JP3684989B2 - POSITION INFORMATION SERVICE SYSTEM, POSITION INFORMATION USING METHOD IN POSITION INFORMATION SERVICE SYSTEM, SENDING TERMINAL, AND DECODER MODULE - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a location information service system for notifying a called terminal (or a receiving terminal) where a calling terminal (or calling terminal) such as a public telephone is installed, and in particular, guarantees the security of the location information service system. Regarding technology.
[0002]
[Prior art]
Conventionally, as a service for providing location information such as the address of the caller to the callee, a caller introduction service has been proposed for callees with special telephone numbers such as police / firefighting lines (Japanese Patent Laid-Open No. 08-204835). . In this service, location information is acquired at the center using the telephone number or terminal ID of the caller's calling terminal, and the location information is provided to the callee.
[0003]
Japanese Laid-Open Patent Publication No. 08-204841 discloses a public telephone location information system in which a caller notifies a partner of his / her current location using a public telephone, and the caller himself / herself can also obtain current location information. . In this system, a caller transmits a telephone number or identification code of a public telephone to a base station (center), and the base station searches for location information based on information transmitted from the caller and receives the search result as a receiving station. Send to. Specific examples of the position information include a location name and a map display.
[0004]
In addition, since the caller ID notification service started in recent years can be used, it is possible to know the caller's phone number even outside the exchange network, so the phone number and location information related to that phone number can be handled. It will be possible to provide the location information of the caller by constructing the attached database.
[0005]
On the other hand, in order to smoothly operate the location information service, it is considered that not only can the appropriate information desired by the user be provided, but also an appropriate charge for the service fee is generally required. Furthermore, in order to appropriately charge a service fee, information security technology such as improvement of confidentiality of information related to the service and prevention of falsification of information becomes important.
[0006]
As a billing method for a location information service in the prior art, for example, according to the invention described in Japanese Patent Laid-Open No. 10-326075, a destination guidance service such as a store around the public telephone using a digital public telephone corresponding to an IC card In this method, the call charge when dialing from the public telephone to the service center is settled from the IC card or cash.
[0007]
[Problems to be solved by the invention]
As can be seen from the above description of the prior art, when it is possible to know the terminal ID of the calling terminal of the caller, for example, the telephone number, by constructing a location information database using the telephone number as an index, the inside and outside of the exchange network Regardless of the location information, the location information regarding the location of the transmission terminal can be provided. However, the telephone number of the calling terminal is generally information that the callee cannot know unless the caller ID notification service is used. In fact, there are many subscriber terminals whose telephone numbers are not notified / disclosed. Exists. Further, in public telephones, the telephone number is not disclosed.
[0008]
Also, when a service provider builds a location information database using telephone numbers as an index, a subset of the service provider's location information database is built up by the service user storing phone number and location information pairs when using the service. Is possible. In that case, the service user can obtain the location information without receiving the service from the service provider for the same phone number that once used the service, and the service provider can obtain the location information from the service user. The usage fee cannot be charged properly.
[0009]
Therefore, an object of the present invention is to provide a location information service system that notifies the receiving terminal of the location of the transmitting terminal while maintaining the confidentiality of the telephone number of the transmitting terminal.
[0010]
Further, the present invention provides a location information providing service in which only a receiving terminal that is permitted to use a service by attaching an accessory device such as a decoder module can use the service so that the service user can be charged appropriately. The purpose is to provide a system.
[0011]
It is another object of the present invention to provide a system in which a receiving terminal can receive a location information service without making an inquiry to a service provider so that a communication load does not occur when the location information is used.
[0012]
Furthermore, an object of the present invention is to provide a system in which an unauthorized receiving terminal that has not signed a contract with a service provider cannot use the service illegally.
[0013]
Another object of the present invention is to provide a location information utilization method, a transmission terminal, and a decoder module in the location information service system.
[0014]
[Means for Solving the Problems]
In order to achieve the above object, according to the present invention, the location information is held in the origination terminal, and the ID (telephone number) of the origination terminal is not used outside the exchange network when obtaining location information. In addition, the recipient who receives the decoding service needs to attach the decoder module to the receiving terminal.
[0015]
Furthermore, according to the present invention, no special number is used as the receiving terminal. The position information is encrypted.
In addition, according to the present invention, the transmitting terminal has means for encrypting the position information using the position information and the encryption key, and the encryption key that is updated periodically (always when the contract expires) is provided. Using this, the location information is encrypted and transmitted to the decoder module attached to the receiving terminal. The decoder module has a decryption key that is automatically updated when the encryption key of the transmitting terminal is updated, and means for decrypting the encrypted position information using the decryption key, and receives the decrypted position information. Provide to the terminal.
[0016]
Further, the decoder module has a non-rewritable means (ROM) for holding the receiving terminal telephone number, and generates a key in which the receiving terminal telephone number is inserted when the key is updated. When a key including a number is generated and the position information is encrypted and transmitted, the decoder module can decrypt the position information to obtain the position information.
[0017]
FIG. 1 is a block diagram showing the first principle of the present invention. An incoming terminal 3 is directly connected to a switching network 7, and a decoder module 5 is connected to the incoming terminal 3. On the other hand, in the second principle configuration diagram of the present invention shown in FIG. 2, the calling terminal 1 and the receiving terminal 3 are connected via the exchange 7, and the decoder module 5 is connected to the receiving terminal 3 and the switching network 7. Connected between.
[0018]
The invention according to claim 1 is connected to the exchange network 7 via the exchange network 7. Is a fixed terminal In a location information service system that has a transmitting terminal 1 and a receiving terminal 3 and provides the receiving terminal 3 with location information representing the location of the transmitting terminal 1
Encrypting the location information using the encryption key and the identification information of the receiving terminal 3 at the transmitting terminal 1;
Transmitting the encrypted location information to the receiving terminal 3 via the switching network 7 at the transmitting terminal 1;
At the time of contract Attached to the receiving terminal 3 Collected at the end of the contract, A decoder module 5 that holds a decryption key corresponding to the encryption key and the identification information of the receiving terminal 3, and decrypts the encrypted position information received by the receiving terminal 3 using the decryption key. And the stage
Processing the decrypted location information at the receiving terminal 3;
The encryption key of the transmitting terminal 1 and the decryption key of the decoder module 5 are At contract renewal Receiving terminal updated synchronously and having the decoder module 5 attached thereto 3 Is a location information utilization method capable of utilizing the location information of the transmission terminal 1.
[0019]
In the invention according to claim 2, the step of encrypting the position information using the encryption key further comprises:
Creating a work key using the encryption key and the identification information of the receiving terminal 3;
Encrypting the location information using the work key,
The decryption key held in the decoder module 5 is updated using the updated encryption key and the identification information of the receiving terminal 3 to which the decoder module 5 is attached.
[0020]
The invention according to claim 3 is connected to the exchange network 7 via the exchange network 7. Is a fixed terminal A location information service system that has a transmission terminal 1 and a reception terminal 3 and provides the reception terminal 3 with location information indicating the location of the transmission terminal 1,
The calling terminal 1 encrypts the position information using the encryption key and the identification information of the receiving terminal 3, and
The above encryption key At contract renewal Means 14 for updating;
The encrypted location information is transferred to the switching network. 7 Via the above receiving terminal 3 Means 11 for transmitting to
At the time of contract It is attached to the receiving terminal 3 and Collected at the end of the contract, Means 53 for holding the encryption key and a decryption key corresponding to the identification information of the receiving terminal 3, and decrypting the encrypted location information received by the receiving terminal 3 using the decryption key Means 51 and the encryption key are updated At contract renewal A decoder module 5 comprising means 52 for updating the decryption key is provided;
The receiving terminal 3 has means 32 for processing the decoded location information,
This is a location information service system in which location information of the transmitting terminal 1 can be used in the receiving terminal 3 to which the decoder module 5 is attached.
[0021]
The invention according to claim 4 is connected to the exchange network 7 via the exchange network 7. Is a fixed terminal A method of using location information of a transmission terminal 1 in a location information service system that has a transmission terminal 1 and a reception terminal 3 and provides the reception terminal 3 with location information representing the location of the transmission terminal 1,
Encrypting the location information using an encryption key and identification information of the receiving terminal 3;
Transmitting the encrypted location information to the receiving terminal 3 via the exchange network 7;
At the time of contract Attached to the receiving terminal 3 Collected at the end of the contract, A decoder module 5 which holds a decryption key corresponding to the encryption key and the identification information of the receiving terminal 3, and decrypts the encrypted position information using the decryption key; At contract renewal And updating the encryption key.
[0022]
According to the invention of claim 5, the step of encrypting the position information using the encryption key includes
Creating a work key using the encryption key and the identification information of the receiving terminal 3;
Encrypting the location information using the work key,
The decryption key held in the decoder module 5 is updated using the updated encryption key and the identification information of the receiving terminal 3 to which the decoder module 5 is attached.
[0023]
The invention according to claim 6 is connected to the exchange network 7 via the exchange network 7. Is a fixed terminal In a location information service system that has a transmitting terminal 1 and a receiving terminal 3 and provides the receiving terminal 3 with location information representing the location of the transmitting terminal 1
Means 12 for encrypting the position information using an encryption key and identification information of the receiving terminal 3;
At the time of contract Attached to the receiving terminal 3 Collected at the end of the contract, Using the decryption key corresponding to the encryption key and the identification information of the receiving terminal 3, the decryption key is decrypted by the decoder module 5 that decrypts the encrypted location information received by the receiving terminal 3. Updated At contract renewal Means 14 for updating the encryption key;
A transmitting terminal having means 11 for transmitting the encrypted position information to the receiving terminal 3 via the switching network 7.
[0024]
According to the invention of claim 7, the encrypting means 12 is:
Means for creating a work key using the encryption key and the identification information of the receiving terminal;
Means for encrypting the position information using the work key.
[0025]
The invention according to claim 8 is connected to the exchange network 7 via the exchange network 7. Is a fixed terminal In a location information service system that has a sending terminal 1 and a receiving terminal 3 and provides the receiving terminal 3 with location information indicating the location of the sending terminal 1, a location information utilization program installed in the sending terminal 1 is stored. Recording medium,
Encrypting the location information using an encryption key and identification information of the receiving terminal 3;
At the time of contract It is attached to the receiving terminal 3 and Collected at the end of the contract, Using the decryption key corresponding to the encryption key and the identification information of the receiving terminal 3, the decryption key is decrypted by the decoder module 5 that decrypts the encrypted location information received by the receiving terminal 3. Updated At contract renewal A recording medium storing a location information use program that causes the transmitting terminal 1 to execute the step of updating the encryption key.
[0026]
According to the invention of claim 9, the encryption is performed. Step Is
Create a work key using the encryption key and the identification information of the receiving terminal 3 Step When,
Encrypt the location information using the work key Step Is executed by the transmitting terminal 1.
[0027]
The invention according to claim 10 is connected to the exchange network 7 via the exchange network 7. Is a fixed terminal In a location information service system that has a transmitting terminal 1 and a receiving terminal 3 and provides the receiving terminal 3 with location information indicating the location of the transmitting terminal 1, it is attached to the receiving terminal 3 at the time of contract. Collected at the end of the contract A method for using position information of the decoder module 5,
The encrypted location information encrypted by the transmitting terminal 1 using the encryption key and the identification information of the receiving terminal 3 and transmitted to the receiving terminal 3 via the switching network 7 is converted into the encryption key and the encryption key. Decrypting using the decryption key corresponding to the identification information of the receiving terminal 3;
The encryption key is updated at the transmitting terminal 1 At contract renewal, The position information utilization method further includes the step of updating the decryption key.
[0028]
According to the invention of claim 11, the decryption key includes the encryption key position information encrypted using the work key created using the encryption key and the identification information of the receiving terminal 3. It is updated using the updated encryption key and the identification information of the receiving terminal 3 so that it can be decrypted.
[0029]
According to the invention of claim 12, the exchange network 7 is connected via the exchange network 7. Is a fixed terminal In a location information service system that has a transmitting terminal 1 and a receiving terminal 3 and provides the receiving terminal 3 with location information representing the location of the transmitting terminal 1 At the time of contract Attached to the receiving terminal 3, Collected at the end of the contract A decoder module 5 comprising:
The encrypted location information encrypted by the transmitting terminal 1 using the encryption key and the identification information of the receiving terminal 3 and transmitted to the transmitting terminal 1 is used as the encryption key and the identification information of the receiving terminal 3. Means 51 for decryption using a corresponding decryption key;
Means 52 for holding the decryption key;
The encryption key is updated At contract renewal A decoder module having means 53 for updating the decryption key.
[0030]
According to the invention of claim 13, the means 53 for updating the decryption key includes the cipher encrypted using the work key created using the encryption key and the identification information of the receiving terminal 3. The decryption key is updated using the updated encryption key and the identification information of the receiving terminal 3 so that the decryption key position information can be decrypted.
[0031]
The invention according to claim 14 is connected to the exchange network 7 via the exchange network 7. Is a fixed terminal In a location information service system that has a transmitting terminal 1 and a receiving terminal 3 and provides the receiving terminal 3 with location information representing the location of the transmitting terminal 1 At the time of contract Attached to the receiving terminal 3 Collected at the end of the contract A recording medium storing a position information use program mounted on the decoder module 5,
The encrypted location information encrypted by the transmitting terminal 1 using the encryption key and the identification information of the receiving terminal 3 and transmitted to the transmitting terminal 1 is used as the encryption key and the identification information of the receiving terminal 3. Decrypting with a corresponding decryption key;
The encryption key is updated At contract renewal A recording medium storing a position information utilization program that causes the decoder module 5 to execute the step of updating the decryption key.
[0032]
According to the invention of claim 15, the decryption key is updated. Step The encrypted encryption key and the updated encryption key so that the encrypted key position information encrypted using the work key created using the identification information of the receiving terminal 3 can be decrypted. The decryption key is updated using the identification information of the receiving terminal 3.
[0033]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 3 is a diagram for explaining a process in which the transmitting terminal according to the first embodiment of the present invention updates a key and encrypts position information.
[0034]
First, when a predetermined update date and time arrives, the transmitting terminal updates the master key using the stored current master key (that is, before update) and the synchronization data representing the predetermined date and time. Then, an updated master key is generated. As an example of the master key update method, a random number is generated using the current master key and the current time as a seed, and the generated random number is used as the updated master key. Random numbers can be artificially generated by using one-way hash functions such as MD5 and SH as random number generation functions ("Introduction to Cryptography" by Eiji Okamoto, Kyoritsu Shuppan, Rivest, RL and Dusse, S. : The MD5 message-digest algorithm, Networking Group, INTERNET-draft, 1991). By using source data (current key, time, etc.) as input when creating a key, and using the output hash value as an updated master key, randomness of the master key is ensured and restoration of the source data is prevented. Therefore, forgery of the master key is prevented.
[0035]
Next, an encryption work key is generated by combining the master key and the identification information of the receiving terminal, for example, the telephone number of the receiving terminal using a function such as an exclusive OR. Therefore, the transmitting terminal generates a different work key for encryption for each receiving terminal.
[0036]
Finally, the transmitting terminal encrypts the position information using the encryption work key, and supplies the encrypted position information to the decoder module on the receiving terminal side.
FIG. 4 is an explanatory diagram of the key update and the decryption process of the encrypted position information in the decoder module according to the second embodiment of the present invention.
In the decoder module, the master key common to the transmitting terminal may be held in the decoder module, and the master key held in each of the transmitting terminal and the decoder module may be used while being updated synchronously. Preferably, the decoder module stores only a work key unique to the decoder module. Therefore, the decoder module reproduces the current (that is, before update) master key from the current work key at the beginning of the key update process. In order to reproduce the master key from the work key, an inverse operation of the operation of creating the work key from the master key is performed. Therefore, the reverse operation of the work key generation described above is executed with the telephone number of the receiving terminal to which the decoder module is attached and the current work key as inputs.
[0037]
Next, the decoder module generates an updated master key by the above-described method using the current master key and the synchronization data representing the same predetermined update date and time as the transmitting terminal side. Then, a decryption work key is generated using the updated master key and the incoming telephone number. This decryption work key is used as the current work key in the next update process.
[0038]
Finally, the decoder module that has received the encrypted position information from the transmitting terminal decrypts the encrypted position information using the decryption work key and uses it for further processing.
[0039]
FIG. 5 is a diagram generally showing key update and position information transmission processing according to the third embodiment of the present invention. The key update on the transmitting terminal side and the decoder module side described with reference to FIGS. A method and an encryption method are also shown.
[0040]
The decoder module attached to the receiving terminal holds the incoming telephone number in a format that cannot be changed to a storage medium such as a ROM. For this reason, the decoder module does not operate correctly in an environment other than a regular receiving terminal that has concluded a regular contract.
[0041]
As described above, in the embodiment of the present invention, the incoming telephone number is embedded in the decoder module, and the work key generated using the embedded incoming telephone number is generated using the incoming telephone number on the outgoing terminal side. If the work key does not match, a mechanism is provided that cannot be correctly decrypted by the decoder module. By combining this mechanism with a mechanism for periodically updating the master key (that is, the work key), it is possible to perform decryption only for incoming calls to the contracted receiving terminal. In addition, unauthorized use of the service is prevented by collecting the decoder module at the end of the contract.
[0042]
FIG. 6 is a system configuration diagram of a location information service system according to a fourth embodiment of the present invention. The system shown in FIG. 1 includes an exchange network 700 and a plurality of n transmission terminals 100 connected to the exchange network 700. ₁ , 100 ₂ ,. . . , 100 _n (In the following description, it may be generally expressed as a transmitting terminal 100), a receiving terminal 300, and a decoder module 500 attached to the receiving terminal 300.
[0043]
The transmitting terminal 100 conceals and holds the location information 130 and the master key 150 for encryption, and realizes a function as an ordinary telephone and an encryption unit 120 that encrypts the location information 130 at the time of outgoing. The communication unit 110 transmits the encrypted position information, and the key update unit 140 periodically updates the master key 150. For example, as illustrated in FIG. 5, the encryption unit 120 encrypts the location information 130 using the master key 150 and the telephone number of the receiving terminal. For example, as illustrated in FIG. 5, the key update unit 140 periodically updates the stored master key 150 in synchronization with the decoder module 500. Further, the transmission terminal 100 has a clock 141, and uses this clock 141 to measure the timing for updating the master key. Since the clock 141 is synchronized with the clock of the decoder module 500 described later, the key can be updated in synchronization with the decoder module.
In this example, the telephone exchange network 700 is a network having a function of transmitting information between users.
The receiving terminal 300 realizes a normal telephone function, decrypts the encrypted position information sent from the calling terminal 100 using the decoder module 500, and displays the obtained decrypted position information. . The communication unit 310 of the receiving terminal 300 performs a normal telephone function and transfers the encrypted position information to the decoder module driver 330 when receiving the encrypted position information. The decoder module driver 330 passes the encrypted position information received from the communication unit 310 to the decoder module, requests decryption, receives the decrypted position information from the decoder module 500, and displays the position information on the display, for example. In order to display the information, the decrypted position information is passed to the display means 320. The receiving terminal has a display unit 320 as one form of using the location information, and the display unit 320 displays the location information received from the decoder module 500.
[0044]
The decoder module 500 is hardware connected to the receiving terminal 300, and synchronizes with the decryption unit 510 that decrypts the encrypted position information received from the receiving terminal 300, and the update of the master key in the transmitting terminal 100. For example, as shown in FIG. 5, the key update unit 530 that periodically updates the work key 520 is included. The decoder module 500 is connected to the receiving terminal 300 by an arbitrary method such as RS-232C, USB, or IEEE1394. When receiving the encrypted position information as shown in FIG. 5, the decryption unit 510 decrypts the position information using the work key 520 and returns it to the receiving terminal 300. For example, according to the key update method shown in FIG. 5, the key update unit 530 stores the current work key before update and the user's non-rewritable form at regular intervals in synchronization with the transmission terminal 100. The work key is updated by using a random number generation function or the like from the incoming terminal telephone number. The clock 531 measures the timing for updating the work key, and is synchronized with the clock 141 of the transmission terminal 100.
[0045]
In a typical example, the calling terminal 100 is a telephone such as a public telephone, and the receiving terminal 300 is a personal computer.
[0046]
FIG. 7 is a sequence chart in the system of the fourth embodiment of the present invention. Hereinafter, the operation of the system will be described along the sequence chart.
[0047]
First, when a caller notifying location information dials the telephone number of the receiving terminal at the calling terminal (step 101), the encryption unit of the calling terminal encrypts the position information using the master key and the telephone number of the receiving terminal. (Step 102). The calling terminal calls the receiving terminal and transmits the encrypted position information (step 103). In the present embodiment, this encrypted location information can be transmitted by UUI [user / user / information] during setup using an ISDN line. If it is not an ISDN line, it is transmitted by modem signal, DTMF signal, out-channel (out-of-band) communication, etc. The call transmitted from the calling terminal arrives at the receiving terminal via the switching network (step 104).
[0048]
Upon receiving the encrypted position information, the receiving terminal transfers it to the decoder module (step 105). The decoder module that has received the encrypted position information decrypts the encrypted position information (step 106), and returns the decrypted position information to the receiving terminal (step 107). The receiving terminal displays the decoded position information in an appropriate format (step 108). Next, the incoming terminal receives the incoming call, the called party goes off-hook (step 109), and the incoming terminal returns a response signal to the exchange network (step 110). The exchange network that has received the response signal establishes a call connection between the calling terminal and the called terminal (step 111).
[0049]
Next, the case where the operation in each device of the system of the fourth embodiment of the present invention is constructed as a program will be described with reference to the flowcharts of FIGS.
[0050]
FIG. 8 is a flowchart of a program installed in the transmitting terminal according to the fifth embodiment of the present invention.
[0051]
Step 201) If it is off-hook by the user (sender), the process goes to Step 202, and if not, the process goes to Step 209).
[0052]
Step 202) The user inputs the telephone number of the receiving terminal.
[0053]
Step 203) Using the master key and the telephone number of the receiving terminal, the position information is encrypted by the method described above to generate encrypted position information.
[0054]
Step 204) A call is made to the receiving terminal, and the encrypted position information is transmitted. At this time, if it is ISDN, it is possible to transmit by UUI at the time of setup, and if it is not ISDN, it is transmitted by modem signal, DTMF signal, out-channel communication, or the like.
[0055]
Step 205) If the connection with the receiving terminal is successful, the process proceeds to step 206. If not, the process proceeds to step 211.
[0056]
Step 206) A call with the receiving terminal is started.
[0057]
Step 207) If a disconnection request is issued from the receiving terminal or from the terminal itself, or if it is on-hook, the process proceeds to Step 208.
[0058]
Step 208) Call disconnection processing is performed.
[0059]
Step 209) It is determined whether or not a predetermined update date and time for master key update has been reached. If the update date and time has been reached, the process proceeds to step 210; The predetermined update date / time needs to match the update date / time set in the decoder module.
[0060]
Step 210) Update the master key held by the calling terminal by the method described above.
[0061]
Step 211) If the connection with the receiving terminal fails, error processing is performed.
[0062]
FIG. 9 is a flowchart of the program installed in the receiving terminal of the sixth embodiment of the present invention.
[0063]
Step 301) If an incoming call is received via the exchange network, the process proceeds to Step 302. Otherwise, the process waits.
[0064]
Step 302) If position information is received, the process proceeds to step 303; otherwise, the process proceeds to step 306.
[0065]
Step 303) When the encrypted position information is received, the encrypted position information is extracted and acquired. When transmitted by UUI, the UUI in the Setup data is interpreted and the encrypted position information is acquired.
[0066]
Step 304) Transfer the encrypted position information to the decoder module, and obtain the position information decrypted by the decoder module.
[0067]
Step 305) The decoded position information is displayed on the display of the receiving terminal.
[0068]
Step 306) When there is an incoming call, a ring tone sounds.
[0069]
Step 307) It is determined whether or not the connection with the calling terminal is successful. If successful, the process proceeds to Step 308. If not, the process proceeds to Step 311.
[0070]
Step 308) A call with the calling terminal is started, and a response signal is returned to the calling terminal.
[0071]
Step 309) When a disconnection request from the calling terminal or the terminal itself or on-hook is made, the process proceeds to step 310, otherwise, on-hook is waited.
[0072]
Step 310) The call is disconnected.
[0073]
Step 311) If the connection with the calling terminal fails, predetermined error processing is performed.
[0074]
FIG. 10 is a flowchart of the program installed in the decoder module of the seventh embodiment of the present invention.
[0075]
Step 401) If the encrypted location information is received from the receiving terminal, the process proceeds to step 402. If not, the process proceeds to step 404.
[0076]
Step 402) Decrypt the encrypted position information using the work key and the receiving terminal telephone number.
[0077]
Step 403) The decoded position information is returned to the receiving terminal.
[0078]
Step 404) When the key update date and time for updating the work key is reached (for example, at 0:00 on the first day of every month), the process proceeds to Step 405. Otherwise, the process proceeds to Step 401.
[0079]
Step 405) Update the work key by the method described above.
[0080]
In the embodiments so far, the decoder module is connected to the downstream side of the receiving terminal when viewed from the transmitting terminal. For example, the decoder module is mounted on a personal computer. In the case of such a decoder module connection mode, when the receiving terminal passes the encrypted position information transmitted from the transmitting terminal to the decoder module, the position information as a decryption result is returned from the decoder module. On the other hand, the decoder module may be connected to the upstream side of the receiving terminal when viewed from the transmitting terminal like a terminal adapter, for example.
[0081]
FIG. 11 is a system configuration diagram of the eighth embodiment of the present invention, and the decoder module 500 is connected to the receiving terminal 300 in the form of a terminal adapter.
[0082]
In this embodiment, the calling terminal 100 and the telephone switching network 700 are the same as the calling terminal and the telephone switching network constituting the system of the fourth embodiment of the present invention shown in FIG. In the case of the eighth embodiment of the present invention, the receiving terminal 300 is a normal telephone provided with the communication unit 310, and selectively uses the location information notified from the decoder module for the location information processing unit 320. You may comprise.
[0083]
The decoder module 500 is connected to the telephone line on the upstream side and connected to the receiving terminal 300 on the downstream side. The connection between the decoder module 500 and the receiving terminal 300 is realized by, for example, an ordinary telephone interface. The decoder module 500 relays between the incoming terminal 300 and the telephone switching network 700 when the incoming terminal 300 makes a call and when the incoming call arrives. Further, when the communication module 540 receives the encrypted position information at the time of an incoming call from the transmission terminal 100, the decoder module 500 uses the work key 520 to decrypt the encrypted position information in the decryption section 510, and The position information utilization unit 550 displays position information. In the decoder module 500, the key update unit 530 periodically updates the work key 520 in synchronization with the transmission terminal.
[0084]
As described above, the communication unit 540 of the decoder module 500 has a telephone interface, relays the incoming terminal 300 and the telephone line network 70 when the incoming terminal 300 makes and receives calls, and encrypts when the incoming terminal 100 receives incoming calls. When the encrypted position information is received, the encrypted position information is passed to the decryption unit 510. The position information utilization unit 550 displays the position information received from the decryption unit 510 on a display or transmits it to an external device. When receiving the encrypted position information from the communication unit 540, the decryption unit 510 decrypts the position information using the work key, and passes the decrypted position information to the position information utilization unit 550. The key update unit 530 and the clock 531 are the same as the key update unit and the clock of the decoder module in the system of the fourth embodiment of the present invention described with reference to FIG.
[0085]
In the above description, the case where the clock of the transmitting terminal and the clock of the decoder module coincide is considered. However, if an error occurs between the clock of the transmitting terminal and the clock of the decoder module for some reason, it is possible that the decoder module cannot perform decoding.
[0086]
Therefore, in the ninth embodiment of the present invention shown in FIG. 12, a decoding correctness check mechanism for solving the problem due to clock error between the transmitting terminal and the decoder module (which cannot be decoded) will be described.
[0087]
In this embodiment, for a certain period after the key update, not only the updated new work key but also the old work key before the update is made available on the decoder module side. In this case, decryption is performed using both the old and new work keys at the time of decryption ((1) decryption and (2) decryption in FIG. 12), and verification is performed using the “decryption validity check method”. The decoding results are compared using the data ((4) comparison verification in FIG. 12), and the correctly decoded position information is transmitted ((5) position information transmission in FIG. 12).
[0088]
The decryption validity check method applied in the present embodiment is an appropriate method when the encrypted location information is decrypted by using the work key generated by using the stored incoming telephone number in the decoder module. This is a technique for verifying that the decoding is successful when the decoding is possible with a simple position information format.
[0089]
The success of decryption, that is, whether or not decryption was possible in an appropriate position information format is obtained by decryption using the verification data stored in the decoder module and the work key generated by the decoder module. The data is compared with the verification data, and the determination is made based on whether the verification data matches. In the eighth embodiment of the present invention, the validity of decryption is checked by using two kinds of verification data (verification data 1 and verification data) obtained by two kinds of decryption using the new work key and the old work key. For the data 2), the position information obtained by the decoding of which the correct verification data is obtained is selected and transmitted to the receiving terminal.
[0090]
Alternatively, a check code such as a check digit for the position information data is added to the position information data at the time of encryption, and if it matches the check code calculated from the position information decrypted at the time of decryption, it is considered that the decryption is successful.
[0091]
FIG. 13 shows an example of verification data incorporated in the encrypted position information for checking the validity of decryption according to the ninth embodiment of the present invention.
(A) of the figure shows the format of the position information frame, (B) shows an example of the definition of the type number, and (C) shows an example of the position information frame. The “number of types” is fixed-length data indicating the number of position information types included in the frame, and the “verification data” is fixed data or check code for decryption verification. The “number” is a number representing the type of position information, that is, fixed-length data, the “data length” is fixed-length data representing the number of octets in the data field, and the “data” is for each type. It is position information data and has a variable length.
[0092]
As mentioned above, although the typical Example of this invention was described, this invention is not limited to said Example, A various change and application are possible within a claim.
[0093]
【The invention's effect】
As described above, according to the present invention, since the location information is held in the calling terminal, the location information can be obtained at the receiving terminal during communication. Since the ID (telephone number) of the calling terminal is not used outside the exchange network when acquiring the location information, the ID (telephone number) of the calling terminal is concealed by both the caller and the callee. In addition, it is possible to reliably charge the recipient who receives the decryption service.
[0094]
Furthermore, according to the present invention, since the special number is not used as the receiving terminal, the receiving terminal is not limited. Since the position information is encrypted, falsification of the position information can be prevented.
In addition, according to the present invention, the transmitting terminal has means for encrypting the position information using the position information and the encryption key, and the encryption key that is updated periodically (always when the contract expires) is provided. Using this, the location information is encrypted and transmitted to the decoder module attached to the receiving terminal. The decoder module has a decryption key that is automatically updated when the encryption key of the transmitting terminal is updated, and means for decrypting the encrypted position information using the decryption key, and receives the decrypted position information. Provide to the terminal. Therefore, since the location center is not used, the communication cost at the time of decryption is reduced, and the communication cost does not occur at the time of key update.
[0095]
Further, the decoder module has a non-rewritable means (ROM) for holding the receiving terminal telephone number, and generates a key in which the receiving terminal telephone number is inserted when the key is updated. When a key including a number is generated and the position information is encrypted and transmitted, the decoder module can decrypt the position information to obtain the position information. As a result, decoding can be performed only for incoming calls to the contracted receiving terminal, the decoder module can be prevented from being diverted, and unauthorized use of the service can be prevented by collecting the decoder module at the end of the contract.
[Brief description of the drawings]
FIG. 1 is a first principle configuration diagram of the present invention.
FIG. 2 is a second principle configuration diagram of the present invention.
FIG. 3 is an explanatory diagram of a transmission terminal side encryption process according to the first embodiment of this invention.
FIG. 4 is an explanatory diagram of decoding processing on the decoder module side according to the second embodiment of this invention.
FIG. 5 is an explanatory diagram of key update and position information transmission according to a third embodiment of the present invention.
FIG. 6 is a system configuration diagram of a fourth embodiment of the present invention.
FIG. 7 is a sequence chart in the system of the fourth embodiment of the present invention.
FIG. 8 is a flowchart of a program installed in a transmitting terminal according to the fifth embodiment of the present invention.
FIG. 9 is a flowchart of a program installed in a receiving terminal according to the sixth embodiment of the present invention.
FIG. 10 is a flowchart of a program installed in a decoder module according to a seventh embodiment of the present invention.
FIG. 11 is a system configuration diagram of an eighth embodiment of the present invention.
FIG. 12 is an explanatory diagram of a decryption validity check according to a ninth embodiment of the present invention.
FIG. 13 shows an example of encrypted position information (for verification) according to the ninth embodiment of the present invention.
[Explanation of symbols]
1 Calling terminal
3 Incoming terminal
5 Decoder module
7 Exchange network
11 Transmission terminal communication means
12 Encryption means
13 Position information storage means
14 Encryption key update means
15 Encryption key storage means
31 Incoming terminal communication means
32 position information processing means
51 Decryption means
52 Decryption key storage means
53 Decryption key update means

Claims (15)

In a location information service system having a switching network and a calling terminal and a receiving terminal which are fixed terminals connected via the switching network, and providing the receiving terminal with location information indicating the location of the calling terminal,
Encrypting the location information using an encryption key and identification information of the receiving terminal at the originating terminal;
Transmitting the encrypted location information to the receiving terminal via the switching network at the transmitting terminal;
The encryption module received at the receiving terminal by a decoder module which is attached to the receiving terminal at the time of contract and is collected at the end of the contract and holds the decryption key corresponding to the identification information of the receiving terminal and the encryption key Decrypting the generated location information using the decryption key;
Processing the decrypted location information at the receiving terminal;
Location information that allows the encryption key of the transmission terminal and the decryption key of the decoder module to be updated in synchronization with contract renewal, and allows the location information of the transmission terminal to be used at the reception terminal to which the decoder module is attached How to Use. The step of encrypting location information using the encryption key is as follows:
Creating a work key using the encryption key and the identification information of the receiving terminal;
Encrypting the location information using the work key,
2. The location information utilization method according to claim 1, wherein the decryption key held in the decoder module is updated using the updated encryption key and identification information of the receiving terminal to which the decoder module is attached. . A location information service system that has a switching network and a transmitting terminal and a receiving terminal that are fixed terminals connected via the switching network, and provides location information indicating the location of the transmitting terminal to the receiving terminal. And
The source terminal encrypts the location information using an encryption key and identification information of the destination terminal;
Means for updating the encryption key upon contract renewal ;
Means for transmitting the encrypted location information to the receiving terminal via the switching network,
Means for holding the encryption key and a decryption key corresponding to the identification information of the receiving terminal, which is attached to the receiving terminal at the time of contracting and collected at the end of the contract, and the encrypted position received by the receiving terminal There is provided a decoder module comprising means for decrypting information using the decryption key, and means for updating the decryption key upon contract renewal when the encryption key is updated,
The receiving terminal has means for processing the decoded location information;
A location information service system capable of using location information of the calling terminal at the receiving terminal to which the decoder module is attached. Transmission in a location information service system having a switching network and a transmitting terminal and a receiving terminal, which are fixed terminals, connected via the switching network, and providing location information indicating the location of the transmitting terminal to the receiving terminal A method for using location information of a terminal,
Encrypting the location information using an encryption key and identification information of the receiving terminal;
Transmitting the encrypted location information to the receiving terminal via the switching network;
Attached to the receiving terminal at the time of contract , collected at the end of the contract , holds a decryption key corresponding to the identification information of the encryption key and the destination terminal, and uses the decryption key for the encrypted location information A position information utilization method comprising : a decoder module that decrypts the encryption key and updating the encryption key when the contract is renewed . The step of encrypting location information using the encryption key is as follows:
Creating a work key using the encryption key and the identification information of the receiving terminal;
Encrypting the location information using the work key,
5. The location information utilization method according to claim 4, wherein the decryption key held in the decoder module is updated using the updated encryption key and identification information of the receiving terminal to which the decoder module is attached. In a location information service system having a switching network and a calling terminal and a receiving terminal which are fixed terminals connected via the switching network, and providing the receiving terminal with location information indicating the location of the calling terminal,
Means for encrypting the location information using an encryption key and identification information of the receiving terminal;
The encrypted location information that is attached to the receiving terminal at the time of contracting , collected at the end of the contract, and received by the receiving terminal using the decryption key corresponding to the encryption key and the identification information of the receiving terminal Means for updating the encryption key at the time of contract renewal in which the decryption key is updated by a decoder module for decrypting
A transmitting terminal having means for transmitting the encrypted location information to the receiving terminal via the switching network. The above encryption means is:
Means for creating a work key using the encryption key and the identification information of the receiving terminal;
7. The transmitting terminal according to claim 6, further comprising means for encrypting the position information using the work key. In a location information service system having a switching network and a calling terminal and a receiving terminal which are fixed terminals connected via the switching network, and providing the receiving terminal with location information indicating the location of the calling terminal, A recording medium storing a location information utilization program installed in the transmission terminal,
Encrypting the location information using an encryption key and identification information of the receiving terminal;
The encrypted location information that is attached to the receiving terminal at the time of contracting , collected at the end of the contract, and received by the receiving terminal using the decryption key corresponding to the encryption key and the identification information of the receiving terminal A recording medium storing a location information utilization program that causes the transmitting terminal to execute the step of updating the encryption key when the contract is renewed by the decoder module for decrypting the decryption key. The step of encrypting
Creating a work key using the encryption key and the identification information of the receiving terminal;
9. A recording medium storing a location information use program according to claim 8, wherein the transmitting terminal executes the step of encrypting the location information using the work key. In a location information service system having a switching network and a calling terminal and a receiving terminal which are fixed terminals connected via the switching network, and providing the receiving terminal with location information indicating the location of the calling terminal, mounting et is the called terminal when the contract, a position information usage of decoder module that is recovered at the end of the contract,
The encrypted location information encrypted by the transmitting terminal using the encryption key and the identification information of the receiving terminal and transmitted to the receiving terminal via the switching network is used to identify the encryption key and the receiving terminal. Decrypting with a decryption key corresponding to the information,
A location information utilization method further comprising the step of updating the decryption key when renewing a contract in which the encryption key is updated at the transmitting terminal.   The decryption key is the updated encryption key so that the encrypted key position information encrypted using the work key created using the encryption key and the identification information of the receiving terminal can be decrypted. The location information utilization method according to claim 10, wherein the location information is updated by using an activation key and identification information of the receiving terminal. In a location information service system having a switching network and a calling terminal and a receiving terminal which are fixed terminals connected via the switching network, and providing the receiving terminal with location information indicating the location of the calling terminal, A decoder module attached to the receiving terminal at the time of contract and collected at the end of the contract ,
The encrypted position information encrypted by the transmitting terminal using the encryption key and the identification information of the receiving terminal and transmitted to the transmitting terminal is decrypted corresponding to the encryption key and the identification information of the receiving terminal. Means for decrypting with a key;
Means for holding the decryption key;
Means for updating the decryption key upon renewal of the contract in which the encryption key is updated.   The means for updating the decryption key is configured to decrypt the encryption key position information encrypted using the work key created using the encryption key and the identification information of the receiving terminal. 13. The decoder module according to claim 12, wherein the decryption key is updated using the updated encryption key and the identification information of the receiving terminal. In a location information service system having a switching network and a calling terminal and a receiving terminal which are fixed terminals connected via the switching network, and providing the receiving terminal with location information indicating the location of the calling terminal, A recording medium that stores a location information utilization program mounted on a decoder module that is attached to an incoming terminal at the time of contract and collected at the end of the contract ,
The encrypted position information encrypted by the transmitting terminal using the encryption key and the identification information of the receiving terminal and transmitted to the transmitting terminal is decrypted corresponding to the encryption key and the identification information of the receiving terminal. Decrypting with a key;
A recording medium storing a position information use program that causes the decoder module to execute the step of updating the decryption key when the contract is renewed in which the encryption key is updated.   The step of updating the decryption key includes the step of decrypting the encryption key position information encrypted using the work key created using the encryption key and the identification information of the receiving terminal. 15. A recording medium storing a location information utilization program according to claim 14, wherein the decryption key is updated using the updated encryption key and the identification information of the receiving terminal.

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