JP2004046564A - Design method of impression scale - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a design method of an impression scale which facilitates the expression of the impression on a prescribed event by an expressing person and enables the objective evaluation thereof. <P>SOLUTION: An assembly 11 of impression expressing words corresponding to the event is inputted, and different impression expressing words and the appearance frequencies thereof are determined. Impression expression groups are constituted by synonym/antonym/similar words based on a language database 16, and the impression expression group having the highest appearance frequency is extracted 19. An epithet is selected from this impression expression group 21, and used as the impression scale. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a method of effectively setting an impression expression word expressing an impression of a certain event and designing an impression scale. In particular, the present invention relates to a technique of selecting a representative impression expression word for the event by an algorithm.
[0002]
[Prior art]
Impressions of people, especially music, paintings and other works of art, are expressed in various words. For example, “bright” and “fun” are words that are often used to express an impression, and can tell the opponent what kind of image the work is.
As described above, a method of designing an impression scale is a method of designing an expression of an impression for a certain event in order to most effectively transmit the impression to an opponent or adapt to an objective evaluation.
[0003]
One example of using such an impression scale is a user-friendly music search system that can be easily used not only by people who have a great deal of knowledge about music works, but also by those who do not.
Music search includes search based on bibliographic information such as song name, composer name, and performer name, search using acoustic information such as humming (humming) and singing voice, and search based on lyrics (text) information. However, these search means cannot search for songs that do not provide necessary information, such as unknown songs or songs whose contents have been forgotten. On the other hand, in the music search based on the impression, since even the vague input of the music impression can be searched, there is a feature that even a person who is unfamiliar with music information can use it. (See references 1-3 for this.)
[0004]
[Reference 1]
Tsuyoshi Ikezoe, Yoshinobu Kajikawa, Yasuo Nomura "Music Database Retrieval System Using Adjective Pairs" Jikken Kenho (Music Informatics) 33-2, pp. 7-14
[Reference 2]
Satoshi Sato, Jun Ogawa, Yoshihiro Horino, Hajime Kitakami "Study on Realization of Music Work Search System Based on Emotion" IEICE Technical Report (Voice) SP2000-137, pp. 51-56
[Reference 3]
Yasuhiro Tsuji, Tadashi Hoshimori, Tadashi Omori "Similar Music Search Using Local Pattern Feature of Music / Search by Sensitive Words" IEICE Technical Report (Voice) SP96-124, pp. 17-24
[0005]
Therefore, for example, an impression scale composed of a pair of adjective words expressing a music impression is considered. In the impression scale, music search is performed by using a seven-point evaluation. For example, for the impression scale of "bright-dark", one of seven levels of "very bright-bright-slightly bright-neither-slightly dark-dark-very dark" is selected.
[0006]
The impression that a user can enter is expressed by a combination of an impression scale and its evaluation value. Therefore, in order for the music search system to be user-friendly, it is necessary to use an impression scale that can express the user's search intention. However, the conventionally used impression scales (see References 1 to 3) are empirically designed and do not consider the above points.
[0007]
In other words, as in the case of "bright" as described above, in the past, when selecting words as impressions, they were often selected empirically and intuitively, and the selected mother was also used for other purposes such as cognitive psychological research. Was often selected from the impression expressions collected. For this reason, it is extremely difficult to use an optimal impression scale for the event, and it is not always a means for objectively evaluating the event.
[0008]
Also, regarding the selected impression scale, since the linguistic relations between words and phrases have not been sufficiently studied, inconsistencies between impression scales may occur, and events may not be evaluated correctly. Was.
[0009]
[Problems to be solved by the invention]
The present invention has been made in view of the above-described problems of the related art, and is directed to a method for designing an impression scale that allows an expressor of an impression to easily express a predetermined event and objectively evaluate it. The purpose is to provide.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, an impression scale designing method of the present invention has the following features.
That is, this is a method of designing an impression scale representing at least the type of impression of a user with respect to a predetermined event, and is performed by the following steps.
First, in the input step, a set of impression expression words obtained from a plurality of users corresponding to the predetermined event is input. Next, the method includes an appearance frequency calculating step of acquiring all the different impression expression words, which are unique expressions, from the set of impression expression words, and calculating an appearance frequency for each different impression expression word.
[0011]
Next, in a grouping step, different impression expression words are classified into synonyms and antonyms based on the language database, and a group set of the classified impression expression groups is formed. The synonym grouping step of adding another different impression expression word having a relation between the different impression expression word and a synonym in the impression expression group to the impression expression group completes the configuration of all group sets.
[0012]
With respect to the impression expression group and the group set configured as described above, the most significant impression expression group having the largest sum of the appearance frequencies of the different impression expression words is extracted, and the most significant impression expression group is removed from the group set. A step of extracting a most significant impression expression group is provided.
Further, in the deleting step, the different impression expression words included in the highest impression expression group are deleted from all other impression expression groups.
[0013]
The present invention includes the above steps, and selects the different impression expression words having the highest appearance frequency from the extracted impression expression groups as adjective words.
As described above, the feature is to design an impression scale for a target event.
[0014]
Here, following the step of extracting the highest impression expression group, a deletion step of deleting the different impression expression words included in the highest impression expression group from all the other impression expression groups is provided. The extraction step and the deletion step may be repeated until a predetermined number is reached to extract a plurality of impression expression groups.
Also in this configuration, in all of the extracted impression expression groups, the different impression expression words having the highest appearance frequency are respectively selected as adjective words.
[0015]
In the grouping step, when the first different impression expression word and the second different impression expression word having a synonym or antonym therewith satisfy the following two conditions simultaneously, And a second different impression expression word may be the same impression expression group. The two conditions are that the frequency of appearance of the second different impression expression is lower than that of the first different impression expression, and the co-occurrence frequency of the first and second different impression expression is a predetermined synonym. It is equal to or less than the equal co-occurrence threshold (a natural number of 1 or more). At this time, the synonym co-occurrence threshold may be set to 1.
[0016]
Further, in the synonym grouping step, when the impression expression words included in the impression expression group and the target impression expression words having a synonymous relationship with at least one of the impression expression words simultaneously satisfy the following two conditions, An impression expression word may be added to the impression expression group. That is, the first condition is that the appearance frequency of the target impression expression word is lower than the sum of the appearance frequencies of the impression expression words included in the impression expression group, and the second condition is that the impression expression group The sum of the co-occurrence frequencies of each impression expression word and the target impression expression word included in the expression is not more than a predetermined synonym co-occurrence threshold (1 or more natural number). At this time, the synonym co-occurrence threshold may be set to 1.
[0017]
The present invention can also have the following configuration in order to solve the problems of the conventional expression words. That is, in the grouping step, the impression expression words are distinguished into a personality impression expression word representing an emotional personality with respect to an event and a reactive impression expression word representing an emotional reaction. Words, antonyms, and synonyms are classified into different impression expression groups.
As a result, it is possible to clearly distinguish between a phrase representing an emotional character and a phrase representing an emotional reaction, which are conventionally confused and classified as synonyms.
[0018]
The impression scale designing method of the present invention can also be provided as a method of designing an impression scale for music using music as an event.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described based on an example shown in the drawings. The embodiments can be appropriately modified without departing from the gist of the present invention.
[0020]
【Example】
First, a method of designing an impression scale according to the present invention will be described with reference to a flowchart shown in FIG. The following mainly describes the design of an impression scale for a musical piece of music, but the present invention is a technique that can be used for designing an impression scale for any event, and does not limit the scope of implementation.
[0021]
First, in the present embodiment, assuming use in a music search system, an impression expression database (not shown) in which impression expression words reflecting the user's search needs (phrases that the user wants to use during music search) are collected. ). The impression expression database is not an impression expression previously collected for a purpose other than music search as in the past, but is an impression expression collected for music search by the method described in Reference 4 by the present inventors. It is a word database.
[Reference 4]
Tadahiko Kumamoto, Kimiko Ota, "Music Search Based on Impressions: Collection and Analysis of Search Expressions," Jikken Kenho (Natural Language Processing), 146-16, pp. 101-106
[0022]
The impression expression database is based on the results of the questionnaire (10), and includes answers by a total of 303 men, 170 men and 133 women. The respondents were from a wide range of age groups: 7 under 20 years old, 113 in their 20s, 106 in their 30s, 51 in their 40s, 19 in their 50s, and 7 in their 60s and over. ing.
[0023]
One of the features of the impression expression database is the variety of respondents' musical experiences. That is, three professional levels (people who have income as a performer), four semi-professional levels (people who have studied professionally at music colleges, etc.), and amateur levels (bands, orchestras, choirs, etc.) 36 people), 118 hobby levels (people who do not meet the above conditions, but who can play for the time being), and 142 inexperienced people (who can hardly play). Many people with little music experience also participate.
[0024]
Although not related to the design method of the present invention, music search based on impressions is considered to be particularly effective for poor people rather than those with rich music experience, The inclusion contributes to providing a suitable set of impression expression words, and thus the present invention allows effective selection of adjective words.
[0025]
In the present embodiment, a personality impression expression word representing the emotional character of the music piece, 401 words and a reactive impression expression word representing the emotional response of the music listener, and 95 words are extracted from the impression expression database, and an impression scale design is performed. Expression set data (11) (496 words). These two types of impression expression words have conventionally been treated as words representing music impressions, but have been used without distinction when designing an impression scale.
[0026]
For this reason, for example, in order to search for a song “to calm down” (discriminated as a reactive impression expression), the evaluation value of the impression scale “calm” (discriminated as a personal impression expression) is increased. But I can't find a song that calms me down. Nevertheless, if a song with a calm feeling is searched, the answer is apparently correct, and the problem of this confusion is unlikely to surface.
Therefore, in the present invention, these two types of phrases are clearly distinguished, and the information is provided in the impression expression word set data (11). FIG. 2 shows a part of the impression expression word set data.
[0027]
Conventionally, the design of an impression scale has been performed based on an impression evaluation experiment (subject experiment). That is, the subject performs evaluation by selecting an impression of the listened music from the presented impression expressions or inputting an evaluation value to the presented impression scale. Then, the evaluation result is subjected to multivariate analysis using a method such as factor analysis, thereby constructing a music sensitivity space (an orthogonal space in which the semantic relationship between adjectives is represented by coordinates).
However, since the subject experiment is costly, there are many cases where the number of songs to be listened and the number of subjects are small, and it cannot be said that correspondence to various songs and users is sufficient. In particular, the subject's level is often biased toward the semi-professional amateur level, and the result does not reflect the musical sensibility of a person who has little music experience.
[0028]
Therefore, in the present embodiment, the above-described impression expression word set data (11) is used, and a method of designing an impression scale from the data (11) based on linguistic knowledge is proposed. Linguistic knowledge to be used is knowledge about synonyms, antonyms, and synonyms, and is defined as follows. The definition method is arbitrary, and in this example, it was defined with reference to a commercially available Japanese language dictionary.
[0029]
[Definition of synonyms]
When Adjectives A and B satisfy any of the following conditions, A and B are synonyms. However, based on the information included in the impression expression word data (11), the personality impression expression word and the reactive impression expression word are not mutually equivalent.
[0030]
(Condition 1) A and B have a common dictionary description.
For example, if you look at the meanings of “funny” and “comical (na)”, the “funny” section has a description “kokekida” and the “comical (na)” section has a description of “humorous. ], There is a description with the same meaning, so "double white" and "comical (na)" are synonyms.
[0031]
(Condition 2) B is described in A.
For example, "quiet" has a description of "calm", so "quiet" and "calm" are synonyms.
[0032]
(Condition 3) B is described as a part of the meaning of A, and A is described as a part of the meaning of B.
For example, in the section of "beautiful (na)", there is a description of "beautiful and comfortable when heard by the ear", and in the section of "beautiful", there is a description of "acoustically beautiful and depressing the heart". "Beautiful" and "beautiful" are synonyms.
[0033]
(Condition 4) Two or more of the above three conditions are not completely satisfied, but are partially satisfied.
For example, in the section of "Green", there is a description of "Majestic. Dignity", and in the section of "Gorgeous (na)", there is a description of "Heavy, dignified and noble.""Heavy" and "Shogan (na)" partially satisfy (condition 1) and (condition 3) and are synonyms.
[0034]
[Definition of antonyms]
If the adjectives A and B satisfy the above-mentioned "synonym" determination condition by inverting A or its dictionary description, A and B are antonyms.
For example, reversing “not good” will result in “good”. Since the term “heavy” has a description “is irritable”, “condition” and “heavy” are synonyms according to (condition 2). Thus, "heavy" and "not bad" are antonyms.
[0035]
[Definition of synonyms]
If the adjectives A and B partially satisfy only one of the above-mentioned "synonyms" and "antonyms" determination conditions, A and B are synonyms. However, a condition corresponding to (condition 4) is not included in the determination conditions.
For example, in the section of "Nodoka", there is a description of "a calm, relaxed and comfortable person", but there is no description in the "calm" that includes "nodoka". , "Calm" and "throat" are considered synonyms.
[0036]
Using the synonyms, antonyms, and synonyms defined as described above, an impression scale is designed in the following procedure. As the number of impression scales increases, the number of types of impressions that can be expressed increases, but there is a trade-off that the input operation becomes troublesome. In this embodiment, the number is provisionally set to 10.
[0037]
First, the impression expression word set data (11) is input in an input step (12).
Then, the same impression expression words are excluded from the impression expression word set data (11) to extract different impression expression words (hereinafter referred to as different expressions), and a different expression database (13) is created. The appearance frequency of each different impression expression word is calculated. (Appearance frequency calculation step (14))
The data of the calculated appearance frequency is also recorded in the impression expression word database (13).
[0038]
In the following grouping step (15), different phrases are grouped into synonyms and antonyms. Synonyms and antonyms are grouped on the basis of the above definition with reference to a language database (16) containing at least synonyms, antonyms and synonyms for impression expression words. At this time, different phrases are repeatedly grouped by combinations of all synonyms and antonyms, so that one different phrase may belong to a plurality of impression expression groups.
[0039]
As another configuration of the present embodiment, the language database may have the following configuration. That is, synonyms, antonyms, and synonyms are automatically obtained from the dictionary database by a known information processing method in place of the language database (16), and synonyms, antonyms, and synonyms are set for each different phrase in real time. Go.
Thereby, even when an arbitrary phrase is given as an impression expression word, optimal grouping can be realized without using a database having information such as synonyms in advance.
[0040]
In the grouping step (15), each different phrase has a lower frequency of appearance than the different phrase, and a co-occurrence frequency with the different phrase is 0 (in the following definition, a state in which no co-occurrence occurs) or 1. Synonyms and antonyms shall form a group. The former is for grouping by grouping words that differ frequently in terms of frequency of occurrence into words that are low in frequency, and the latter is for grouping words that are often used intentionally even if they are synonyms or antonyms. It is a constraint to not. The set (17) of the impression expression groups configured here is separately recorded.
[0041]
By the way, the co-occurrence frequency mentioned above is calculated by adding 1 to the frequency only when two different words are listed in the same sentence, such as “quiet and calm song” in the questionnaire (10). If the answer is divided into "quiet song" and "calm song", the frequency is not added. The information on the co-occurrence frequency is included in the impression expression word set data (11), and is used in the grouping by synonyms and antonyms (15) together with the information on the language database (16).
[0042]
However, the co-occurrence frequency can be calculated by any method according to the format of the questionnaire (10). Further, in the present invention, a co-occurrence frequency restriction is provided in order not to group words which are often intentionally distinguished even if they are synonyms or antonyms. The number of co-occurrence frequencies in the condition can be determined in advance by defining a co-occurrence threshold such as a synonym according to the scale of 11). The synonymous co-occurrence threshold is desirably about 1 to 5 for general-scale data (11), and it is considered that it is difficult to achieve the above-mentioned effects with a threshold larger than that. Since it depends, it can be set arbitrarily. (The co-occurrence frequency is a non-co-occurring state of 0 or a natural number of 1 or more.)
[0043]
Next, in a synonym grouping step (18), a process of adding a different word having a synonymous relationship with a different word in a certain impression expression group to the impression expression group is performed.
At this time, in each impression expression group, a synonym whose appearance frequency is smaller than that of the own group and whose co-occurrence frequency with the own group is 0 (in the following definition, not co-occurring) or 1 Shall be added to In the same manner as described above, the former is for aggregating low-distortion words into impression expression groups having a high appearance frequency to perform grouping, and the latter is often used intentionally even if it is a synonym. This is a constraint for not grouping words.
[0044]
Also in this step (18), the condition of the co-occurrence frequency may use a predetermined synonym co-occurrence threshold other than 1. The threshold value is desirably about 1 to 5 for general-scale data (11), and it is considered that it is difficult to achieve the above-mentioned effect with a threshold value larger than that. Can be set.
[0045]
Here, the appearance frequency of the group is defined as the sum of the appearance frequencies of the different words in the group, and the co-occurrence frequency with the group is defined as the sum of the co-occurrence frequencies of the target word and the different words in the group. You.
By this synonym grouping step (18), all impression expression group sets (17) are formed. In the present invention, the impression expression groups are systematically grouped without using the conventional empirical method, and the extraction of a suitable adjective word is performed through the following steps.
[0046]
Using the above impression expression group set (17), the most frequently appearing group is extracted as an impression expression group constituting an impression scale in the most significant impression expression group extraction step (19).
Since the different phrases included in the extracted impression expression group correspond to synonyms, antonyms, and synonyms of words to be later used as adjectives, they are not used even if they are included in other impression expression groups.
[0047]
Therefore, in the deletion step (20) following the extraction step of the highest impression expression group (19), the different words included in the highest impression expression group are deleted from all other impression expression groups.
After the deletion, the appearance frequency of the group (the sum of the appearance frequencies of the different words in the group) is obtained again, and the impression expression groups constituting the impression scale are extracted by the most significant impression expression group extraction step (19).
[0048]
The number of times of this repetition is arbitrary, and the number of adjective words of the impression scale changes according to the number of times. However, it can be set in consideration of the above trade-off relationship. For example, a configuration may be adopted in which the deletion step (20) is not included, and only the group in which the impression expression is the most straightforward among all the impression expression groups is extracted.
In the present embodiment, the process ends when ten impression expression groups are extracted as described above.
[0049]
In each of the impression expression groups extracted as described above, an adjective word selection (21) is performed in which the different phrase having the highest frequency of appearance is one of the adjective words constituting the impression scale.
While it is sufficient for the present invention to select at least one of the adjectives, one embodiment may provide a paired impression scale as follows.
[0050]
That is, if a different phrase that is an antonym to the selected adjective is in the impression expression group, the phrase is regarded as a paired adjective. If there is no adjective, a pair of adjectives is set as appropriate with reference to information such as the language database (16). This allows the user to set conditions in, for example, seven stages from a pair of adjectives when searching for music, and to provide an impression scale that is simpler and easier to express.
[0051]
FIG. 3 shows an impression scale designed by the impression scale designing method of the present invention. In addition, FIG. 4 shows the different words of the groups constituting each impression scale and their appearance frequencies. Since the present embodiment is directed to music, “quiet”, “calm”, “fresh”, “bright” and the like are selected as impression scales as shown in FIG. Corresponding terms "intense,""busy,""severe," and "dark" are terms that have been determined as antonyms.
[0052]
As can be seen from FIG. 4, for example, "violent" as antonym is calculated as a different phrase having a high frequency of appearance, and as a result, "violent" is selected as an adjective paired with "quiet" . On the other hand, for "calm", "busy" is selected instead of "passionate" shown in FIG. 4, and the adjectives that form a pair depending on the presence or absence of words and the frequency of appearance are not necessarily different. It turns out that it is not decided. In other words, in the practice of the present invention, it is desirable to select a phrase that corresponds to an antonym of “calm” which was the most frequent different phrase.
[0053]
The present invention is particularly preferably implemented by a computer, and can be mainly configured by, for example, a CPU (30), an external storage device (31) such as a hard disk, and a memory (32) such as a RAM in FIG.
That is, the impression expression word set data (11) and the language database (16) are easy-to-use databases which are stored in the hard disk (31) or the like, and read from the input step (12) in the memory ( In cooperation with (32), each processing (14) (15) (16) (18) (19) (20) (21) is performed.
[0054]
The different impression words and appearance frequencies extracted during the processing may be stored in the memory (32) or may be recorded in the external storage device (31). The same applies to (set of) impression expression groups (17).
Although not related to the present invention, the input from the user questionnaire (10) can be recorded in the external storage device (31) by character recognition using a scanner (not shown) or input from a keyboard. In addition, the selected adjective may be displayed on a monitor (not shown) or the like, or may be used by another process in the CPU (30).
[0055]
【Demonstration experiment】
The configuration of the present invention is as described above. Finally, in order to check how much the ten impression scales designed this time cover the search needs of the user, the sum of the appearance frequencies of the groups constituting the impression scale is calculated. Was.
The result was 370 words, which turned out to cover 74.6% of the whole. Of these, the frequency of appearance of the different words that became the parent of each group was 218 words, 91 different words that were grouped as synonyms / antonyms, and 61 words that were added as synonyms. .
[0056]
Next, an impression evaluation experiment was performed to examine the relationship between the impression scales. The subjects were 39 males and 61 females in total, 100 professionals, 1 professional level, 7 semi-professional levels, 20 amateur levels, 46 hobby levels, 26 inexperienced, and rich music experience Not many people were included. The songs used in the experiment were all 80 classical songs in the standard MIDI file (SMF) format, which were published on the Internet.
[0057]
However, the length of the music was adjusted so that the listening time of each music was about 1 minute due to the experimental time. The subject could listen to each song up to two times, but a seven-point evaluation of the impression scale was possible at the end of the first audition. The subject was required to enter an evaluation value for at least one or more impression scales.
Based on the above results, the correlation coefficient between impression scales (see Reference Document 5) was determined.
[Reference 5]
Tamio Suga "Multivariate Statistical Analysis" Contemporary Mathematical Sciences 2000
[0058]
The result is shown in FIG. The correlation coefficient between the impression scale 2 “calm-busy” and the impression scale 9 “calm-calm up” in FIGS. 5 to 3 is as low as 0.47. It was shown that distinguishing between words and reactive impression words was meaningful.
[0059]
In addition, a relatively strong correlation (0.72) was observed between "quiet-violent" of the impression scale 1 and "calm-busy" of the impression scale 2, but overall there was only a weak correlation. In particular, the correlation coefficient of the impression scale 1 "quiet-violent" and the impression scale 5 "major-light" were close to 0, and were almost uncorrelated.
[0060]
【The invention's effect】
The present invention has the above configuration, and has the following effects.
That is, according to the first aspect of the present invention, a group of impression expression words obtained from a plurality of users is input to perform grouping based on linguistic knowledge, and the most suitable impression expression group is extracted from the appearance frequency. According to the method, the design of the impression scale conventionally determined empirically is established as an algorithm, and the design of the optimal impression scale can be performed.
[0061]
According to the second aspect of the present invention, it is possible to design a plurality of impression scales, and it is possible to provide an impression scale design method that can easily express various impressions of a user.
[0062]
According to the invention described in claims 3 and 4, it is possible to prevent the number of groups from increasing unnecessarily, and to group words and phrases used by the user intentionally even if they are synonyms or antonyms, Contribute to the composition of an accurate impression expression group.
[0063]
According to the inventions set forth in claims 5 and 6, it is possible to prevent the number of groups from being increased unnecessarily, and to obtain an accurate impression without grouping words used intentionally by the user even if they are synonyms. Contribute to the composition of expression groups.
[0064]
According to the seventh aspect of the present invention, an impression expression word representing an emotional character and an impression expression word representing an emotional reaction can be distinguished from each other. To form an impression expression group, which contributes to providing a suitable impression scale.
[0065]
According to the eighth aspect of the present invention, it is possible to design an impression scale that can express any user's impressions, especially in music in which impression expressions are various.
[Brief description of the drawings]
FIG. 1 is a flowchart of a method for designing an impression scale according to the present invention.
FIG. 2 is an example of impression expression word set data according to the present invention.
FIG. 3 is an example of an impression scale designed by an impression scale designing method according to the present invention.
FIG. 4 is an example of a different phrase.
FIG. 5 is a diagram showing correlation coefficients of different phrases in an experiment for demonstrating the present invention.
[Explanation of symbols]
10 Questionnaire
11 Impression expression word set data
12 input steps
13 Impression expression word data
14. Appearance frequency calculation step
15 Grouping Step
16 Language Database
17 Impression expression group (set)
18 Synonym Grouping Step
19 Step of extracting the last impression expression group
20 Deletion steps
21 Adjective Selection

Claims (8)

A method of designing an impression scale representing at least a type of impression of a user for a predetermined event,
An input step of inputting a set of impression expression words obtained from a plurality of users corresponding to the predetermined event;
An appearance frequency calculating step of acquiring all the different impression expression words that are unique expressions from the set of impression expression words and calculating an appearance frequency for each different impression expression word;
A grouping step of classifying the different impression expression words into synonyms and antonyms based on the language database and forming a group set of the classified impression expression groups;
A synonym grouping step of adding another different impression expression word having a relation between a different impression expression word and a synonym in the impression expression group to the impression expression group;
Regarding the impression expression group and the group set composed as described above,
Extracting the highest impression expression group having the highest sum of the appearance frequencies of the different impression expression words to be composed, and removing the highest impression expression group from the group set;
Including at least the steps of
A method of designing an impression scale characterized by selecting, in an extracted impression expression group, different impression expression words having the highest frequency of appearance, and selecting the different impression expression words as adjectives. In the method for designing an impression scale,
Following the most recent impression expression group extraction step,
Providing a deletion step of deleting the different impression expression words included in the highest impression expression group from all the other impression expression groups;
Repeating the highest impression expression group extraction step and the deletion step until a predetermined number is reached to extract a plurality of impression expression groups,
The method of designing an impression scale according to claim 1, wherein in each of the extracted impression expression groups, a different impression expression word having the highest appearance frequency is selected as an adjective. In the grouping step,
The first different impression expression words,
The first different impression expression word and a second different impression expression word having a synonym or antonym relation are:
A condition that the frequency of appearance of the second different impression expression word is lower than that of the first different impression expression word;
When simultaneously satisfying a condition that the co-occurrence frequency of the first and second different impression expression words is equal to or less than a predetermined co-occurrence threshold (e.g., a natural number of 1 or more), the first and second different impression expression words. 3. The method of designing an impression scale according to claim 1, wherein the same is an impression expression group. The impression scale designing method according to claim 3, wherein the predetermined synonym co-occurrence threshold is 1. In the synonym grouping step,
An impression expression word included in the impression expression group;
A target impression expression word having a synonymous relationship with at least one of the impression expression words,
A condition that the appearance frequency of the target impression expression word is lower than the sum of the appearance frequencies of the impression expression words included in the impression expression group;
When the sum of co-occurrence frequencies of each impression expression word included in the impression expression group and the target impression expression word satisfies a condition that is equal to or less than a predetermined synonym co-occurrence threshold value (one or more natural numbers), the target impression expression word 5. The method of claim 1, wherein words are added to the impression expression group. The method of designing an impression scale according to claim 5, wherein the predetermined synonym co-occurrence threshold is 1. In the grouping step,
The impression expression word,
Distinguish between a personality impression expression word expressing an emotional personality to the event and a reactive impression expression word expressing an emotional response,
7. The impression scale designing method according to claim 1, wherein any of the synonyms, antonyms, and synonyms among the impression expression words is classified into different impression expression groups. In the method for designing an impression scale,
8. The method for designing an impression scale according to claim 1, wherein the predetermined event is music.

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