JP2004147192A - Method and system for controlling function of information communication terminal, and information communication terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a function controlling method capable of controlling added value type functions of a plurality of portable telephone sets without increasing the load of a communication network and to provide its system and the portable telephone sets. <P>SOLUTION: An information transmission signal including function control information for controlling the added value type functions of the portable telephone sets 60 as information of a providing object is repeatedly transmitted to the plurality of portable telephone sets 60. Each information communication terminal 60 receives the information transmission signal including the function control information, acquires the function control information included in the information transmission signal and controls the added value type functions of the portable telephone set 60 on the basis of the function control information. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a function control method for controlling a value-added function such as a data encryption function in an information communication terminal such as a mobile phone, a system thereof, and an information communication terminal.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, as an information communication terminal such as a mobile phone, a device having a data encryption function of encrypting data by an encryption algorithm using an encryption key is known. This data encryption is performed when content data such as images, music, and programs downloaded from an information providing site or the like on the Internet is stored in a memory card that is removable from an information communication terminal. 1). Many of the content data downloaded from the information providing sites and the like are often protected by copyright. Therefore, by encrypting the content data and storing it on a memory card, the content data is prevented from being copied without permission or transferred to a third party and used by an external personal computer or the like. .
[0003]
[Patent Document 1]
JP-A-2002-171251
[0004]
[Problems to be solved by the invention]
However, there is a problem that an encryption key and an encryption algorithm used for data encryption in the information communication terminal such as the mobile phone may be decrypted. If the encryption key and the encryption algorithm are decrypted in this way, even if the data is encrypted and stored on the memory card, there is a risk that the content data in the memory card will be illegally decrypted and used on a personal computer or the like. . Therefore, in order to prevent unauthorized use of content data due to decryption of the encryption key, etc., it is necessary to prohibit the use of the decrypted encryption key, etc., at the same time for a plurality of information communication terminals or replace it with another encryption key, etc. Sex has come out.
Here, a method using a communication service such as SMS (Short Messaging Service) may be considered in order to simultaneously prohibit or replace the encryption key or the like. However, in this method, a communication line is established for all of the plurality of information communication terminals, and the use prohibition information such as an encryption key and the switching information are individually transmitted, thereby increasing the load on the communication network. There's a problem.
[0005]
In recent years, in addition to the data encryption function, an information communication terminal such as a mobile phone having an added value function such as an imaging function such as a camera, an application program execution function, and a recording function has been used. It has become to. In some cases, it is desired to simultaneously control the value-added functions of all information communication terminals having such value-added functions.
[0006]
The present invention has been made under the above background, and the objects are as follows. That is, an object of the present invention is to provide a function control method of an information communication terminal capable of controlling value-added functions of a plurality of information communication terminals without increasing the load on a communication network, a system thereof, and an information communication terminal. is there.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, the invention according to claim 1 receives an information transmission signal repeatedly transmitted for each of a plurality of regions at a predetermined timing and acquires information to be provided included in the information transmission signal. A function control method of an information communication terminal for controlling an added value function in an information communication terminal having an information acquisition function and another added value function, comprising: An information transmission signal including function control information for controlling a value-added function as information to be provided is repeatedly transmitted, and each information communication terminal receives the information transmission signal including the function control information, and transmits the information transmission signal. It is characterized in that the function control information included in the signal is obtained, and the value-added function of the information communication terminal is controlled based on the function control information.
According to a second aspect of the present invention, in the function control method for an information communication terminal according to the first aspect, the information communication terminal has a terminal call signal receiving function of receiving a terminal call signal. Information transmission identification data indicating that an information transmission signal including the information transmission signal is being transmitted is added to the terminal call signal, and the terminal call signal is transmitted to a plurality of information communication terminals at once, and the information communication terminal When receiving a call signal, the information transmission signal including the function control information is received based on the information transmission identification data added to the terminal call signal.
The invention according to claim 3 is the function control method for an information communication terminal according to claim 1 or 2, wherein the value-added function is a function of encrypting data by an encryption algorithm using an encryption key. The control of the value-added function is control for replacing at least one of the encryption key and the encryption algorithm.
According to a fourth aspect of the present invention, in the function control method for the information communication terminal according to the third aspect, at least one of the encryption key and the encryption algorithm is previously incorporated in the information communication terminal. Things.
[0008]
Further, the invention according to claim 5 further comprises information providing means for repeatedly transmitting an information transmission signal including information to be provided for each of a plurality of areas, receiving the information transmission signal at a predetermined timing, and providing the information transmission signal with the information transmission signal. A function control system of an information communication terminal for controlling an added value function in an information communication terminal having an information acquisition function of acquiring included information to be provided and another added value function, The information providing means is configured to repeatedly transmit an information transmission signal including function control information for controlling a value-added function as the information to be provided.
According to a sixth aspect of the present invention, in the function control system for an information communication terminal according to the fifth aspect, there is provided a terminal call control means for transmitting a terminal call signal to a plurality of information communication terminals, wherein the information transmission includes the function control information. The terminal call control means is configured to add information transmission identification data indicating that a signal is being transmitted to the terminal call signal, and to transmit the terminal call signal to a plurality of information communication terminals simultaneously. It is characterized by the following.
The invention according to claim 7 is the function control system for an information communication terminal according to claim 5 or 6, wherein the value-added function is a function of encrypting data by an encryption algorithm using an encryption key. A function control system for an information communication terminal, characterized in that the control of the value-added function is a control for replacing at least one of the encryption key and the encryption algorithm.
[0009]
The invention according to claim 8 is an information acquisition function for receiving at a predetermined timing an information transmission signal including information of a provision target repeatedly transmitted for each of a plurality of regions and acquiring the information of the provision target, and other functions. An information communication terminal having a value-added function, comprising: receiving an information transmission signal including function control information for controlling the value-added function repeatedly transmitted, wherein the function included in the information transmission signal is received. It is characterized by comprising control means for acquiring control information and controlling the value-added function based on the function control information.
According to a ninth aspect of the present invention, in the information communication terminal of the eighth aspect, the information communication terminal has a terminal call signal receiving function of receiving a terminal call signal, and indicates that an information transmission signal including the function control information is transmitted. When receiving a terminal call signal to which information transmission identification data is added, based on the information transmission identification data added to the terminal call signal, receiving the information transmission signal including the function control information, The control means is constituted.
According to a tenth aspect of the present invention, in the information communication terminal of the eighth or ninth aspect, the value-added function is a function of encrypting data by an encryption algorithm using an encryption key. Is a control for exchanging at least one of the encryption key and the encryption algorithm.
According to an eleventh aspect of the present invention, in the information communication terminal of the tenth aspect, a plurality of at least one of the encryption key and the encryption algorithm are incorporated in advance.
[0010]
In the function control method for an information communication terminal according to the first aspect, an information transmission signal including function control information for controlling a value-added function of the information communication terminal is repeatedly transmitted for each of a plurality of regions. In each information communication terminal, the information transmission signal is received at a predetermined timing, and the function control information included in the information transmission signal is obtained. The value-added functions of each information communication terminal are controlled based on the obtained function control information. As described above, since the function control information is transmitted to each information communication terminal without establishing a communication line, the value-added function of the information communication terminal can be controlled, so that the load on the communication network is not increased.
In particular, in the function control method for an information communication terminal according to claim 2, information transmission identification data indicating that the information transmission signal including the function control information is transmitted is added to the terminal call signal, and the terminal call signal is It is transmitted simultaneously to a plurality of information communication terminals. In each information communication terminal, the information transmission signal is received based on the information transmission identification data added to the simultaneously transmitted terminal calling signal, and based on the function control information included in the information transmission signal, The value-added functions of the information communication terminal are simultaneously controlled. As described above, the terminal call signal including the information transmission identification data is transmitted to a plurality of information communication terminals all at once, and the value-added functions of each information communication terminal can be simultaneously controlled at the same timing.
[0011]
According to the function control method of the information communication terminal of the third aspect, at least one of the encryption key and the encryption algorithm used in the plurality of information communication terminals can be switched at a time without increasing the load on the communication network.
According to a fourth aspect of the present invention, a selection target to be selected from a plurality of encryption keys or encryption algorithms incorporated in the information communication terminal is changed based on the function control information. By changing the selection target, at least one of the encryption key and the encryption algorithm used in the information communication terminal can be switched. Therefore, it is possible to simultaneously switch at least one of the encryption key and the encryption algorithm used in the information communication terminal without transmitting new encryption key and encryption algorithm data to the information communication terminal.
[0012]
The information providing means of the function control system for an information communication terminal according to claim 5 can be used as means for transmitting the information transmission signal in the function control method. That is, the information providing means includes an information transmission signal including function control information for controlling a value-added function of the information communication terminal as information to be provided, and an information transmission signal including information to be provided for each of a plurality of regions. Is sent repeatedly.
The terminal call control means of the information control terminal function control system according to claim 6 can be used as means for transmitting the terminal call signal in the function control method. That is, the terminal call control means adds information transmission identification data indicating that the information transmission signal including the function control information is transmitted to the terminal call signal, and transmits the terminal call signal to a plurality of information communication terminals. And send them all at once.
The function control system for an information communication terminal according to claim 7 can simultaneously switch at least one of an encryption key and an encryption algorithm used in a plurality of information communication terminals without increasing a load on a communication network.
[0013]
In the information communication terminal according to the eighth aspect, the value-added function is controlled based on the function control signal included in the information transmission signal received from the function control system.
In the information communication terminal according to the ninth aspect, the value-added function is controlled at a timing when the terminal call signal to which the information transmission identification data is added is received from the function control system.
In the information communication terminal according to the tenth aspect, at least one of an encryption key and an encryption algorithm used for data encryption processing is switched based on the function control signal received from the function control system.
An information communication terminal according to claim 11 changes a selection target to be selected from a plurality of encryption keys or encryption algorithms incorporated in the information communication terminal based on the function control information. By changing the selection target, at least one of the encryption key and the encryption algorithm used for the data encryption processing can be switched. Therefore, at least one of the encryption key and the encryption algorithm can be switched without receiving the data of the new encryption key and the encryption algorithm.
[0014]
Note that the "information communication terminal" includes a PDC (Personal Digital Cellular) system having a value-added function such as a data encryption function, a GSM (Global System for Mobile Communication) system, and a TIA (Telecommunications Indication Association) system. In addition to a mobile phone, a mobile phone standardized by IMT (International Mobile Telecommunications) -2000, a PHS (Personal Handyphone Service), a mobile phone, and the like, an information communication terminal to which a mobile phone module is added is also included. Further, the "information communication terminal" may be a mobile information communication terminal such as the above-mentioned mobile phone or a fixed information communication terminal such as a fixed telephone if it has the above-mentioned value-added function. Is also good.
The “value-added function” includes, in addition to the data encryption function, a function for using content data such as images, music, and application programs, an imaging function, a recording function, and the like. In using the content data, it is possible to display content data of an image such as a still image or a moving image on a display unit of the information communication terminal, or output content of sound information such as music from the information communication terminal. included. Further, it also includes activating content data of a program such as a game and a standby screen. In addition, outputting the content data from the main body of the information communication terminal to a recording medium attached to the main body is also included. Here, the “recording medium” includes an SD memory card, a CF (Compact Flash: registered trademark) memory card, a smart media, a memory stick, and an MMC (multimedia card).
Further, the control in the information communication terminal can also be realized by executing a predetermined program by a computer provided in the information communication terminal. The delivery of the program used in the computer may be performed using a recording medium such as a ROM, an FD, or a CD-ROM in which the program is recorded as digital information, or may be performed using a communication network such as a computer network.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
The function control method according to the present embodiment is a method in which, for a plurality of information communication terminals having a function of data encryption processing, encryption keys used in the data encryption processing are simultaneously switched. The data encryption process is executed when content data downloaded for a fee from an information providing site on the Internet or the like is transferred to a memory card. Examples of the content data include image data such as a standby screen, music data such as an incoming melody, and application program data such as game software.
The simultaneous switching of the encryption keys is performed, for example, at a timing when it is found that the encryption key commonly used in each mobile phone has been decrypted. This simultaneous switching of the encryption key can prevent unauthorized use of the content data that has been encrypted and stored in the memory card. The simultaneous switching of the encryption keys may be periodically performed at a predetermined timing set in advance. In this case, unauthorized use of the encrypted content data stored in the memory card can be prevented.
[0016]
FIG. 1 is an explanatory diagram of a function control system for realizing the function control method according to the present embodiment. This function control system is configured using a terminal call control system 40 as terminal call control means and an information providing system 50 as information providing means.
The terminal call control system 40 is provided in a mobile phone communication network (including a wireless communication network) 70 as a communication network, and transmits a terminal call signal to a plurality of mobile phones 60 through a terminal call physical channel. Since the terminal call signal has a smaller data amount than that of a normal message transmission, it is possible to suppress an increase in the load on the mobile telephone communication network 70 even when the terminal call signal is transmitted to a large number of mobile telephones at once. The terminal call control system 40 includes, for example, a signal generation unit that generates a terminal call signal, a transmission schedule management unit that manages the timing of transmitting the terminal call signal, and a transmission unit. The transmitting unit transmits a terminal call signal to all the mobile phones to be called at the same time via the mobile phone communication network 70 including a base station, an exchange, and the like.
The information providing system 50 is provided in the mobile telephone communication network 70, and repeatedly transmits an information transmission signal including information to be provided for each of a plurality of areas A, B, C,. It is. Since the information provision physical channel through which the information transmission signal is transmitted does not require the establishment of a communication line with each mobile phone 60, an increase in the load of the mobile phone communication network information provision physical channel 70 can be suppressed. The information providing system 50 includes, for example, a database for managing transmission target information, a database for managing transmission areas, a transmission schedule management unit for managing information transmission timing, a reception unit, a transmission unit, and the like. The receiving unit receives information to be provided from a content provider or the like. The transmission unit transmits information to be provided via a mobile phone communication network 70 including a base station and an exchange.
The mobile telephone communication network 70 includes a base station, an exchange, and the like, in addition to the terminal call control system 40 and the information providing system 50.
[0017]
FIG. 2 is a sequence diagram of transmission and reception of various signals in the function control system of the present embodiment.
First, an information transmission signal including function control information for switching an encryption key as emergency information for all the mobile phones 60 is repeatedly transmitted from the information providing system 50 on the “information providing physical channel”.
Next, in the call control system 40, presence / absence identification data of emergency information indicating that the information transmission signal including the emergency information is transmitted is added to the terminal call signal. Then, a simultaneous call for transmitting the terminal call signal to all the mobile telephones 60 at the same time on the "terminal call physical channel" is executed.
[0018]
The “physical channel for providing information” corresponds to both the full-rate structure and the half-rate structure. In the case of the full rate structure, the “information providing physical channel” is arranged in the first slot (TS1) and the fourth slot (TS4) in one frame composed of six slots. Then, the mobile phone 60 performs intermittent reception at the timing at which the “information providing physical channel” slot is arranged, and receives the “terminal calling physical channel” slot during standby, and sets the time zone following this slot. The reception level of the peripheral zone for the transition is measured. On the other hand, in the case of the half-rate configuration, the “information providing physical channel” is arranged in the first slot (TS1) in one frame composed of six slots, and the mobile phone 60 sets the “information providing physical channel”. , The intermittent reception is performed at the timing when the slot is arranged, and the "terminal calling physical channel" slot is received during standby, and the surrounding zone for zone transition is measured in the time following this slot.
In the logical channel of the “physical channel for providing information”, an “information channel” including character information and the like and a “control channel” including channel configuration information of the information channel and the like are defined. In the case of a full-rate configuration, one physical channel for providing information includes a “control channel” in the first two frames of a superframe, an “information channel” having an eight-frame configuration in the subsequent 32 frames, and a dummy slot in the last two frames. Be placed. In the case of the half-rate configuration, a “control channel” is arranged in the first two frames of a superframe, and an “information channel” having an eight-frame configuration is arranged in the subsequent 16 frames. That is, the “information channel” is repeatedly retransmitted four times in the case of the full rate configuration, and is repeated twice in the case of the half rate configuration. Due to the retransmission of the "information channel", the reliability is improved by error correction at the time of reception in frame assembly in the mobile phone 60. Then, all “physical channels for providing information”, for example, a total of 64 channels from 0 to 63 are arranged in a CBS hyperframe composed of 70 superframes or the like. In this CBS hyperframe, the 0th and 1st channels, which are emergency information channels, are arranged, for example, four times at equal intervals.
[0019]
On the other hand, the “physical channel for terminal calling” is also called a “broadcast channel”. An operator-specific definition area is set in an area following the information element, network number, regulation information,..., Location registration timer of the “physical channel for terminal calling”. In addition, the carrier-specific definition area is provided with an extended information element length area and an extended information area for receiving the “information providing physical channel”. The length of the information provision physical channel indication element is set in the extension information element length area, and the information provision physical channel indication element is set in the extension information area. That is, 1 (octet), which is the length of the extended information, is set in the extended information element length area following the information element of the "terminal calling physical channel", the network number, the regulation information, ..., the location registration timer. . Various identification bits are set in the extended information area as information providing physical channel indication elements.
For example, the identification bits of the “information providing physical channel” are set in the fifth and fourth bits (I1 and I2) in one octet. Further, a bit for identifying whether the “information provision physical channel” is a half-rate configuration or a full-rate configuration is set in the third bit (P1) in the one octet. Further, a bit corresponding to presence / absence identification data for identifying the presence / absence of emergency information is set in the second bit (P2) in the one octet. If the “I1I2” is “00”, the setting is made to indicate that there is no “information providing physical channel”, and if the “11” is “11”, it is set to indicate that the “information providing physical channel” is present. Further, when the above “P1” is “0”, the half rate is set, and when “P1”, the full rate is set. Also, when the above “P2” is “0”, it is set to indicate no emergency information, and when the “P2” is “1”, the emergency information is set.
When the second bit (P2) of the extended information area (1 octet) of the “terminal calling physical channel” is “1”, the mobile phone 60 determines that there is emergency information, and The reception of the information transmission signal transmitted on the "channel" is started.
[0020]
FIG. 3 is a block diagram of a mobile phone 60 that can switch an encryption key or an encryption algorithm used for data encryption processing in response to a signal from the function control system. The main body 100 of the mobile phone 60 includes a control unit 111, an internal memory 112, a wireless communication unit 113, and an antenna 114. The control unit 111 is connected to a microphone 116 and a speaker 117 via an audio processing unit 115, a display unit 119 via an image processing unit 118, and a key operation unit 120.
The mobile phone is configured such that a memory card 121 as an external storage device and a USIM (User Subscriber Identity Module) 122 as a recording medium for storing user information are detachable.
[0021]
The control unit 111 includes, for example, a CPU, a cache memory, and a system bus. The control unit 111 executes a predetermined control program to transmit and receive data to and from each unit, such as the internal memory 112 and the wireless communication unit 113. Control. The control unit 111 also performs data encryption processing for encrypting content data and the like using one encryption key selected from a plurality of encryption keys stored in the internal memory 112 and a predetermined encryption algorithm. Used. Further, the control unit 111 is also used as a control unit that performs control such as reception of a terminal call signal described later, reception of an information transmission signal, acquisition of function control information, switching of an encryption key, and the like.
[0022]
The internal memory 112 is composed of, for example, a semiconductor memory such as a RAM or a ROM, and stores a control program executed by the control unit 111 and various data. The internal memory 112 is also used as content data storage means for storing content data such as images, music, and programs downloaded from an information providing site or the like. Further, the internal memory 112 is also used as a storage unit of encryption processing data for storing a plurality of encryption keys used for the data encryption.
[0023]
The wireless communication unit 114 is controlled by the control unit 111 and performs wireless communication with a base station of a mobile phone communication network via the antenna 114 by a predetermined communication method. By this wireless communication, it is possible to perform voice telephone communication with a specific mobile phone or the like, or perform data communication such as transmission / reception of an e-mail or content download from an information providing site.
The voice processing unit 115 encodes a transmission voice signal input from the microphone 116 by a predetermined method and sends the encoded signal to the control unit 111. The audio processing unit 115 decodes the received audio signal received by the wireless communication unit 113 and outputs the signal from the speaker 117. Further, the voice processing unit 115 outputs a sound signal such as a ringtone melody stored in the internal memory 112 or a sound effect used in an application program from the speaker 117.
The image processing unit 118 processes image data received by the wireless communication unit 113 and image data such as icons and menus stored in the internal memory 112 and displays the processed data on a display unit such as a liquid crystal display (LCD). .
The key operation unit 120 includes a data input key (numeric keypad, * key, # key), a call start key, an end key, a scroll key, a multi-function key, and the like. Used for scrolling or selecting displayed information.
[0024]
The memory card 121 is detachable from a memory card slot (not shown) of the mobile phone. As the memory card 121, for example, an SD memory card can be used. In addition to the SD memory card, a CF (Compact Flash: registered trademark) memory card, a smart media, a memory stick, an MMC (multimedia card) and the like can be used.
[0025]
The USIM 122 is composed of, for example, an IC card, and is detachable from a USIM slot (not shown) of the mobile phone. The USIM 122 is issued by, for example, a mobile phone communication carrier, and records information of a user (a mobile phone contractor) who uses the mobile phone. By attaching the USIM 122 to a mobile phone, the mobile phone can be used with predetermined contract contents. Further, by replacing the USIM 122 with a plurality of mobile phones having similar functions and using the same, the plurality of mobile phones can be used as the same subscriber.
[0026]
FIG. 4 is a flowchart showing a procedure of a function control process in the mobile phone 60 having the above configuration.
The terminal call signal transmitted from the terminal call control system 40 is received by all the mobile phones 60 (step 1). When the mobile phone 60 receives the terminal call signal, it determines the contents of the emergency information presence / absence identification data added to the terminal call signal (step 2). Here, if the presence / absence identification data of the emergency information indicates that the information transmission signal including the emergency information is transmitted from the information providing system 50, the information transmission signal transmitted on the information providing physical channel is transmitted. Receive (Step 3). Then, function control information as emergency information is obtained from the received information transmission signal (step 4). The encryption key used in the mobile phone 60 is switched based on the function control information obtained from the information transmission signal (step 5).
[0027]
As described above, according to the present embodiment, the encryption keys used by the plurality of mobile phones 60 can be simultaneously switched at the same timing without increasing the load on the mobile phone communication network 70. Therefore, it is possible to prevent unauthorized use of the content data that has been encrypted and moved to the memory card.
Further, according to the present embodiment, since a plurality of encryption keys are stored and incorporated in the internal memory 112 of each mobile phone 60, there is no need to receive a new encryption key when switching the encryption keys, and the communication An increase in load can be further suppressed.
[0028]
In the above embodiment, the reception / non-reception of the information transmission signal including the function control information is switched by the terminal call signal. However, the reception / non-reception of the information transmission signal is switched regardless of the terminal call signal. May be. For example, an information transmission signal including the function control information may be received at a reception timing preset in the mobile phone.
[0029]
Although the encryption key is switched in the above embodiment, the encryption algorithm may be switched instead of or in addition to the encryption key. Further, the present invention can be applied to a case where other added-value functions such as an imaging function of a camera of a mobile phone, an application program execution function, a recording function, and the like are controlled, and similar effects can be obtained.
[0030]
Further, in the above embodiment, the case where the information communication terminal is a mobile phone has been described. However, the present invention can be applied to the case of another information communication terminal such as a PHS, a car phone, a portable personal computer, a fixed telephone, A similar effect can be obtained.
[0031]
【The invention's effect】
According to the first to eleventh aspects, there is an excellent effect that the value-added functions of a plurality of information communication terminals can be controlled without increasing the load on the communication network.
In particular, according to the second, sixth and ninth aspects of the invention, there is an excellent effect that value-added functions of a plurality of information communication terminals can be simultaneously controlled at the same timing.
In particular, according to the third, seventh and tenth aspects of the present invention, an excellent effect that the encryption keys or encryption algorithms used in a plurality of information communication terminals can be simultaneously switched without increasing the load on the communication network. is there.
In particular, according to the fourth and eleventh aspects of the present invention, it is not necessary to receive a new encryption key or data of an encryption algorithm, so that there is an excellent effect that the load on the communication network can be further suppressed.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of a function control system for implementing a function control method according to an embodiment of the present invention.
FIG. 2 is a sequence diagram of transmission and reception of various signals in the function control method.
FIG. 3 is a schematic configuration diagram of a mobile phone that switches an encryption key by the same function control method.
FIG. 4 is an exemplary flowchart showing a procedure of a function control process in the mobile phone.
[Explanation of symbols]
40 Terminal call control system
50 Information Provision System
60 mobile phone
70 Mobile phone communication network
111 control unit
112 Internal memory
121 memory card

Claims (11)

Information communication having an information acquisition function of receiving an information transmission signal repeatedly transmitted for each of a plurality of regions at a predetermined timing and acquiring information to be provided included in the information transmission signal, and other value-added functions A function control method for an information communication terminal that controls the value-added function in the terminal,
For a plurality of information communication terminals, repeatedly transmits an information transmission signal including function control information for controlling value-added functions of the information communication terminal as the information to be provided,
In each information communication terminal, an information transmission signal including the function control information is received, the function control information included in the information transmission signal is obtained, and a value-added function of the information communication terminal is obtained based on the function control information. A function control method for an information communication terminal, comprising: The function control method for an information communication terminal according to claim 1,
The information communication terminal has a terminal call signal receiving function of receiving a terminal call signal,
Adding information transmission identification data indicating that an information transmission signal including the function control information is being transmitted to the terminal calling signal, transmitting the terminal calling signal to a plurality of information communication terminals simultaneously,
Information receiving the terminal call signal at each information communication terminal, based on the information transmission identification data added to the terminal call signal, receiving an information transmission signal including the function control information; Function control method for communication terminals. The function control method for an information communication terminal according to claim 1 or 2,
The value-added function is a function of encrypting data by an encryption algorithm using an encryption key,
A function control method for an information communication terminal, wherein the control of the value-added function is a control of exchanging at least one of the encryption key and the encryption algorithm. The function control method for an information communication terminal according to claim 3,
A function control method for an information communication terminal, wherein a plurality of at least one of the encryption key and the encryption algorithm are previously incorporated in the information communication terminal. An information providing unit for repeatedly transmitting an information transmission signal including information to be provided for each of a plurality of regions, receiving the information transmission signal at a predetermined timing, and acquiring information to be provided included in the information transmission signal; A function control system for an information communication terminal that controls the value-added function in an information communication terminal having an information acquisition function and other value-added functions,
An information communication terminal configured to repeatedly transmit an information transmission signal including function control information for controlling a value-added function of the information communication terminal as the information to be provided; Function control system. The function control system for an information communication terminal according to claim 5,
Comprising terminal call control means for transmitting a terminal call signal to a plurality of information communication terminals,
Information transmission identification data indicating that the information transmission signal including the function control information is transmitted is added to the terminal call signal, and the terminal call signal is transmitted to a plurality of information communication terminals at once. And a function control system for an information communication terminal, wherein the terminal call control means is constituted. The function control system for an information communication terminal according to claim 5 or 6,
The value-added function is a function of encrypting data by an encryption algorithm using an encryption key,
A function control system for an information communication terminal, characterized in that the control of the value-added function is a control for replacing at least one of the encryption key and the encryption algorithm. Information communication having an information acquisition function of receiving an information transmission signal including information of a provision target repeatedly transmitted for each of a plurality of regions at a predetermined timing and acquiring the information of the provision target, and other value-added functions A terminal,
An information transmission signal including function control information for controlling the value-added function that is repeatedly transmitted is received, the function control information included in the information transmission signal is obtained, and the function control information is obtained based on the function control information. An information communication terminal comprising control means for controlling a value-added function. The information communication terminal according to claim 8,
Having a terminal call signal receiving function of receiving a terminal call signal,
When receiving the terminal call signal to which the information transmission identification data indicating that the information transmission signal including the function control information is being transmitted is based on the information transmission identification data added to the terminal call signal. An information communication terminal, wherein the control unit is configured to receive an information transmission signal including the function control information. The information communication terminal according to claim 8 or 9,
The value-added function is a function of encrypting data by an encryption algorithm using an encryption key,
An information communication terminal, wherein the control of the value-added function is a control of exchanging at least one of the encryption key and the encryption algorithm. The information communication terminal according to claim 10,
An information communication terminal, wherein a plurality of at least one of the encryption key and the encryption algorithm are incorporated in advance.

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