representing the world characters, numbers, punctuation marks and symbols which indicate the task to be completed by the machine language.

3. A four-digit binary number is used to represent one decimal number of rows, and a total of sixteen-digit binary numbers are used to represent a four-digit decimal number.

Compiling method for assembly language

The compiling method of the assembly language comprises the following steps:

1. the tasks to be completed by the computer assembly language are explained by using world characters, numbers, punctuations and symbols.

2. Any four-digit decimal number is used for representing world characters, numbers, punctuation marks and symbols which explain tasks to be completed by assembly language, or the four-digit decimal number is used for coding the world characters, numbers, punctuation marks and symbols which show the tasks to be completed by the assembly language, the codes less than four digits use 0 plus four digits in front of the codes, and the codes of four-digit decimal number are used for representing the world characters, numbers, punctuation marks and symbols which explain the tasks to be completed by the assembly language.

High-level language writing method

The high-level language is compiled by using world characters, numbers, punctuations and symbols as compiling symbols according to the content and the purpose of the high-level language of the computer and according to the formats of natural language and digital language.

Second, execution mode of computer language program of world characters

Direct execution mode

The world word computer language program is compiled and converted by a compiler provided by the language to generate virtual sixteen-bit machine codes, and then is directly interpreted and executed by an interpreter provided by the language.

Indirect execution mode of waste rock

The world character computer language program is compiled and converted by a compiler provided by the language to generate virtual sixteen-bit machine codes, and then the virtual sixteen-bit machine codes are executed by an interpreter provided by a network browser supporting the world character computer language.

The computer language of world characters with different purposes can be written by using the writing method and the execution mode of the computer language of world characters.

Method for designing wordwise character computer chip instruction

The following description describes a method for designing a world character computer chip instruction for writing a machine language by using the method for writing the world character computer language and the execution mode thereof.

The method for designing the world character computer chip instruction comprises the following steps: using Chinese characters, phonograms, letters, punctuations, symbols and numbers as instruction design symbols, and designing instructions according to tasks to be completed by a computer chip instruction; the digital operation coding method of the world character information adopts four-digit decimal number coding to represent a world character; sixteen-bit binary numbers 0 and 1 are used to represent the tasks to be performed by a computer chip.

According to the method, the specific method for designing the computer chip instruction comprises the following steps:

using Chinese characters, phonograms, letters (including kana), numbers, punctuation, symbols

Indicating the task that the computer chip is to accomplish.

And secondly, any four-digit decimal number is used for expressing the world characters, numbers, punctuations and symbols which explain the tasks to be completed by the machine language, or the four-digit decimal number is used for coding Chinese characters, phonogram characters, letters, words, numbers, punctuations and symbols which indicate the tasks to be completed by the computer chip instruction by adopting the digital operation coding method of the world character information.

The invention uses four binary digits to represent a decimal number, and uses sixteen binary nine to represent four decimal numbers.

The method can be used for designing the world character computer chip instruction.

World language computer chip instruction

The following description describes a world character computer chip command designed by the method for designing the same.

The world language computer chip instructions include: chinese character computer chip instruction, phonogram computer chip instruction. Control type instructions, graphic instructions, character type instructions,

chinese character type computer chip instruction

The Chinese character type computer chip instruction comprises the following steps: control class, graphics class, character class instructions.

Bulk, control class instructions

For example:

graphics instructions

For example: value graph

0081 ★

Character type instruction:

for example: value character

0082 in

Second, phonogram type computer chip instruction

The computer chip instructions for phonography include: control class, graphics class, character class instructions.

Bulk, control class instructions

For example: value character control symbol

0000 (nu1l) NUL

(null, zero)

Graphics class instructions

For example: value graph

0081 ★

First, a character class instruction

For example: value character

0082 A

World language computer program language

The following describes a world language computer program language written and executed by the method and the mode of execution of the world language computer program of the present invention, which is characterized in that:

the universal computer language is composed of sentences composed of Chinese characters, phonograms, letters, kana, numbers, punctuations and symbols, and is used for carrying out classification description and operating computer programs.

Secondly, the Chinese characters, phonograms, letters, kana, numbers, punctuations and symbols forming program sentences are coded by adopting or not adopting the digital operation coding method of the world character information.

Thirdly, inputting the program sentence into the computer by adopting or not adopting the world character coding input method and the processing device thereof.

Fourthly, the universal computer program writing method and the execution mode thereof are adopted to write program sentences.

The characters, constants and variables, data types, operational expressions, program flow control, and data input/output used in the world language computer programming language of the present invention will be described next.

Character used in computer program language of world characters

Chinese characters are scattered;

gangue, phonogram, letter: A-Z; pseudonyms:

ten members of a number: 0 to 9;

the arithmetic operator: +, -,/,%, +, - -;

relation operator: the specific information of a specific word is defined as |)! Is as follows;

fourth operator: book of infection, & ltv & gt, & ltv & gt,;

fifthly, logic operator: | A 1, Λ, 11;

sixthly, evaluating an operator: OP ═ (assignment ═);

condition operators: is there a : (ii) a

Classification of constants and variables

Constant of powder and powder

The constants include data-type constants, character-type constants, string constants, and true-false constants.

1. The data type constants comprise integer type constants and floating point type constants.

(1) Constant of integer type

The integer type constant comprises an octal form, an integer decimal integer and a hexadecimal integer, wherein the octal integer is represented by the eight beginning of Chinese numbers, and the hexadecimal number is represented by the sixteen beginning of Chinese numbers.

(2) Floating point number type constant

The floating point number constant comprises a single precision type and a double precision type which are respectively expressed by a single or float and a double or enable, the floating point number is expressed by a decimal number form and a scientific counting method form, the single precision type is represented by adding the single after the constant, the double precision type is represented by adding the double, and the default is the double precision type if no Chinese characters or letters are added.

2. Character-type constant the character-type constant is represented by a single quotation mark comprising a Chinese character or letter.

For example:

3. string constant

The string constants are represented by double-prime bracketing a line of Chinese characters or letters.

For example:

4. the true-false type constant is represented by two values, true or true and false or false.

For example:

waste rock and variable

The variables are composed of identifiers, types and scopes together and comprise numerical variables and character string variables; numerical variables include simple variables and subscript variables.

Data type

The data types include basic type, array type and class type.

1. Basic type

The basic types include an integer type, a floating point type, a character type, and a true-false type.

(1) Integer type

Integer types include 8-bit byte type, 16-bit font type, 32-bit two-font type, 64-bit four-font type, with values ranging from-27- (27-1)1-215- (215-1), -231- (231-1), -263-)263-1), respectively.

(2) Floating point number types include single precision type, double precision type.

The single precision type is 32 bits and the number ranges from 1.402398466e-45f-3.40262347e +38 f. The double precision type is 64 bits and the number ranges from 4.940656465334e-324 to 1.79976931348623157e + 308.

(3) Character type

The character type is 16-bit font, and the number ranges from 0-65536.

(4) True and false type

The true and false type takes on only one bit and has a logical value of 0 true or true and false or false.

The integer type, the floating point type, and the character type may be inter-converted into a hybrid operation by type conversion.

2. Array type

The array types include integer arrays, floating point arrays and character arrays.

3. Class type

The class types comprise an interface class, a packet class, a character string processing class, an exception handling class, a data stream processing class, a graph drawing and processing class, a character and color class, an interactive event processing class, an abstract window tool class, an image and sound processing class and a network function class.

The type definition format is composed of object variables and methods, wherein the object variables are used for defining the internal data format of an object, and the methods are used for defining the behavior of the object.

Operation expression

The operational expression is composed of an operator and an operand, and is divided into an arithmetic expression, a relational operational expression, a bit operational expression, a logic expression, an assignment expression and a conditional expression according to the type of the operator, wherein the expression for carrying out mixed operation is a composite expression. Wherein:

the arithmetic expression includes four arithmetic operations, a remainder operation, a self-addition operation and a self-subtraction operation.

The relational operation expression comprises equality operation and sequence operation.

The bit operation expression comprises bit-by-bit operation and shift operation.

Program flow control

The program flow control comprises three modes of sequential execution, selective execution and cyclic execution.

And the sequential execution is operated according to the sequence of the program.

And selecting and executing one program execution operation which is selected to meet the condition from a plurality of programs.

The loop execution mode includes two modes, namely a duty type loop and a until type loop, wherein when the type loop judges the value of the conditional expression first, the operation of one program is repeatedly executed until the value of the expression is false or false, and the loop operation is stopped. And judging the conditional expression after the type loop executes and operates a program, if the result is true or trae executes the original program again, and if the result is false or false, stopping the loop operation.

Output and input of data

Data input adopts the world character code input computer method and its processing device to input data into computer.

And the output of the data is processed by a program language and then is output.

The said programming language can be used to write the program of world character computer.

Method for designing operating system of world character computer and operating mode thereof

The following describes the design method and operation mode of the operating system of the world character computer for coding and inputting the world character information and the processing device thereof.

The design method and operation mode of the operating system of the world character computer comprise the following steps: a design method of a world character computer operating system and an operating mode of the world character computer operating system.

The design method of the operating system of the world character computer comprises the following steps:

and using figures, Chinese characters, letters, kana, punctuations, symbols and numbers as operational characters, and designing the computer operating system according to the type, the application and the task of the computer operating system.

And naming the file by using the world characters, and accessing the storage address of the file in the disk, which is marked by the world characters, by using the name of the world character file.

The invention relates to a world character coding input method and a processing device thereof.

According to the method, the specific design method of the operating system of the world character computer comprises the following steps: the computer installs basic boot operation system (BIOS), and the computer installs the design method of multitask operation system.

Design method for installing basic boot operating system (BIOS) of bulk computer

The design method for installing basic boot operation system (BIOS) in computer includes: the operation commands are edited into a menu in rows by using world characters, and the menu and the table are displayed on a display screen to provide selection operation.

Method for designing multitask operating system after computer installation

The design method of the multitask operating system after the computer is installed comprises the following steps: the operation command is designed into a window picture by using figures, world characters and numbers to be displayed on a display screen to provide selection operation.

(wherein):

operating mode of operating system of world character computer

And clicking, touching, moving and transporting the world character operational characters displayed on the display screen by using a mouse, a finger and an electronic induction pen to complete the operation.

And (5) using the voice control read-in operation instruction to complete the operation.

The operation is completed by using a keyboard typing command.

The computer operating system can be designed and operated by using the design method and the operation mode of the world character computer operating system.

World character computer operating system and operating method thereof

Finally, a description will be given of a world character computer operating system and its operating method designed by the method and its operating mode of the present invention.

The world character computer operating system and the operating method thereof comprise: a world character computer operating system and an operating method thereof.

A world language computer operating system, characterized by:

and naming the file by using the world characters, and accessing the storage address of the file in the disk, which is marked by the world characters, by using the name of the world character file.

The operation command is designed into a window picture by using figures, world characters and numbers to be displayed on a display screen, and selection operation is provided.

The world character information, the coding input method and the processing device thereof are adopted, and coding input of the world character operator is performed.

The following describes the desktop icon and window structure of the operating system of the wordborne world character computer of the present invention.

1. The desktop icons are: "my computer", "my document", "recycle bin", "my briefcase".

2. The window structure is as follows: title bar, menu bar, tool bar, address bar, buttons, scroll bar, object box, status bar. The object frame is composed of a label, a drop-down list frame, a scale, a preview frame and a command button, and the input method in the status bar is composed of Chinese, English, Japanese, Russian, German, French, Korean, Spanish, Arabic and Greek character input methods.

Second, operating method of operating system of world character computer

The operating method of the operating system of the world character computer comprises the following steps: a touch control operation method, a voice control operation method and a keyboard operation method.

Scattered and touch operation method

The touch operation method comprises the following steps: mouse operation method, finger operation method, electronic induction pen operation method.

1. The operation method of the mouse comprises the following steps: pointing, clicking, double clicking, dragging, rotating.

2. The operation method of the finger and the electronic induction pen comprises the following steps: point-pointing, point-touching and writing.

The voice control operation method comprises the following steps: the operation instruction is read in by voice.

The keyboard operation method comprises the following steps: and knocking the key positions to input instructions.

The operation of the world character computer system can be completed by utilizing the world character computer operating system and the operating method thereof.

Compared with the prior art, the scheme of the world character information digital operation coding processing system has the following advantages:

1. the digital operation coding processing is carried out on the world character information by uniformly using ten numbers from 0 to 9, and the contradiction between the simplicity and the high efficiency of the world character information coding processing is thoroughly solved.

2. A whole set of digital operation coding and input computer of world character information, sorting and searching of world character coding, language and operation system of world character computer and chip instruction design method system are established.

3. The method is universal for the input method of the computer world character codes and the sorting and searching method of the world character codes.

While the invention has been described in detail with reference to the preferred embodiments thereof, it will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The presently disclosed embodiments are therefore considered in all respects to be illustrative and not restrictive.

For example, the English letters shown in FIG. 3 are arranged in the 1-0 region, which is only one arrangement that is more suitable for the living habits of people, and it can also be arranged in accordance with the habits of people using languages. In addition, the computer device in the invention can be a mobile phone containing software, a Personal Digital Assistant (PDA), an analog numeric keyboard or a palm computer.

The scope of the invention is, therefore, indicated by the appended claims rather than by the foregoing description.

Claims (10)

1. A method of encoding and inputting world text into a computer device, the computer device including a numeric keypad, the method comprising:

for each character in the world characters, distributing a plurality of basic components which form the character or can determine the character to corresponding number keys of a numeric keyboard, wherein the code of each basic component is uniquely determined by an area code and a bit code, the area code is the number of the key where the component is located, and the bit code is the position number of the basic component in the numeric key to which the basic component belongs;

selecting the type of characters to be input;

for each character of the kind of characters to be input, decomposing the character into a combination of the parts;

arranging the area code and the bit code corresponding to each component in the combination in sequence as the code for the character; and

the code of the word is entered.

2. The encoding input method of claim 1, wherein

The world characters are divided into ideographic characters and phonographic characters; for phonograms, the component is the letter of the phonogram; for ideograms, the basic components include the basic strokes that make up the font of the ideogram, the phonetic letters that make up the pronunciation of the ideogram, the basic strokes and the phonetic letters that make up the phonetic form of the ideogram, respectively.

3. The encoding input method of claim 2, wherein

The phonograms comprise English, French, German, Italy, Spanish, Russian, Greek, Arabic, Japanese, Korean, and the ideographs comprise Chinese; for Chinese, the basic components respectively comprise basic strokes forming Chinese character patterns, pinyin letters or initials and finals forming Chinese pronunciation of the Chinese character, and basic strokes and pinyin letters or initials and finals forming Chinese character sound patterns; for Japanese, the basic components respectively comprise basic strokes of Chinese character patterns in Japanese, kana forming Japanese characters and kana forming Japanese pronunciation of the Japanese Chinese characters; for korean, the basic parts respectively include basic strokes constituting a kanji glyph in korean, korean letters constituting korean characters, and korean letters of korean reading of kanji.

4. A code input method as claimed in claim 3, wherein said basic component is a basic stroke of a chinese character when the chinese character is coded in a chinese character font, the coding thereof is determined only by its region code, and the basic stroke and its region code are determined as follows:

classifying strokes of Chinese characters into five basic strokes of horizontal, vertical, left falling, dot and turning, and correspondingly defining codes of the five basic strokes as 1, 2, 3, 4 and 5 to form stroke codes;

combining the horizontal stroke, the vertical stroke, the left-falling stroke, the dot stroke and the turning stroke in pairs, adding the stroke codes of each combination, and performing operation of subtracting ten from ten to form two-stroke combined codes;

combining horizontal stroke, vertical stroke, left-falling stroke, dot stroke and folding stroke, adding the numbers of the combined stroke codes, and performing full-ten minus-ten operation to form three-stroke combined codes;

and fourthly, combining the horizontal stroke, the vertical stroke, the left-falling stroke, the dot stroke and the folding stroke more than three strokes, adding the numbers of the combined stroke codes of the horizontal stroke, the vertical stroke, the left-falling stroke, the dot stroke and the folding stroke, and performing the operation of subtracting ten from the full stroke to form the combined code of more than three strokes.

5. The code input method according to claim 4, wherein said basic component and its area code are:

the first stroke code comprises a horizontal code, a vertical code, a left-falling code, a dot code and a folding code, and the corresponding codes are 1, 2, 3, 4 and 5;

the two-stroke combined coding comprises a transverse and transverse combination, a transverse and vertical combination, a transverse and left-falling combination, a transverse point combination and a transverse folding combination; vertical and vertical combination, vertical and left-falling combination, vertical point combination and vertical folding combination; a skimming combination, a skimming combination and a skimming and folding combination; point combination and point folding combination; folding and combining; the corresponding codes are respectively: 2. 3, 4, 5, 6; 4. 5, 6 and 7; 6. 7, 8; 8. 9; 0;

the three-division combined coding comprises the following steps: cun, Yi,

It is coded as 0; , men, ji, qiang, zi, zhu, which is encoded as 1; sunset, , , xiao, coded as 2; ,

, encoded as 3; earth and worker's earth,

Code 4; +, , coded as 5; , encoded as 6; a table net, ,

Its code is 7; the length and width of the medium are large, and the code is 8; the rest, the small, the towel, the mountain, , , the rare, the body, the woman, their code is 9;

fourthly, the combination of transverse, vertical, left-falling, dot and folding is more than three strokes: wood, moon, Chinese characters, fire, water and day, and the corresponding codes are 0, 2, 4, 7 and 9 respectively.

6. The encoding input method of claim 4, wherein

According to the defined basic strokes, stroke combination and zone code, the Chinese character is coded according to the following steps:

dividing the Chinese character into radicals and spare parts except the radicals to form the Chinese character, respectively coding the radicals and spare parts of the Chinese character by using ten numbers from 0 to 9, according to the writing stroke order of the Chinese character, preferentially selecting more than three-stroke combined coding, then selecting two-stroke combined coding, finally selecting the code-taking sequence of one-stroke coding, the code-taking of the radicals is not more than two codes, the code-taking of the spare parts is not more than three codes, combining the codes of the radicals and the spare parts into the code of the Chinese character, and each Chinese character can take four codes at most and one code at least.

7. The code input method of claim 6, wherein the step of encoding the chinese characters comprises:

determining whether a single Chinese character is a single character or a multiple character;

for the single-body character, coding according to the whole character;

for a composite word, the part first and the rest are encoded.

8. The encoding input method of claim 7, wherein the step of encoding the individual words comprises:

determining whether the single-body word exceeds four codes;

for the single-body Chinese characters with more than four codes, the first three codes and the tail code of the single-body Chinese character are taken to form the code of the Chinese character in sequence;

and for the single-body characters not exceeding four codes, all codes of the single-body characters are taken out to form the codes of the characters in sequence.

9. The code input method of claim 7, wherein the step of encoding the multi-character partial radicals and the remainders comprises:

determining whether the composite word exceeds a four-code composite word;

for a character which is not more than four-code combined, the radical takes one code, and the rest takes one to three codes to form the code of the character in sequence;

for a complex character with more than four codes, the radical takes one code, and the rest takes the first two codes and the tail code to form the code of the character in sequence.

10. The code input method of claim 7, wherein the step of encoding the multi-character partial radicals and the remainders comprises:

determining whether the composite word exceeds a four-code composite word;

for a character which is not more than four-code and is a composite character, the radicals take two codes, and the rest parts take one to two codes to form the code of the character in sequence;

for a complex word with more than four codes, the radical takes the first code and the tail code, and the rest takes the first code and the tail code to form the code of the word in turn.

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