JP2004040501A - Wireless communication device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a radio communication apparatus capable of surely writing data in a storage part without wasteful power consumption. <P>SOLUTION: A reception level detecting part 19 detects a reception level. A reception level deciding part 15 compares a reception level detection value(T) detected by the reception level detecting part 19 with a predetermined reception level decision value(T1) and decides whether the reception level detection value(T) is the reception level decision value(T1) or higher. When it is decided the reception level detection value(T) is the predetermined reception level decision value(T1) or higher by the reception level decision part 15, a single block data is downloaded. A writing instruction part 16 writes the downloaded data in a program data storage part 5. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a wireless communication device that can write received data to a storage unit.
[0002]
[Prior art]
A conventional wireless communication device includes a memory capable of rewriting data. This prior art wireless communication device can receive data from a rewriting center and write the received data to a memory. In a mobile use state, when the radio communication device goes out of the service area of the connection device or the base station and the radio wave condition deteriorates, the radio communication device cannot reliably receive data from the rewriting center.
[0003]
[Problems to be solved by the invention]
The wireless communication device of the related art receives data from the rewriting center if it can communicate with the rewriting center regardless of the radio wave condition. When the radio wave condition is poor, the wireless communication device cannot reliably receive data from the rewriting center, and thus may fail to write data. When the communication quality cannot be ensured, it may take a long time from the start of data reception to writing of all desired data to the memory.
[0004]
As described above, the wireless communication device of the related art continuously receives data from the rewriting center despite the poor radio wave condition, and thus has a problem in that wasteful power is consumed.
[0005]
Japanese Patent Application Laid-Open No. 2000-163323 discloses an electronic device that detects the remaining amount of battery power and executes rewriting of information recorded in a memory only when the remaining amount of battery power is sufficient. In such a technique, in a state where the remaining amount of the battery power is higher than the determination value, that is, in a state where the remaining amount of the battery power is sufficient, the data is continuously received despite the poor radio wave condition. The operation of writing to the memory is allowed, and therefore, unnecessary power consumption cannot be suppressed.
[0006]
An object of the present invention is to provide a wireless communication device capable of writing data to a storage unit reliably and without wasteful power consumption.
[0007]
[Means for Solving the Problems]
The present invention provides a reception level detection unit that detects a reception level,
A predetermined reception level judgment value (T1) is set, and the reception level detection value (T) detected by the reception level detection unit is compared with the predetermined reception level judgment value (T1) to obtain a reception level detection value. A reception level determination unit that determines whether (T) is equal to or greater than the predetermined reception level determination value (T1);
A storage unit for storing received data;
A write command unit for writing received data to a storage unit when the reception level determination unit determines that the reception level detection value (T) is equal to or greater than the predetermined reception level determination value (T1). A wireless communication device characterized by the following.
[0008]
According to the present invention, the reception level detection unit detects the reception level detection value (T), and the reception level determination unit determines whether the reception level detection value (T) is equal to or greater than the reception level determination value (T1). Is determined. When the reception level determination unit determines that the reception level detection value (T) is equal to or greater than the reception level determination value (T1), the write command unit causes the storage unit to write the reception data.
[0009]
If the reception level is high enough, the data will be received reliably. In the present invention, a predetermined reception level determination value (T1) is set, and based on the reception level determination value (T1), it is determined whether to write the reception data to the storage unit as described above. You. Therefore, the received data can be written to the storage unit only when the data can be reliably received. As a result, data can be reliably written to the storage unit, and wasteful power consumption can be reduced as much as possible.
[0010]
The present invention also provides an error rate detection unit for detecting an error rate,
A predetermined error rate determination value (R1) is set, and the error rate detection value (R) detected by the error rate detection unit is compared with the predetermined error rate determination value (R1) to obtain an error rate detection value. An error rate determination unit that determines whether (R) is equal to or less than the predetermined error rate determination value (R1);
A storage unit for storing received data;
A write command unit for writing received data to a storage unit when the error rate detection unit determines that the error rate detection value (R) is equal to or smaller than the predetermined error rate determination value (R1). A wireless communication device characterized by the following.
[0011]
According to the present invention, the error rate detection value (R) is detected by the error rate detection unit, and the error rate determination unit determines whether the error rate detection value (R) is equal to or less than the error rate determination value (R1). Is determined. When the error rate determination unit determines that the error rate detection value (R) is equal to or less than the error rate determination value (R1), the write command unit causes the received data to be written to the storage unit.
[0012]
In the present invention, a predetermined error rate determination value (R1) is set, and based on the error rate determination value (R1), it is determined whether to write the received data to the storage unit as described above. You. Therefore, the received data can be written to the storage unit only when the error rate detection value (R) is equal to or less than the error rate determination value (R1), that is, only when the data can be reliably received. As a result, data can be reliably written to the storage unit, and wasteful power consumption can be reduced as much as possible.
[0013]
Further, the present invention further includes a source determining unit that determines whether the source is a predetermined data management facility,
When the source determination unit determines that the source is a predetermined data management facility, a connection with the source is established.
[0014]
According to the present invention, the source determining unit determines whether the source is a predetermined data management facility. When the source determining unit determines that the source is a predetermined data management facility, a connection between the wireless communication device of the present invention and the source, that is, the predetermined data management facility is established.
[0015]
Therefore, a connection with the predetermined data management equipment can be established by an incoming call from the predetermined data management equipment. In addition, it is possible to prevent a connection from being established with another data management facility different from the predetermined data management facility, whereby undesired reception data from the other data management facility is written into the storage unit. Is prevented.
[0016]
Further, the present invention further includes a destination determination unit that determines whether the destination is a predetermined data management facility,
When the destination determination unit determines that the destination is a predetermined data management facility, a connection with the destination is established.
[0017]
According to the present invention, the destination determination unit determines whether the destination is a predetermined data management facility. When the destination determination unit determines that the destination is a predetermined data management facility, a connection between the wireless communication device of the present invention and the destination, that is, the predetermined data management facility is established.
[0018]
Therefore, it is possible to prevent a connection from being established with another data management facility different from the predetermined data management facility, thereby writing undesired reception data from the other data management facility to the storage unit. Is prevented.
[0019]
In addition, the present invention further includes a wireless connection device determination unit that determines whether or not a connection is established with a predetermined wireless connection device before establishing a connection with a predetermined data management facility,
When it is determined by the wireless connection device determination section that the wireless connection device is connected to the predetermined wireless connection device, a connection is established with the predetermined data management facility.
[0020]
According to the present invention, before the connection between the wireless communication device of the present invention and the predetermined data management facility is established, it is determined whether or not the wireless communication device is connected to the predetermined wireless connection device by the wireless connection device determination unit. . When it is determined by the wireless connection device determination unit that the wireless communication device is connected to the predetermined wireless connection device, the connection between the wireless communication device of the present invention and the predetermined data management facility is established.
[0021]
Therefore, a connection is established with a predetermined data management facility at a place where connection with a predetermined wireless connection device is possible, but a connection with a predetermined data management facility is established at a place where connection with a predetermined wireless connection device is not possible. Not done. Thus, the place where the received data can be written to the storage unit is limited. As a result, the possibility that undesired received data is written to the storage unit can be reduced, and thus security can be improved.
[0022]
Further, the present invention is characterized in that the reception level judgment value (T1) can be changed.
[0023]
According to the present invention, since the reception level judgment value (T1) can be changed, the user can select the reception level judgment value (T1). Since the reception level has a large effect on the data transfer time, the user can select the data transfer time by selecting the reception level determination value (T1).
[0024]
Further, the present invention is characterized in that the error rate determination value (R1) can be changed.
[0025]
According to the present invention, since the error rate judgment value (R1) can be changed, the user can select this error rate judgment value (R1). Since the error rate has a large effect on the data transfer time, the user can select the data transfer time by selecting the error rate determination value (R1).
[0026]
The present invention also includes an automatic power control unit that controls transmission power based on the reception level,
When writing the received data into the storage unit, the automatic power control unit is not operated, and communication is performed at a maximum transmission power or a predetermined transmission power.
[0027]
According to the present invention, when writing the received data to the storage unit, the communication is performed at the maximum transmission power or a predetermined transmission power without operating the automatic power control unit. Therefore, it is possible to prevent an increase in communication failures and disconnection of the connection while the reception data is being written to the storage unit due to the low transmission power.
[0028]
Further, the invention is characterized in that the storage unit is a nonvolatile memory.
According to the present invention, since the storage unit is a non-volatile memory, data can be retained even when power supply is stopped.
[0029]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is a diagram illustrating an algorithm of the wireless communication device 1 according to the embodiment of the present invention. The wireless communication device 1 of the present embodiment is a wireless communication device that uses the control unit 2 as a hardware resource. The wireless communication device 1 is realized as a mobile phone.
[0030]
The wireless communication device 1 includes a control unit 2, a wireless control unit 3, an audio processing control unit 4, a program data storage unit 5, a wireless control data storage unit 6, a user data storage unit 7, a key operation unit 8, , A display unit 9, a speaker 10, and a microphone 11.
[0031]
The control unit 2 controls the operation of the entire wireless communication device 1. The control unit 2 has a reception level determination unit 15 and a write command unit 16. The reception level determination unit 15 compares a reception level detection value (T) detected by a reception level detection unit 19 of the wireless control unit 3 described later with a predetermined reception level determination value (T1) to determine the reception level. It is determined whether the value (T) is equal to or greater than the predetermined reception level determination value (T1). The write command unit 16 writes the received data into the program data storage unit 5 when the reception level determination unit 15 determines that the reception level detection value (T) is equal to or greater than the predetermined reception level determination value (T1). I do.
[0032]
The wireless control unit 3 has an antenna 17. The wireless control unit 3 further includes an automatic power control (APC) unit 18 and a reception level detection unit 19. A program for operating the wireless control unit 3 is stored in a program data storage unit 5 described later.
[0033]
The automatic power control unit 18 changes the transmission power of the wireless communication device 1 based on the reception level. When the reception level is high, the automatic power control unit 18 reduces the transmission power of the wireless communication device 1. This reduces power consumption for transmission. The automatic power control unit 18 is realized by, for example, an automatic power control circuit.
[0034]
The reception level detector 19 detects a reception level. The reception level detection value (T) detected by the reception level detection unit 19 is, for example, a voltage value based on the reception electric field strength. This voltage value is a voltage value when 50Ω termination is performed. The reception level detector 19 is realized by, for example, a receiving signal strength indicator (abbreviated to RSSI) circuit. The reception level detection value (T) detected by the reception level detection unit 19 may be a current value based on the reception electric field strength instead of a voltage value based on the reception electric field strength.
[0035]
The audio processing control unit 4 converts an analog signal from the microphone 11 into a digital signal, and codes the digital signal. The audio processing control unit 4 outputs the coded signal to the control unit 2. The audio processing control unit 4 receives a signal from the control unit 2 and decodes the input signal into an audio signal. The audio processing control unit converts the decoded audio signal into an analog signal and outputs the analog signal to the speaker 10.
[0036]
The program data storage unit 5 stores program data for operating the wireless control unit 3. The program data storage unit 5 is capable of rewriting data. The program data storage unit 5 is realized by a nonvolatile memory. Therefore, the program data storage unit 5 can hold the program data even when the power supply is stopped. This program data storage unit 5 is realized by, for example, a flash memory which is a nonvolatile memory. In the present embodiment, program data storage unit 5 is a storage unit that stores received data.
[0037]
The wireless control data storage unit 6 stores the telephone number of the rewriting center. The rewriting center is a predetermined data management facility. The wireless control data storage unit 6 stores a predetermined reception level determination value (T1).
[0038]
The user data storage unit 7 stores a telephone directory. Further, the user data storage unit 7 stores a telephone number input by the key operation unit 8.
[0039]
The key operation unit 8 includes a dial key, a registration key, and the like. The user of the wireless communication device 1 can input a telephone number, an operation command, and the like by operating the key operation unit 8. The signal from the key operation unit 8 is provided to the control unit 2. The display unit 9 displays a screen based on a signal from the control unit 2.
[0040]
The wireless communication device 1 is capable of voice communication. At the time of a voice call, an analog signal from the microphone 11 is converted into a digital signal by the voice processing control unit 4, and the digital signal is encoded. The coded signal is provided to the control unit 2, and is provided from the control unit 2 to the wireless control unit 3. The signal given to the wireless control unit 3 is transmitted as a wireless signal. The signal received by the wireless control unit 3 is provided to the control unit 2, and is provided from the control unit 2 to the audio processing control unit 4. The signal given to the audio processing control unit 4 is decoded into an audio signal, and the decoded audio signal is converted into an analog signal and output to the speaker 10.
[0041]
The wireless communication device 1 according to the present embodiment can download program data from a rewriting center and write the downloaded program data into the program data storage unit 5. In the present embodiment, “download” means that the wireless control unit 3 receives data and the control unit 2 reads the data received by the wireless control unit 3. In the present embodiment, the program data downloaded from the rewriting center is program data for operating the wireless control unit 3.
[0042]
The rewriting center is a data management facility connected to the mobile phone carrier network. The rewriting center is configured to include a storage device for storing program data and a server which is a computer that performs a process of transferring the program data stored in the storage device. The wireless communication device 1 is connected to a rewriting center via a base station that is a wireless connection device. The base station is a wireless connection device connected to the mobile phone carrier network, and connects the wireless communication device 1 to the mobile phone carrier network. The wireless communication device 1 and the base station are connected by a wireless line, and the base station and the rewriting center are connected by a wired line. The wireless communication device 1 downloads program data from the rewriting center via the base station.
[0043]
The wireless communication device 1 determines whether to download data from the rewriting center based on the communication state between the wireless communication device 1 and the base station. More specifically, the wireless communication device 1 determines whether to download data from the rewriting center based on the electric field strength of the radio wave from the base station.
[0044]
In the present embodiment, the rewriting center divides the program data into a plurality of block data and transmits the block data. Each block data is composed of a plurality of frames.
[0045]
FIG. 2 is a flowchart for explaining the overall operation of the wireless communication device 1. First, a user of the wireless communication device 1 performs an operation for transmitting a call to the rewriting center. At this time, the user of the wireless communication device 1 selects the program rewrite button by operating the key operation unit 8, for example. When the program rewrite button is selected, the process proceeds from step a1 to step a2. In step a2, a program rewriting mode for rewriting program data stored in the program data storage unit 5 is activated.
[0046]
In step a3, the control unit 2 reads out the telephone number of the rewriting center from the wireless control data storage unit 6. The control unit 2 gives the telephone number of the rewriting center to the wireless control unit 3. The wireless control unit 3 transmits the telephone number of the rewriting center given from the control unit 2 as a wireless signal.
[0047]
In step a4, the control unit 2 determines whether the connection to the rewriting center has been completed. When determining that the connection to the rewriting center has not been completed, the control unit 2 determines again whether the connection to the rewriting center has been completed. When the control unit 2 determines that the connection to the rewriting center has been completed, the process proceeds to step a5.
[0048]
In step a5, the reception level detector 19 of the wireless controller 3 detects the reception level. The reception level determination unit 15 of the control unit 2 compares the reception level detection value (T) detected by the reception level detection unit 19 with a predetermined reception level determination value (T1), and determines the reception level detection value (T). Is greater than or equal to the predetermined reception level determination value (T1).
[0049]
The predetermined reception level determination value (T1) is stored in the wireless control data storage unit 6. Before performing the above-described determination, the reception level determination unit 15 reads a predetermined reception level determination value (T1) from the wireless control data storage unit 6, and uses the predetermined reception level determination value (T1) to perform the above-described determination. I do.
[0050]
In step a5, when the reception level determination unit 15 determines that the reception level detection value (T) is less than the predetermined reception level determination value (T1), the process proceeds to step a10. In step a10, the control unit 2 disconnects the connection with the rewriting center. The control unit 2 controls the display unit 9 to display an error display screen on the display unit 9. Thereafter, the state shifts to a standby state. Thus, the process proceeds to step a9, where the program rewriting mode is ended.
[0051]
In step a5, when the reception level determination unit 15 determines that the reception level detection value (T) is equal to or greater than the predetermined reception level determination value (T1), the process proceeds to step a6. In step a6, one block data is downloaded from the rewriting center. One block data from the rewriting center is data corresponding to a part of the program data stored in the program data storage unit 5.
[0052]
When one block data is downloaded, the write command unit 16 of the control unit 2 writes the downloaded one block data into the program data storage unit 5. When one block data is written into the program data storage unit 5, the process proceeds to step a7.
[0053]
If the radio wave condition is good and the reception level is sufficiently high, the data can be reliably received. In the present embodiment, it is determined whether or not to write one block data, which is received data, to program data storage unit 5 based on the received level determination value (T1) as described above. Therefore, the received data can be written into the program data storage unit 5 only when the data can be reliably received, whereby the program data can be reliably written into the program data storage unit 5.
[0054]
Further, it is possible to prevent the data from being continuously downloaded from the rewriting center despite the poor radio wave condition and the low reception level. Therefore, it can be prevented that it takes a long time from the start of data download to writing of all desired data to the program data storage unit 5, and wasteful power consumption can be reduced as much as possible. Further, the user of the wireless communication device 1 does not have to wait for a long time to download the program data, and can use the time effectively.
[0055]
Further, by displaying an error display screen on the display unit 9, the user of the wireless communication device 1 can be notified at an early stage that writing of program data is impossible. Therefore, it is possible to prevent the user of the wireless communication device 1 from recognizing that writing is not possible and repeatedly performing an operation for rewriting the program data, and wasteful power consumption is prevented. Reduced.
[0056]
For example, if the reception level detection value (T) is 45 dBμV or more, stable communication is possible. If the reception level determination value (T1) is less than 45 dBμV, the above-described effects cannot be obtained.
[0057]
In step a7, the control unit 2 determines whether all block data has been downloaded. When the control unit 2 determines that all block data has been downloaded, the process proceeds to step a8. When the control unit 2 determines that all block data has not been downloaded, the process returns to step a5.
[0058]
In step a8, the control unit 2 disconnects the connection with the rewriting center. Thereafter, the state shifts to a standby state. Thus, the process proceeds to step a9, where the program rewriting mode is ended.
[0059]
FIG. 3 is a diagram illustrating an algorithm of the wireless communication device 21 according to another embodiment of the present invention. The wireless communication device 21 of the present embodiment is similar to the wireless communication device 1 shown in FIG. 1, and the same portions are denoted by the same reference numerals and description thereof will be omitted.
[0060]
The wireless communication device 21 determines whether to download data from the rewriting center based on the communication state between the wireless communication device 21 and the base station. More specifically, the wireless communication device 21 determines whether to download data from the rewriting center based on the error rate of the data received from the base station.
[0061]
The control unit 2 of the wireless communication device 21 includes an error rate determination unit 22 and a write command unit 23 instead of the reception level determination unit 15 and the write command unit 16. The error rate determination unit 22 compares an error rate detection value (R) detected by an error rate detection unit 24 of the wireless control unit 3 described later with a predetermined error rate determination value (R1) to determine the error rate. It is determined whether the value (R) is equal to or less than the predetermined error rate determination value (R1). The write command unit 23 writes the received data into the program data storage unit 5 when the error rate detection unit 22 determines that the error rate detection value (R) is equal to or less than the predetermined error rate determination value (R1). I do.
[0062]
The wireless control unit 3 of the wireless communication device 21 includes an error rate detection unit 24 instead of the reception level detection unit 19. The error rate detector 24 detects an error rate. The error rate detection unit 24 calculates an error rate detection value (R) based on the number of all frames included in one block data downloaded immediately before and the number of erroneous frames included in the one block data. To detect. The error rate detection value (R) is a ratio of the number of erroneous frames to the number of all frames, and is expressed as a percentage, for example.
[0063]
The error rate detection unit 24 determines whether or not each frame has an error by a cyclic redundancy check (abbreviated to CRC). The number of frames having an error is the number of frames determined to have an error by the cyclic redundancy check.
[0064]
FIG. 4 is a flowchart for explaining the overall operation of the wireless communication device 21. A description of the same operation as the operation shown in FIG. 2 will be omitted.
[0065]
Steps b1 to b4 are the same as steps a1 to a4 in FIG. If the control unit 2 determines in step b4 that the connection with the rewriting center has been completed, the process proceeds to step b5. In step b5, one block data is downloaded from the rewriting center, and the process proceeds to step b6. In step b5, the downloaded one block data is dummy data, and is not written in the program data storage unit 5.
[0066]
In step b6, the error rate detection unit 24 of the wireless control unit 3 detects the error rate of one block data downloaded immediately before. The error rate determination unit 22 of the control unit 2 compares the error rate detection value (R) detected by the error rate detection unit 24 with a predetermined error rate determination value (R1), and determines the error rate detection value (R). Is less than or equal to the predetermined error rate determination value (R1).
[0067]
The predetermined error rate determination value (R1) is stored in the wireless control data storage unit 6. Before performing the above-described determination, the error rate determination unit 22 reads a predetermined error rate determination value (R1) from the wireless control data storage unit 6, and uses the predetermined error rate determination value (R1) to perform the above-described determination. I do.
[0068]
When it is determined in step b6 that the error rate detection value (R) exceeds the predetermined error rate determination value (R1), the process proceeds to step b11. In step b11, the control unit 2 disconnects the connection with the rewriting center. The control unit 2 controls the display unit 9 to display an error display screen on the display unit 9. Thereafter, the state shifts to a standby state. Thus, the process proceeds to step a9, where the program rewriting mode is ended.
[0069]
When the error rate determination unit 22 determines that the error rate detection value (R) is equal to or less than the predetermined error rate determination value (R1) in step b6, the process proceeds to step b7. In step b7, one block data is downloaded from the rewriting center. One block data from the rewriting center is data corresponding to a part of the program data stored in the program data storage unit 5.
[0070]
When one block data is downloaded, the write command unit 23 of the control unit 2 writes the downloaded one block data into the program data storage unit 5. When one block data is written into the program data storage unit 5, the process proceeds to step b8.
[0071]
In the present embodiment, whether or not to write one block data, which is received data, to the program data storage unit 5 is determined based on the error rate determination value (R1) as described above. Therefore, the received data can be written to the program data storage unit 5 only when the error rate detection value (R) is equal to or less than the error rate determination value (R1), that is, only when the data can be reliably received. Thus, the program data can be reliably written into the program data storage unit 5.
[0072]
Further, it is possible to prevent the data from being continuously downloaded from the rewriting center despite the poor radio wave condition and the high error rate. Therefore, it can be prevented that it takes a long time from the start of data download to writing of all desired data to the program data storage unit 5, and wasteful power consumption can be reduced as much as possible. Further, the user of the wireless communication device 1 does not have to wait for a long time to download the program data, and can use the time effectively.
[0073]
Further, by displaying an error display screen on the display unit 9, the user of the wireless communication device 1 can be notified at an early stage that writing of program data is impossible. Therefore, it is possible to prevent the user of the wireless communication device 1 from recognizing that writing is not possible and repeatedly performing an operation for rewriting the program data, and wasteful power consumption is prevented. Reduced.
[0074]
The error rate determination value (R1) is selected, for example, to a value of 50% or less, and preferably to 30%. If the error rate determination value (R1) exceeds 50%, the program data cannot be efficiently written into the program data storage unit 5, and the above-described effects cannot be obtained.
[0075]
In step b8, the control unit 2 determines whether all block data has been downloaded. When the control unit 2 determines that all block data has been downloaded, the process proceeds to step b9. If the control unit 2 determines that all block data has not been downloaded, the process returns to step b6.
[0076]
In step b9, the control unit 2 disconnects the connection with the rewriting center. Thereafter, the state shifts to a standby state. Thus, the process proceeds to step a9, where the program rewriting mode is ended.
[0077]
FIG. 5 is a flowchart for explaining the overall operation of a wireless communication apparatus according to still another embodiment of the present invention. A description of the same operation as the operation shown in FIG. 4 will be omitted.
[0078]
The wireless communication device according to the present embodiment is similar to wireless communication device 21 shown in FIG. 3, and a description of similar parts will be omitted. The control unit 2 of the wireless communication device includes a transmission source determination unit in addition to the error rate determination unit 22 and the write command unit 23. The source determining unit determines whether the source is a predetermined data management facility. The predetermined data management facility is a predetermined rewriting center.
[0079]
The process proceeds from step b1 to step b2a, and when the wireless controller 3 receives the incoming signal, the process proceeds to step b2b. In step b2b, the caller determining unit determines whether the caller telephone number added to the incoming signal matches the telephone number of the predetermined rewriting center. The telephone number of the predetermined rewriting center is stored in the wireless control data storage unit 6. Before performing the above-described determination, the transmission source determining unit reads the telephone number of the predetermined rewriting center from the wireless control data storage unit 6 and performs the above-described determination using the telephone number of the predetermined rewriting center. The above-described determination may be performed when a response to an incoming call is made by operating the key operation unit 8.
[0080]
When it is determined in step b2b that the caller telephone number does not match the telephone number of the predetermined rewriting center, the process proceeds to step b2c and shifts to a normal incoming call operation.
[0081]
In step b2b, the program rewriting for rewriting the program data stored in the program data storage unit 5 when the transmission source determining unit determines that the source telephone number matches the telephone number of the predetermined rewriting center. The mode is started, and the process proceeds to step b4. The operation after step b4 is the same as the operation after step b4 in FIG.
[0082]
As described above, when the source determining unit determines that the source telephone number matches the telephone number of the predetermined rewriting center, that is, the source determining unit determines that the source is the predetermined rewriting center. At this time, a connection is established between the wireless communication apparatus according to the present embodiment and a transmission source, that is, a predetermined rewriting center.
[0083]
Therefore, the wireless communication apparatus according to the present embodiment can establish a connection with the predetermined rewriting center by receiving an incoming call from the predetermined rewriting center. Also, it is possible to prevent a connection from being established with another data management facility different from the predetermined rewriting center, whereby undesired received data from the other data management facility is written into the program data storage unit 5. Is prevented.
[0084]
FIG. 6 is a flowchart for explaining the overall operation of a wireless communication apparatus according to still another embodiment of the present invention. A description of the same operation as the operation shown in FIG. 4 will be omitted.
[0085]
The wireless communication device according to the present embodiment is similar to wireless communication device 21 shown in FIG. 3, and a description of similar parts will be omitted. The control unit 2 of the wireless communication device includes a destination determination unit in addition to the error rate determination unit 22 and the write command unit 23. The destination determination unit determines whether the destination is a data management facility determined in advance. The predetermined data management facility is a predetermined rewriting center.
[0086]
Proceeding from step b1 to step b2d, the user of the wireless communication device operates the dial keys of the key operation unit 8 to input a telephone number, and further selects a program rewrite button. When the user of the wireless communication device performs an operation for transmitting a call to the rewriting center in this manner, the process proceeds to step b2e.
[0087]
In step b2e, the destination determination unit determines whether the telephone number input by the user of the wireless communication device, that is, the destination telephone number matches a predetermined rewriting center telephone number. The telephone number of the predetermined rewriting center is stored in the wireless control data storage unit 6. Prior to performing the above-described determination, the destination determination unit reads out the telephone number of the predetermined rewriting center from the wireless control data storage unit 6 and performs the above-described determination using the telephone number of the predetermined rewriting center.
[0088]
When it is determined in step b2e that the destination telephone number does not match the telephone number of the predetermined rewriting center, the process proceeds to step b2f. In step b2f, the control unit 2 controls the display unit 9 to display an error display screen on the display unit 9. Thereafter, the state shifts to a standby state.
[0089]
When it is determined in step b2e that the destination telephone number matches the telephone number of the predetermined rewriting center, the process proceeds to step b3. In step b3, the control unit 2 gives the telephone number input by the user of the wireless communication device to the wireless control unit 3. The wireless control unit 3 transmits the telephone number given from the control unit 2 as a wireless signal. Further, a program rewriting mode for rewriting the program data stored in the program data storage unit 5 is activated. The operation after step b4 is the same as the operation after step b4 in FIG.
[0090]
Thus, when the destination determining unit determines that the destination telephone number matches the telephone number of the predetermined rewriting center, that is, the destination determining unit determines that the destination is the predetermined rewriting center. At this time, a connection is established between the wireless communication apparatus according to the present embodiment and a destination, that is, a predetermined rewriting center.
[0091]
Therefore, it is possible to prevent a connection from being established with another data management facility different from the predetermined rewriting center, whereby undesired received data from the other data management facility is written into the program data storage unit 5. Is prevented.
[0092]
FIG. 7 is a flowchart for explaining the overall operation of a wireless communication apparatus according to still another embodiment of the present invention. A description of the same operation as the operation shown in FIG. 4 will be omitted.
[0093]
The wireless communication device according to the present embodiment is similar to wireless communication device 21 shown in FIG. 3, and a description of similar parts will be omitted. The control unit 2 of the wireless communication device includes a wireless connection device determination unit in addition to the error rate determination unit 22 and the write command unit 23. The wireless connection device determination unit determines whether or not the wireless connection device is connected to a predetermined wireless connection device. The predetermined wireless connection device is a predetermined base station. Each base station has a unique identification number called an ID (IDentification) number or the like. Each base station is identified by this identification number.
[0094]
Steps b1 to b3 are the same as steps b1 to b3 in FIG. Proceeding from step b3 to step b3a, when the base station gives the ID number of the base station, the wireless connection device determining section determines whether the given ID number matches the predetermined base station ID number. judge.
[0095]
The predetermined base station ID number is stored in the wireless control data storage unit 6. The number of predetermined base stations may be one or more. Before performing the above-described determination, the control unit 2 reads the predetermined base station ID number from the wireless control data storage unit 6 and performs the above-described determination using the predetermined base station ID number. In this way, the wireless connection device determination unit determines whether or not the terminal is connected to a predetermined base station.
[0096]
In step b3a, when the wireless connection device determination section determines that the given ID number does not match the predetermined base station ID number, the process proceeds to step b11. In step b11, the control unit 2 disconnects the wireless connection with the base station. The control unit 2 controls the display unit 9 to display an error display screen on the display unit 9. Thereafter, the state shifts to a standby state. Thus, the process proceeds to step b10, and the program rewriting mode is ended.
[0097]
When the wireless connection device determination section determines in step b3a that the given ID number matches the predetermined base station ID number, the process proceeds to step b4. The operation after step b4 is the same as the operation after step b4 in FIG.
[0098]
Before the connection between the wireless communication apparatus of the present embodiment and the predetermined rewriting center is established, the wireless connection apparatus determination unit determines whether or not the wireless communication apparatus is connected to the predetermined base station. When the wireless connection device determination unit determines that the wireless communication device is connected to the predetermined base station, the connection between the wireless communication device of the present embodiment and the predetermined rewriting center is established.
[0099]
Therefore, in a place where it can be connected to a predetermined base station, it is connected to a predetermined rewriting center, but in a place where it cannot be connected to a predetermined base station, it is not connected to a predetermined rewriting center. In this way, places where program data can be written to the program data storage unit 5 are limited. As a result, the possibility that undesired received data is written into the program data storage unit 5 can be reduced, and thus the security can be improved.
[0100]
FIG. 8 is a flowchart for explaining another example of the overall operation of wireless communication apparatus 1 shown in FIG. A description of the same operation as the operation shown in FIG. 2 will be omitted.
[0101]
Steps a1 to a3 are the same as steps a1 to a3 in FIG. Proceeding from step a3 to step a3a, the control unit 2 stops the control of the transmission power by the automatic power control unit 18 of the wireless control unit 3. The control unit 2 sets the transmission power to the maximum transmission power. As a result, the wireless signal is transmitted from the wireless control unit 3 at the maximum transmission power. The operation after step a4 is the same as the operation after step a4 in FIG.
[0102]
When the program data as the received data is written in the program data storage unit 5, the control of the transmission power by the automatic power control unit 18 is stopped, and the communication is performed at the maximum transmission power. This prevents an increase in communication failures while the program data, which is received data, is being written to the program data storage unit 5, and prevents disconnection with the rewriting center.
[0103]
In step a3a of FIG. 8, the control unit 2 may set the transmission power to a predetermined transmission power. The predetermined transmission power does not include the maximum transmission power. The predetermined transmission power value is stored in the wireless control data storage unit 6. The control unit 2 reads a predetermined transmission power value stored in the wireless control data storage unit 6 and sets the transmission power to the predetermined transmission power based on the predetermined transmission power value.
[0104]
A wireless communication device according to still another embodiment of the present invention is similar to the wireless communication device 1 shown in FIG. 1 and the wireless communication device 21 shown in FIG. In the wireless communication apparatus according to the present embodiment, control unit 2 includes reception level determination unit 15, error rate determination unit 22, and write command units 16 and 23, and wireless control unit 3 includes reception level detection unit 19 and error rate It has a detection unit 24.
[0105]
In this wireless communication device, the reception level determination unit 15 determines that the reception level detection value (T) is equal to or greater than the reception level determination value (T1), and the error rate determination unit 22 determines the error rate detection value (R). Is smaller than or equal to the error rate determination value (R1), one block data is downloaded.
[0106]
In this wireless communication apparatus, when the reception level determination unit 15 determines that the reception level detection value (T) is equal to or greater than the reception level determination value (T1), and when the error rate determination unit 22 determines the error rate detection value (R). Is determined to be less than or equal to the error rate determination value (R1), the one block data may be downloaded.
[0107]
FIG. 9 is a flowchart for explaining the overall operation of the wireless communication apparatus when registering the reception level determination value (T1) and the error rate determination value (R1). When the user of the wireless communication device performs an operation for activating the wireless threshold registration mode on the key operation unit 8, the process proceeds from step c1 to step c2, and the wireless threshold registration mode is activated.
[0108]
Next, in step c3, when the user of the wireless communication device inputs the reception level determination value (T1) by operating the key operation unit 8, the control unit 2 transmits the received reception level determination value (T1) wirelessly. It is stored in the control data storage unit 6 and registered.
[0109]
Next, in step c4, when the user of the wireless communication device inputs the error rate determination value (R1) using the key operation unit 8, the control unit 2 stores the input error rate determination value (R1) in the wireless control data storage unit. 6 and register.
[0110]
When the reception level determination value (T1) and the error rate determination value (R1) are registered in this way, the wireless threshold registration mode ends in step c5.
[0111]
When the reception level is low and the error rate is high, error correction or data retransmission is required, and it takes a long time from the start of data download until all desired data is surely downloaded. Sometimes. As described above, the reception level and the error rate greatly affect the data transfer time.
[0112]
In the wireless communication apparatus according to the present embodiment, the reception level determination value (T1) and the error rate determination value (R1) can be changed, so that the user can receive the reception level determination value (T1) and the error rate determination value (R1). By selecting R1), the data transfer time can be selected.
[0113]
In still another embodiment of the present invention, the data management facility may be a hardware resource connected to the Internet network. The Internet network is connected to a mobile phone carrier network via a relay server. The relay server is a server that performs conversion of the content description language, conversion of the expression format of the content description language, conversion of the network protocol, and the like. In the present embodiment, the data management facility is realized by a computer device including, for example, a magnetic storage device that stores rewrite program data for a mobile phone, a communication control device that communicates with a relay server, and a central processing unit.
[0114]
The wireless communication device 1 is connected to data management equipment via a base station and a relay server. The wireless communication device 1 and the base station are connected by a wireless line, the base station and the relay server are connected by a wired line, and the relay server and the data management equipment are connected by a wired line. The wireless communication device 1 downloads program data from the data management facility via the relay server and the base station.
[0115]
In still another embodiment of the present invention, the data to be downloaded is not limited to the program data for operating the wireless control unit 3, but may be other program data, and may be image data and audio data. There may be. The image data and the audio data are downloaded from a predetermined data management facility other than the rewriting center. Image data, audio data, and the like are written in, for example, the user data storage unit 7 instead of the program data storage unit 5.
[0116]
Although the wireless communication device according to each of the above-described embodiments is realized by a mobile phone, a wireless communication device according to still another embodiment of the present invention is a simplified mobile phone (Personal).
Handyphone System (abbreviated as PHS). Further, a wireless communication apparatus according to still another embodiment of the present invention may be realized by, for example, a cordless telephone handset. In the present embodiment, the wireless connection device is a base unit of the cordless telephone. This master unit is connected to the Internet network by a wired line and to data management equipment.
[0117]
【The invention's effect】
As described above, according to the present invention, a predetermined reception level determination value (T1) is set, and the reception level determination unit determines that the reception level detection value (T) is equal to or greater than the reception level determination value (T1). At this time, the write command unit causes the received data to be written into the storage unit. Therefore, the received data can be written to the storage unit only when the data can be reliably received. As a result, data can be reliably written to the storage unit, and wasteful power consumption can be reduced as much as possible.
[0118]
Further, according to the present invention, a predetermined error rate determination value (R1) is set, and when the error rate detection unit determines that the error rate detection value (R) is equal to or less than the error rate determination value (R1), writing is performed. The command unit causes the received data to be written into the storage unit. Therefore, the received data can be written to the storage unit only when the data can be reliably received. As a result, data can be reliably written to the storage unit, and wasteful power consumption can be reduced as much as possible.
[0119]
Further, according to the present invention, when the source determining unit determines that the source is a predetermined data management facility, the connection between the wireless communication apparatus of the present invention and the source, that is, the predetermined data management facility is established. Is done. Therefore, a connection with the predetermined data management equipment can be established by an incoming call from the predetermined data management equipment. In addition, it is possible to prevent a connection from being established with another data management facility different from the predetermined data management facility, whereby undesired reception data from the other data management facility is written into the storage unit. Is prevented.
[0120]
According to the present invention, when the destination determination unit determines that the destination is a predetermined data management facility, a connection between the wireless communication device of the present invention and the destination, that is, the predetermined data management facility is established. Is done. Therefore, it is possible to prevent a connection from being established with another data management facility different from the predetermined data management facility, thereby writing undesired reception data from the other data management facility to the storage unit. Is prevented.
[0121]
Further, according to the present invention, when it is determined by the wireless connection device determining unit that the wireless communication device is connected to the predetermined wireless connection device, the connection between the wireless communication device of the present invention and the predetermined data management facility is established. Therefore, the place where the received data can be written to the storage unit is limited. As a result, the possibility that undesired received data is written to the storage unit can be reduced, and thus security can be improved.
[0122]
Further, according to the present invention, since the reception level determination value (T1) can be changed, the user can select the reception level determination value (T1). Since the reception level has a large effect on the data transfer time, the user can select the data transfer time by selecting the reception level determination value (T1).
[0123]
According to the present invention, since the error rate determination value (R1) can be changed, the user can select the error rate determination value (R1). Since the error rate has a large effect on the data transfer time, the user can select the data transfer time by selecting the error rate determination value (R1).
[0124]
Further, according to the present invention, when writing the reception data to the storage unit, the communication is performed at the maximum transmission power or a predetermined transmission power without operating the automatic power control unit. Therefore, it is possible to prevent an increase in communication failures and disconnection of the connection while the reception data is being written to the storage unit due to the low transmission power.
[0125]
Further, according to the present invention, since the storage unit is a nonvolatile memory, data can be retained even when power supply is stopped.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an algorithm of a wireless communication device 1 according to an embodiment of the present invention.
FIG. 2 is a flowchart for explaining the overall operation of the wireless communication device 1;
FIG. 3 is a diagram illustrating an algorithm of a wireless communication device 21 according to another embodiment of the present invention.
FIG. 4 is a flowchart for explaining the overall operation of the wireless communication device 21.
FIG. 5 is a flowchart illustrating an overall operation of a wireless communication apparatus according to still another embodiment of the present invention.
FIG. 6 is a flowchart illustrating an overall operation of a wireless communication apparatus according to still another embodiment of the present invention.
FIG. 7 is a flowchart illustrating an overall operation of a wireless communication device according to still another embodiment of the present invention.
8 is a flowchart for explaining another example of the overall operation of the wireless communication device 1 shown in FIG.
FIG. 9 is a flowchart illustrating an overall operation of the wireless communication apparatus when registering a reception level determination value (T1) and an error rate determination value (R1).
[Explanation of symbols]
1,21 wireless communication device
2 control unit
3 Radio control unit
5 Program data storage
6 Wireless control data storage
7 User data storage
15 Reception level judgment unit
16, 23 Write command section
18 Automatic power control unit
19 Received level detector
22 Error rate judgment unit
24 Error rate detector

Claims (9)

A reception level detection unit for detecting a reception level;
A predetermined reception level judgment value (T1) is set, and the reception level detection value (T) detected by the reception level detection unit is compared with the predetermined reception level judgment value (T1) to obtain a reception level detection value. A reception level determination unit that determines whether (T) is equal to or greater than the predetermined reception level determination value (T1);
A storage unit for storing received data;
A write command unit for writing received data to a storage unit when the reception level determination unit determines that the reception level detection value (T) is equal to or greater than the predetermined reception level determination value (T1). A wireless communication device characterized by the following. An error rate detection unit that detects an error rate;
A predetermined error rate determination value (R1) is set, and the error rate detection value (R) detected by the error rate detection unit is compared with the predetermined error rate determination value (R1) to obtain an error rate detection value. An error rate determination unit that determines whether (R) is equal to or less than the predetermined error rate determination value (R1);
A storage unit for storing received data;
A write command unit for writing received data to a storage unit when the error rate detection unit determines that the error rate detection value (R) is equal to or smaller than the predetermined error rate determination value (R1). A wireless communication device characterized by the following. A source determination unit that determines whether the source is a predetermined data management facility is further included,
3. The wireless communication apparatus according to claim 1, wherein when the source determining unit determines that the source is a predetermined data management facility, a connection with the source is established. The apparatus further includes a destination determining unit that determines whether the destination is a predetermined data management facility,
3. The wireless communication device according to claim 1, wherein when the destination determining unit determines that the destination is a predetermined data management facility, a connection with the destination is established. Before establishing a connection with the predetermined data management equipment, further includes a wireless connection device determination unit that determines whether or not it is connected to a predetermined wireless connection device,
The wireless communication device according to claim 1, wherein when the wireless connection device determination unit determines that the wireless communication device is connected to a predetermined wireless connection device, the wireless communication device establishes a connection with the predetermined data management facility. The wireless communication device according to claim 1, wherein the reception level determination value (T1) is changeable. The wireless communication device according to claim 2, wherein the error rate determination value (R1) is changeable. Including an automatic power control unit that controls the transmission power based on the reception level,
The wireless communication device according to claim 1, wherein when writing the received data to the storage unit, communication is performed at a maximum transmission power or a predetermined transmission power without operating the automatic power control unit. The wireless communication device according to any one of claims 1 to 8, wherein the storage unit is a nonvolatile memory.

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