JP2009141853A - Mobile terminal device, method of storing communication program, and multiband communication method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To expand surplus areas (user data areas) on a NAND memory, which stores a communication program required for dual-band communication, by reducing a data amount of the relevant communication program. <P>SOLUTION: A NAND memory stores a CDMA communication program, first differential data for converting the CDMA communication program into a GSM communication program, second differential data for converting the GSM communication program into the CDMA communication program, and a software update engine for performing inter-conversion between the respective communication programs. The first differential data are then used to convert the CDMA communication program into the GSM communication program, the second differential data are used to convert the GSM communication program into the CDMA communication program, so as to use the programs for respective communications. The data amount of communication programs to be stored in the NAND memory can be remarkably reduced, so that user data areas can be expanded by the reduced data amount. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention provides a plurality of data such as a PDC system (PDC: Personal Digital Cellular) and a CDMA communication system (CDMA: Code Division Multiple Access), or a CDMA communication system and a GSM communication system (GSM: Global Systems for Mobile). Portable terminals suitable for application to mobile devices such as so-called multiband mobile phones, PHS phones (PHS: Personal Handyphone System), PDA devices (PDA: Personal Digital Assistant), etc., capable of wireless communication using different communication methods The present invention relates to a device, a communication program storage method, and a multiband communication method, and more particularly, to a memory for storing the communication program through reduction of the data amount of the plurality of communication programs required to be compatible with a plurality of communication methods. The present invention relates to a portable terminal device that reduces storage capacity, a communication program storage method, and a multiband communication method.

  Today, mobile phones that perform wireless communication based on different communication methods such as PDC (Personal Digital Cellular), CDMA (Code Division Multiple Access), or GSM (Global Systems for Mobile). A telephone is known. These communication methods differ in communication protocol, signal processing content, frequency band, transmission speed, and the like. For this reason, when one mobile phone is compatible with a plurality of communication methods, as a simple method, hardware and software corresponding to the plurality of communication methods are separately provided in the case of the mobile phone and selected by the user. It is conceivable to perform the communication by operating hardware or software corresponding to the communication method.

  However, when hardware and software for two communication methods are provided in the case of one mobile phone in this way, it is inevitably more components than a mobile phone that performs wireless communication corresponding to only one communication method. There is a problem that the score increases. For this reason, the multimode mobile phone terminal disclosed in Japanese Patent Application Laid-Open No. 2001-345731 (Patent Document 1) includes a transmitter, a receiver, and a synthesizer that are connected to an antenna and transmit and receive radio waves. Wireless communication function, signal processing program memory for transmitting / receiving transmission / reception signals to / from the wireless communication function and executing signal processing corresponding to the communication method and signal processing unit, wireless communication function and signal processing function Among the communication control functions including the CPU for controlling the communication and the memory for the communication control program, the wireless communication function is configured by hardware that can be used in common by a plurality of communication systems, and the signal processing function is configured by a plurality of communication systems. By using a common hardware that executes signal processing compatible with the mobile phone, there are fewer mobile phone terminals that support each communication method. It is realized by points.

Japanese Patent Laid-Open No. 2001-345731 (pages 4 to 5, FIG. 1)

  Here, the same problem occurs in the multi-mode mobile phone terminal disclosed in Patent Document 1, but, for example, a dual capable of wireless communication in two communication systems, a CDMA communication system and a GSM communication system. In the case of a band-compatible mobile phone, a CDMA program and a GSM program of about 40 to 50 megabytes are stored in a NAND memory (NAND: NOT-AND) as shown in FIG. The communication program thus prepared is developed and executed on the SDRAM. That is, in order to support two communication methods, communication programs for each communication method are stored in the NAND memory.

  For this reason, as shown in FIG. 7, the storage area of the NAND memory is compressed by two communication programs of the CDMA program and the GSM program, and there is a problem that the remaining area such as the user data area is reduced. For example, in the case of a mobile phone that supports only one communication method, about 100 megabytes can be secured as the user data area of the NAND memory, but the communication program for each communication method is NANDed to support two communication methods. When stored in the memory, the user data area is compressed to 50 megabytes.

  The present invention has been made in view of the above-described problems, and aims to reduce the data amount of a plurality of communication programs required to support a plurality of communication methods, and in a memory that stores the plurality of communication programs. It is an object of the present invention to provide a portable terminal device, a communication program storage method, and a multiband communication method that can secure a large extra area.

The portable terminal device according to the present invention is a means for solving the above-described problems.
The first communication program corresponding to the first communication method and the first communication program are changed into the second communication program corresponding to the second communication method which is a communication method different from the first communication method. First difference data indicating different communication processes between the first communication program and the second communication program, and the second communication program used for conversion, and converting the second communication program into the first communication program Storage means for storing at least second difference data indicating different communication processing between the second communication program and the first communication program used when
The first communication program stored in the storage means is converted into the second communication program using the first difference data, and the converted second communication program is Communication program conversion means for converting to the first communication program using the second difference data;
When performing the communication based on the first communication method, if the second communication program is stored in the storage unit, the second communication program is stored in the first using the second difference data. When the communication program conversion unit is controlled to convert the communication program into the communication program and communication is performed based on the second communication method, the storage unit stores the first communication program when the first communication program is stored. Control means for controlling the communication program conversion means so as to convert the first communication program stored in the means into a second communication program using the first difference data;
When performing communication based on the first communication method, the first communication program stored in the storage unit or the control unit uses the second difference data to execute the second communication program. When communication is performed using the first communication program formed by controlling the communication program conversion unit so as to convert, and communication based on the second communication method is performed, the control unit includes the first communication program. Communication means for performing communication using the second communication program formed by controlling the communication program conversion means so as to convert the first communication program using one difference data.

The communication program storage method according to the present invention is a communication program storage method for storing at least the first and second communication programs in the storage means, each having a different communication method.
A first communication program corresponding to the first communication method;
The first communication program and the first communication program used when converting the first communication program into a second communication program corresponding to a second communication method that is a communication method different from the first communication method. First difference data indicating different communication processing between the two communication programs;
Second difference data indicating different communication processing between the second communication program and the first communication program, used when converting the second communication program into the first communication program, The above-mentioned problem is solved by storing the data in the storage means.

The multiband communication method according to the present invention is a multiband communication method for performing communication corresponding to at least the first and second communication methods, each having a different communication method,
The first communication program used when the first communication program corresponding to the first communication method and the first communication program are converted into the second communication program corresponding to the second communication method. First difference data indicating different communication processing between the program and the second communication program, and the second communication program used when converting the second communication program into the first communication program And second difference data indicating different communication processes between the first communication program and the first communication program are stored in the storage means,
When performing communication corresponding to the first communication method, the communication unit performs communication using the first communication program stored in the storage unit as it is, or the first communication program performs the first communication program. If the second communication program is converted, the communication program conversion means performs communication using the first communication program converted from the second communication program using the second difference data,
When performing communication corresponding to the second communication method, the communication means uses the second communication program converted from the first communication program by using the first difference data by the communication program conversion means. The above-described problems are solved by performing communication.

  In the present invention, at least a first communication program corresponding to the first communication method and a second communication program corresponding to a second communication method different from the first communication method are stored in the storage unit. The first communication program corresponding to the first communication method is stored in the storage means, and the first communication program is used to convert the first communication program into the second communication program. First difference data indicating different communication processes between the communication program and the second communication program is stored in the storage means. In addition, the first communication program and the first difference data are used to convert the second communication program into the first communication program, and the second communication program and the first communication program. Second difference data indicating different communication processes between the two is stored in the storage means.

  Thereby, the data amount of the communication program memorize | stored in a memory | storage means in order to respond | correspond to a 1st and 2nd communication system can be reduced to a 1st communication program and said 2 difference data. For this reason, even when a communication program corresponding to the two communication methods is stored in the storage unit, a large extra area can be secured in the storage unit.

  The present invention can reduce the data amount of a plurality of communication programs required to support a plurality of communication methods. For this reason, even when a communication program corresponding to a plurality of communication methods is stored in the storage unit, a large extra area can be secured in the storage unit.

The present invention relates to a so-called dual-band mobile phone capable of wireless communication in accordance with two communication systems, CDMA (Code Division Multiple Access) and GSM (Global Systems for Mobile). Can be applied to.

[Configuration of mobile phone]
As shown in FIG. 1, the cellular phone according to the embodiment to which the present invention is applied includes a voice call based on the CDMA communication method or GSM communication method, videophone call, electronic mail, Web data with a radio base station. An antenna 1 and a communication circuit 2 for performing wireless communication such as (Web: World Wide Web), and a display unit 3 for displaying operation menus, e-mails, images (still images and moving images), status information to be described later, and the like The operation unit 4 for performing a selection operation of a desired menu, the switching operation between the CDMA communication system and the GSM communication system, the speaker unit 5 for outputting a received voice, and the like, collecting the transmission voice, etc. A microphone unit 6 for capturing, a camera unit 7 for capturing a still image or a moving image of a desired subject, and a light emitting unit 8 (LED: Light Emitting Di) ode).

In addition, the mobile phone stores a vibration unit 9 for notifying the user of incoming / outgoing calls by vibrating the case of the mobile phone, a timer 10 for counting the current time, a communication program, user data, and the like. NAND memory 11 (NAND: NOT-AND), SDRAM 12 (Synchronous Dynamic Random Access Memory) in which the communication program and the like read from the NAND memory 11 are expanded, and a control unit that controls the operation of the entire mobile phone 14.

[Details of NAND memory]
As shown in FIG. 2, the NAND memory 11 includes a CDMA communication program, first differential data (CDMA → GSM differential data) for converting the CDMA communication program into a GSM communication program, and a GSM communication program as CDMA communication. Second difference data (GSM → CDMA difference data) for conversion into a program and a software update engine of about several hundred kilobytes, which is a mutual conversion processing program between the CDMA communication program and the GSM communication program, are stored. Yes.

  The NAND memory 11 also manages an e-mail management program for controlling creation and transmission / reception of e-mails, a camera control program for controlling imaging of the camera unit 7, and a schedule book in which user schedules are registered. Application programs such as a schedule book management program for managing a telephone book, a telephone book management program for managing a telephone book, a music player program for reproducing music contents, and a web browsing program for browsing a desired web page Is remembered.

  Further, in this NAND memory 11, a surplus area other than the storage area in which the CDMA communication program and various application programs are stored is a user data area, a schedule book in which a user's desired schedule is registered, and a user's acquaintance User name of friends and friends, still image (face photo, etc.), address, phone number, e-mail address, phone book in which date of birth is registered, music content played based on music player program, camera control program Still image content and moving image content reproduced based on the viewer function, e-mail content transmitted and received, telephone and e-mail incoming and outgoing histories, and the like are stored.

  The first difference data is data indicating communication processing detected by comparing the CDMA communication program and the GSM communication program as shown in FIG. That is, the first differential data is converted into a GSM communication program by complementing the CDMA communication program with a partial program that performs communication processing different from the GSM communication program. It is data for.

  Similarly, the second difference data is data indicating communication processing different between the two detected by comparing the CDMA communication program and the GSM communication program as shown in FIG. 3B. Yes. That is, the second difference data is converted into a CDMA communication program by complementing the GSM communication program with a partial program that performs communication processing different from the CDMA communication program. It is data for.

The CDMA communication program includes status information indicating that the communication program is a CDMA communication program, and when the CDMA communication program is converted into a GSM communication program using the first difference data. In the GSM communication program, status information indicating that the communication program is a GSM communication program is written.

[Communication program switching operation]
Next, the switching operation of the communication program between the CDMA communication program and the GSM communication program in the mobile phone of the embodiment will be described.

[Switching operation from CDMA to GSM]
First, in a case where the communication program stored in the NAND memory 11 is a CDMA communication program, when the user makes a request for switching to the GSM communication program via the operation unit 4, the control unit 14 causes the NAND memory 11 to First difference data (CDMA → GSM difference data) for converting the CDMA communication program into a GSM communication program as shown in FIGS. 4 (a) and 5 The CDMA communication program stored in the NAND memory 11 is converted into a GSM communication program (= the communication processing program on the NAND memory 11 is rewritten from the CDMA communication program to the GSM communication program).

  Then, the control unit 14 develops the GSM communication program formed by the conversion process from the NAND memory 11 onto the SDRAM 12 and reads the GSM communication program from the SDRAM 12 when performing communication, and performs communication corresponding to the GSM communication method. The communication circuit 2 is controlled to perform communication. Thereby, communication can be performed by switching the communication method from the CDMA communication method to the GSM communication method.

Further, when the GSM communication program is formed by converting the CDMA communication program stored in the NAND memory 11, the control unit 14 displays status information indicating that the communication program is a GSM communication program. Write in the communication program. The status information is read from the GSM communication program formed by the conversion process and displayed on the display unit 3. This allows the user to recognize that the currently active communication processing program is a GSM communication program.

[Switching operation from GSM to CDMA]
Next, when the user makes a request to switch to the CDMA communication program via the operation unit 4 after rewriting the communication program stored in the NAND memory 11 to the GSM communication program, the control unit 14 , Functioning as a software update engine stored in the NAND memory 11, and, as shown in FIGS. 4B and 5, second differential data (GSM →) for converting the GSM communication program into a CDMA communication program. The GSM communication program stored in the NAND memory 11 is converted into a CDMA communication program using CDMA difference data (= the communication processing program on the NAND memory 11 is rewritten from the GSM communication program to the CDMA communication program). .

  Then, the control unit 14 develops the CDMA communication program formed by the conversion process from the NAND memory 11 onto the SDRAM 12 and reads the CDMA communication program from the SDRAM 12 when performing communication, and performs communication corresponding to the CDMA communication method. The communication circuit 2 is controlled to perform communication. Thus, communication can be performed by switching the communication method from the GSM communication method to the CDMA communication method.

In addition, when the control unit 14 forms a CDMA communication program by converting the GSM communication program stored in the NAND memory 11, status information indicating that the communication program is a CDMA communication program is displayed in the CDMA Write in the communication program. The status information is read from the CDMA communication program formed by the conversion process and displayed on the display unit 3. This allows the user to recognize that the currently active communication processing program is a CDMA communication program.

[Effect of the embodiment]
As is apparent from the above description, the cellular phone of this embodiment includes a CDMA communication program in the NAND memory 11 and first difference data (CDMA → GSM difference for converting this CDMA communication program into a GSM communication program. Data), second difference data (GSM → CDMA difference data) for converting the GSM communication program into the CDMA communication program, and software update for performing mutual conversion processing between the CDMA communication program and the GSM communication program Remember the engine.

  Then, when the CDMA communication program is stored in the NAND memory 11, the control unit 14 functioning as the software update engine when the request for switching to the GSM communication program is made, uses the first difference data. The communication program on the NAND memory 11 is converted from the CDMA communication program to the GSM communication program, and GSM communication control is performed based on the GSM communication program formed by this conversion processing.

  Further, when the GSM communication program is stored in the NAND memory 11, when the switching request to the CDMA communication program is made, the control unit 14 functioning as the software update engine uses the second difference data. The communication program on the NAND memory 11 is converted from the GSM communication program to the CDMA communication program, and the CDMA communication control is performed based on the CDMA communication program formed by the conversion process.

  Data to be stored in the NAND memory 11 in order to cope with such a so-called dual band is a CDMA communication program, first difference data, second difference data, and a software update engine. Since the program difference between the CDMA communication program and the GSM communication program is small, the first difference data and the second difference data are about a fraction of the data amount of the CDMA communication program and the GSM communication program. The data amount of the software update engine is about several hundred kilobytes. For this reason, compared with the case where both the CDMA communication program and the GSM communication program are stored in the NAND memory 11, it is possible to significantly reduce the amount of data required to support the dual band. Therefore, a large extra area (user data area) can be secured on the NAND memory 11 as shown in FIG.

  Also, when switching between such a CDMA communication program and a GSM communication program, the type of the communication program stored in the NAND memory 11 is usually used to indicate to the user the type of the communication program currently being activated. It is necessary to save the flag shown in the non-volatile memory, and it is necessary to hold the flag saved in the non-volatile memory even when the main power supply of the mobile phone is turned off and the battery is removed. is there.

However, in the case of the mobile phone according to the embodiment, status information is included in the CDMA communication program, and even when the CDMA communication program is converted into the GSM communication program, the status information is included in the GSM communication program formed by this conversion. Is to be written. Since the status information included in the CDMA communication program or GSM communication program is read and displayed on the display unit 3, a non-volatile memory for storing a flag indicating the type of the communication program described above Can be made unnecessary.

[Modification]
In the description of the above-described embodiment, the CDMA communication program is stored in the NAND memory 11, and the CDMA communication program is converted into the GSM communication program with the first difference data, or is converted with the first difference data. Although the GSM communication program is returned to the CDMA communication program with the second difference data, the GSM communication program is stored in the NAND memory 11, and the GSM communication program is converted into the CDMA communication program with the second difference data. Alternatively, the CDMA communication program converted with the second difference data may be returned to the GSM communication program with the first difference data. In this case, the same effect as described above can be obtained.

  In the above description of the embodiment, the present invention is applied to a mobile phone. However, the present invention is not limited to a multi-band compatible PHS phone (PHS: Personal Handyphone System), a PDA device (PDA: It may be applied to other portable devices such as Personal Digital Assistant). In either case, the same effect as described above can be obtained.

  In the above description of the embodiment, the CDMA communication system and the GSM communication system are supported. However, other communication such as the PDC communication system and the CDMA communication system or the PDC communication system and the GSM communication system is used. You may make it respond | correspond to a system.

  When the PDC communication method and the CDMA communication method are supported, the first and second differences indicating the difference in communication processing between the PDC communication program (or CDMA communication program) and the PDC communication program and the CDMA communication program. The NAND memory 11 may store the data and a software update engine that converts the PDC communication program into the CDMA communication program and converts the CDMA communication program into the PDC communication program. Similarly, when the PDC communication system and the GSM communication system are to be supported, the first and the first, which indicate the difference in communication processing between the PDC communication program (or the GSM communication program) and the PDC communication program and the GSM communication program. The difference data of 2 and the software update engine for converting the PDC communication program into the GSM communication program and converting the GSM communication program into the PDC communication program may be stored in the NAND memory 11. In either case, the same effect as described above can be obtained.

  Furthermore, not only two types but also three or more types of communication methods may be supported. Specifically, when the PDC communication method, the CDMA communication method, and the GSM communication method are supported, for example, the CDMA communication program is stored in the NAND memory 11 and the first difference for converting the CDMA communication program into the GSM communication program. Data, second differential data for converting a GSM communication program into a CDMA communication program, third differential data for converting a CDMA communication program into a PDC communication program, and for converting a PDC communication program into a CDMA communication program 4th difference data, 5th difference data for converting a PDC communication program into a GSM communication program, 5th difference data for converting a GSM communication program into a PDC communication program, and conversion between each communication system Software update engine that executes the process A is stored in the NAND memory 11. As a result, it is possible to obtain an effect such as securing a large user data area on the NAND memory 11 as described above.

  Finally, the above-described embodiment is an example of the present invention. For this reason, the present invention is not limited to the above-described embodiment, and various modifications can be made according to the design and the like as long as they do not depart from the technical idea of the present invention. I add that there is something.

1 is a block diagram of a mobile phone according to an embodiment to which the present invention is applied. FIG. 3 is a schematic diagram of the NAND memory for explaining data stored in the NAND memory of the mobile phone according to the embodiment. It is a figure for demonstrating the difference data of the CDMA communication program and GSM communication program which are memorize | stored in NAND memory of the mobile telephone of embodiment. It is a figure for demonstrating switching from the CDMA communication program to a GSM communication program in the mobile telephone of embodiment, and switching from a GSM communication program to a CDMA communication program. It is a figure for demonstrating the switching operation | movement of the communication program in the mobile telephone of embodiment. It is a figure for demonstrating the conventional mobile telephone which selectively expands and uses the CDMA communication program and GSM communication program provided on the NAND memory on SDRAM. FIG. 10 is a diagram for explaining a problem in which a user area of a NAND memory is compressed by providing two communication programs of a CDMA communication program and a GSM communication program on a NAND memory in a conventional mobile phone.

Explanation of symbols

  1 antenna, 2 communication circuit, 3 display unit, 4 operation unit, 5 speaker unit, 6 microphone unit, 7 camera unit, 8 light emitting unit (LED), 9 vibration unit, 10 timer, 11 NAND memory, 12 SDRAM, 13 memory , 14 Control unit

Claims (6)

The first communication program corresponding to the first communication method and the first communication program are changed into the second communication program corresponding to the second communication method which is a communication method different from the first communication method. First difference data indicating different communication processes between the first communication program and the second communication program, and the second communication program used for conversion, and converting the second communication program into the first communication program Storage means for storing at least second difference data indicating different communication processing between the second communication program and the first communication program used when
The first communication program stored in the storage means is converted into the second communication program using the first difference data, and the converted second communication program is Communication program conversion means for converting to the first communication program using the second difference data;
When performing the communication based on the first communication method, if the second communication program is stored in the storage unit, the second communication program is stored in the first using the second difference data. When the communication program conversion unit is controlled to convert the communication program into the communication program and communication is performed based on the second communication method, the storage unit stores the first communication program when the first communication program is stored. Control means for controlling the communication program conversion means so as to convert the first communication program stored in the means into a second communication program using the first difference data;
When performing communication based on the first communication method, the first communication program stored in the storage unit or the control unit uses the second difference data to execute the second communication program. When communication is performed using the first communication program formed by controlling the communication program conversion unit so as to convert, and communication based on the second communication method is performed, the control unit includes the first communication program. And a communication means for performing communication using the second communication program formed by controlling the communication program conversion means so as to convert the first communication program using one difference data. apparatus. The mobile terminal device according to claim 1,
And having expanded storage means for expanding the first communication program or the second communication program read from the storage means,
The mobile terminal device, wherein the communication unit performs communication using any one of the communication programs expanded in the expansion storage unit. The portable terminal device according to claim 1 or 2, wherein
The first communication program stored in the storage means includes status information indicating that the communication program is the first communication program, and the above-described information stored in the storage means The second communication program formed by converting the first communication program includes status information indicating that the communication program is the second communication program,
The control means reads status information of the first communication program included in the first communication program and displays the status information on the display means during the activation of the first communication program, and the second communication program. During the activation of the mobile terminal device, the status information of the second communication program included in the second communication program is read and displayed on the display means. It is a portable terminal device given in any 1 paragraph among Claims 1-3,
The first communication program is a communication program corresponding to a CDMA communication system (CDMA: Code Division Multiple Access), and the second communication program is a communication corresponding to a GSM communication system (GSM: Global Systems for Mobile). A portable terminal device characterized by being a program. A communication program storage method for storing at least a first communication program and a second communication program in a storage means, each having a different communication method,
A first communication program corresponding to the first communication method;
The first communication program and the first communication program used when converting the first communication program into a second communication program corresponding to a second communication method that is a communication method different from the first communication method. First difference data indicating different communication processing between the two communication programs;
Second difference data indicating different communication processing between the second communication program and the first communication program, used when converting the second communication program into the first communication program, A method for storing a communication program, characterized by being stored in a storage means. A multiband communication method for performing communication corresponding to at least the first and second communication methods, each having a different communication method,
The first communication program used when the first communication program corresponding to the first communication method and the first communication program are converted into the second communication program corresponding to the second communication method. First difference data indicating different communication processing between the program and the second communication program, and the second communication program used when converting the second communication program into the first communication program And second difference data indicating different communication processes between the first communication program and the first communication program are stored in the storage means,
When performing communication corresponding to the first communication method, the communication unit performs communication using the first communication program stored in the storage unit as it is, or the first communication program performs the first communication program. If the second communication program is converted, the communication program conversion means performs communication using the first communication program converted from the second communication program using the second difference data,
When performing communication corresponding to the second communication method, the communication means uses the second communication program converted from the first communication program by using the first difference data by the communication program conversion means. A multiband communication method characterized by performing communication.

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