JP4951384B2 - Non-contact IC card intervening communication method and apparatus - Google Patents

Description

  The present invention interposes a non-contact IC card having a translation function in communication between a non-contact IC (Integrated Circuit) card and a reader / writer device, and re-encrypts to enhance security and provide various services. The present invention relates to a non-contact IC card intervening communication method and apparatus.

  FIG. 4 is a block diagram showing a general configuration of a non-contact IC card. In the non-contact IC card in FIG. 4, the antenna 110 and the IC chip 120 are mounted on a single card (not shown) as is well known, and the card is packaged (not shown) from the front and back. It is composed. In the IC chip 120, a power supply circuit 121 that operates in response to a call from a reader / writer device (described later), a memory 122 that holds information unique to the card, and the like, and a predetermined operation by the operation of the power supply circuit 121 are performed. A CPU (Central Processing Unit) 123 that executes a call and a call of a predetermined radio frequency from the reader / writer device via the antenna 110, and information processed by the CPU 123 is read by the reader / writer via the antenna 110 at a predetermined radio frequency. Contains a high frequency circuit 124 for transmission to the device. As is well known, power is supplied to the power supply circuit 121 of the non-contact IC card from the reader / writer device by electromagnetic waves.

  FIG. 5 is a diagram showing functional blocks and information flow related to communication between a conventional non-contact IC card and a reader / writer device. 5, the non-contact IC card 130 includes, as functional blocks, a unique information holding unit 131 realized by the memory 122 shown in FIG. 4, an encryption unit / translation unit 132 realized by the CPU 123 shown in FIG. 4 has an RF transmission / reception unit 133 that is realized by the high-frequency circuit 124 shown in FIG. 4. On the other hand, the reader / writer device 140 is not shown as a functional block and as a pair configuration with the non-contact IC card shown in FIG. Includes an RF transmission / reception unit 143 realized by a high-frequency circuit, an encryption unit / translation unit 142 not shown, but realized by a CPU, and an information holding unit 141 not shown, realized by a memory. The reader / writer device 140 shown in FIG. 5 has a power supply circuit (not shown), and the non-contact IC card 130 has a power supply circuit (not shown) that is fed with electromagnetic waves from the reader / writer device 140. It is.

  In FIG. 5, the reader / writer device 140 always calls the non-contact IC card 130 via the antenna 144 and the information path (1). When the contactless IC card 130 receives a call from the reader / writer device 140 via the information path (1) via the antenna 134 and the RF transmission / reception unit 133, the non-contact IC card 130 responds via the information path (2). The response format is known ACK / NACK for this kind of call. If there is an ACK response from the non-contact IC card 130, the reader / writer device 140 encrypts and transmits information from the reader / writer device 140 by the encryption unit 142, and the non-contact IC card 130 supports reception of the information. Then, the information is encrypted by the encryption unit 132 and returned. In this way, information exchange (communication) is performed between them. Information exchanged here is performed by an encryption unit / translation unit 142 of the reader / writer device 140 and an encryption unit / translation unit 132 of the non-contact IC card 130, for example, a common encryption method. Encryption is performed based on the RSA (Rivest Shamir Adleman) encryption method, which is an encryption method, and the security of information is maintained.

Conventionally, when a plurality of, for example, two contactless IC cards are used for a reader / writer device, a communication connection with each contactless IC card is established within the processing time, and one contactless IC card is provided. Similarly, a technique for completing the communication connection process is known (see Patent Document 1).
JP 2000-276561 A

  In the above-described conventional security provision for communication between a non-contact IC card and a reader / writer device, the combination of the non-contact IC card and the reader / writer device is an opposite combination. There is a problem that cannot be expected, and a mechanism to improve security more easily was required.

  Therefore, the present invention interposes a non-contact IC card having a translation function in communication between the non-contact IC card and the reader / writer device, adds the third information from the intervening non-contact IC card, re-encrypts it, and performs security. It is an object of the present invention to provide a non-contact IC card intervening communication method and apparatus capable of enhancing the service and various services.

  The communication method of the present invention includes a process of interposing a non-contact IC card with a translation function between a non-contact IC card and a reader / writer device in order to establish communication related to a specific service, and the non-contact IC card with a translation function. A process of translating information encrypted by the contactless IC card, a process of adding third information to information translated by the contactless IC card with translation function, and a process of adding the third information to the contactless IC card with translation function. The process of re-encrypting the information to which the information of 3 is added, the process of transmitting the re-encrypted information from the contactless IC card with a translation function to the reader / writer apparatus, and the transmission in the reader / writer apparatus Receiving and translating received information.

The communication device of the present invention is a non-contact IC card intervening communication device that establishes communication related to a specific service by interposing a non-contact IC card with a translation function between the non-contact IC card and the reader / writer device. The contact IC card has translation means for translating information encrypted by the first encryption method, and information sending means for sending information encrypted by the first encryption method,
The reader / writer device has information sending means for sending information encrypted by the first encryption method, and information receiving means for receiving information encrypted by the second encryption method,
The contactless IC card with a translation function includes a translation means for translating information encrypted by the first encryption method from the contactless IC card, and adding third information to the information translated by the translation means. Re-encrypting means for re-encrypting using the second encryption method,
The non-contact IC card with a translation function is positioned so as to overlap under the non-contact IC card, relays information from the non-contact IC card, re-encrypts it, transmits it to the reader / writer device, and sends it to the specific service. Such communication is established.

  The present invention interposes a non-contact IC card having a translation function in communication between the non-contact IC card and the reader / writer device, adds the third information from the non-contact IC card with a translation function, re-encrypts the reader Sending to a writer device, and strengthening security and various services by establishing communication related to a specific service only after the three parties of the contactless IC card with translation function, reader / writer device, and contactless IC card cooperate. Has the effect of being able to.

Embodiments according to the present invention will be described below with reference to the drawings.
[Embodiment 1]
FIG. 1 is a diagram illustrating functional blocks and an information flow of the non-contact IC card intervening communication apparatus according to the first embodiment. In FIG. 1, a non-contact IC card 30 is a functional block that includes a unique information holding unit 31 realized by the memory 122 shown in FIG. 4 and a CPU 123 shown in FIG. Rivest Shamir Adleman (encryption method) encryption / translation based on the first encryption unit / first translation unit 32 and RF (Radio Frequency) transmission / reception unit realized by the high-frequency circuit 124 shown in FIG. On the other hand, the reader / writer device 40 is not shown as a functional block of the non-contact IC card shown in FIG. 4 as a functional block, but an RF transmission / reception unit 43 implemented by a high-frequency circuit, a CPU And encryption is executed based on a first encryption method (for example, RSA encryption method), and translation is performed using a second encryption method (for example, RSA encryption method) that is different from the first encryption method (RSA encryption method). Elliptic curve encryption method ) By the first encryption unit for translating the encrypted information / second translating unit 42 and has information holding unit 41 which is realized by a memory. Further, when it is placed between the non-contact IC card 30 and the reader / writer device 40 and superimposed under the non-contact IC card 30, the information from the non-contact IC card 30 is relayed and encrypted again to the reader / writer device 40. The non-contact IC card 20 with a translation function to be transmitted is a functional block that is realized by the RF transmission / reception units 22 and 26 realized by the high-frequency circuit 124 shown in FIG. 4 and the CPU 123 shown in FIG. A first translation unit 23 that translates encrypted information based on the encryption method (RSA encryption method), a unique information holding unit 24 that is realized by the memory 122 shown in FIG. 4, and a CPU 123 that is shown in FIG. Provided is a data generation unit (second encryption unit) 25 that performs encryption using a second encryption method (elliptic curve encryption method) that is realized and is different from the first encryption method (RSA encryption method). To have. The reader / writer device 40 shown in FIG. 1 has a power supply circuit (not shown), and the non-contact IC card 30 and the non-contact IC card 20 with a translation function are supplied with electromagnetic waves from the reader / writer device 40 (not shown). Power supply circuit.

  In FIG. 1, the reader / writer device 40 always calls the non-contact IC card 30 via the antenna 44 and the information path (1). When the contactless IC card 30 receives a call from the reader / writer device 40 via the information path (1) via the antenna 34 and the RF transmitter / receiver 33, the non-contact IC card 30 responds via the information path (2). The response format is known ACK / NACK for this kind of call. If there is an ACK response from the non-contact IC card 30, the reader / writer device 40 encrypts the information held in the information holding unit 41 from the reader / writer device 40 by the first encryption unit 42 using the first encryption method. To send. The non-contact IC card 30 translates this information by the first translation unit 32 to return the information to plaintext, and the unique information held in the unique information holding unit 31 in the information corresponding to the information, for example, ID (Identifier). In addition, the first encryption unit 32 encrypts the data using the first encryption method and sends it back. The reader / writer device 40 cannot directly receive information returned from the non-contact IC card 30. That is, the reader / writer device 40 is encrypted with a second encryption method (elliptic curve encryption method) different from the first encryption method (RSA encryption method) at the time of transmission when receiving the reply information. This is because the second translation unit 42 that translates the information is provided.

  The non-contact IC card 20 with a translation function is placed between the non-contact IC card 30 and the reader / writer device 40 so as to be superimposed under the non-contact IC card 30 so that the information from the non-contact IC card 30 is converted into an antenna. 34, received by the RF transmission / reception unit 22 of the non-contact IC card 20 with translation function via the information path (2) and the antenna 21, and translated by the first translation unit 23. The contactless IC card with translation function 20 adds unique information (for example, ID) held in the unique information holding unit 24 to the translated information, and the first encryption method in the contactless IC card 30 ( The data generation unit (second encryption unit) 25 executes encryption using a second encryption method (elliptic curve encryption method) different from the RSA encryption method. The information from the non-contact IC card 30 re-encrypted by adding the unique information (corresponding to the third information) of the non-contact IC card with translation function 20 is the RF transmission / reception unit of the non-contact IC card with translation function 20 26, the antenna 27, and the information path (3). In the above description, the antennas 21 and 27 and the RF transmission / reception units 22 and 26 are shown separately as different components in relation to the information flow. However, both hardware using the antenna 110 and the high-frequency circuit 124 shown in FIG. It is realized and does not necessarily mean that it is a plurality of hardware.

  The reader / writer device 40 receives the information that has been re-encrypted and transmitted via the information path (3) and the antenna 44 via the non-contact IC card 20 with a translation function by the RF transmission / reception unit 43 of the reader / writer device 40. This is translated by the second translation unit 42 of the reader / writer device 40 and returned to plain text. That is, the second translation unit 42 of the reader / writer device 40 performs encryption using a second encryption method (elliptic curve encryption method) different from the first encryption method (RSA encryption method) in the contactless IC card 30. Therefore, the exchange (communication) of information between the non-contact IC card 30 and the reader / writer device 40 can be realized through the non-contact IC card 20 with a translation function.

  In the above example, the case where the information transfer from the reader / writer device 40 to the contactless IC card 30 is directly sent via the information path (1) has been described. It is also possible to perform communication by interposing a non-contact IC card 20 with a function. In that case, the non-contact IC card 20 with a translation function is used for the re-encryption in the down direction in addition to the data generation unit (second encryption unit) 25 for the re-encryption in the upward direction toward the reader / writer device 40. Data generation unit (first encryption unit) (not shown).

  As an example of using the non-contact IC card according to the first embodiment, the non-contact IC card 30 possessed by many users encrypts information by a general-purpose encryption method (for example, RSA encryption method) and communicates. Done. Therefore, in order to provide a special service, the contactless IC card 20 with a translation function interposed between the contactless card IC 30 and the reader / writer device 40 is held only by an administrator who has been granted a special service. When providing a special service, the non-contact IC card 20 with translation function is interposed between the non-contact card IC 30 and the reader / writer device 40 in the presence of an administrator who has the non-contact IC card 20 with translation function. And an encryption method (for example, elliptical) different from the general-purpose encryption method (for example, RSA encryption method) by combining the information from the non-contact IC card 30 and the ID of the contactless IC card 20 with a translation function. The data is re-encrypted by the curve encryption method) and transferred to the reader / writer device 40. As a result, security can be easily strengthened, and various services can be achieved by changing the combination with the contactless IC card with translation function.

As described above, according to the non-contact IC card intervening communication device according to the first embodiment, at least the non-contact IC card and the reader / writer device are used to transfer information from the non-contact IC card to the reader / writer device. A non-contact IC card with a translation function is interposed, the third information is added from the non-contact IC card with a translation function, encryption is performed again, and a non-contact IC card with a translation function, a reader / writer device, and a non-contact IC card 3 As a result, it is only possible to establish communication related to a specific service, so that it is possible to easily enhance security and change the combination with a contactless IC card with a translation function to provide various services. .
[Embodiment 2]
FIG. 2 is a diagram illustrating functional blocks and an information flow of the non-contact IC card intervening communication apparatus according to the second embodiment. In FIG. 2, the non-contact IC card 30 includes, as functional blocks, a unique information holding unit 31 realized by the memory 122 shown in FIG. 4 and a first encryption method (for example, RSA) realized by the CPU 123 shown in FIG. A first encryption unit / first translation unit 32 for performing encryption / translation based on the encryption method) and an RF transmission / reception unit 33 realized by the high-frequency circuit 124 shown in FIG. The writer device 40 is not shown as a functional block paired with the non-contact IC card shown in FIG. 4, but is realized by an RF transmission / reception unit 43 and a CPU realized by a high-frequency circuit. The encryption is performed based on the second encryption method (for example, elliptic curve encryption method) different from the first encryption method (for example, RSA encryption method). Information The first encryption unit / second translation portion 42 RFID means and has information holding unit 41 which is realized by a memory. Further, when exchanging information (communication) between the non-contact IC card 30 and the reader / writer device 40, the non-contact IC card 20 with a translation function is juxtaposed with the non-contact IC card 30 so as to face the reader / writer device 40. The contactless IC card 20 with a translation function that receives information returned from the card 30 via the reader / writer device 40 and encrypts and transmits the received information to the reader / writer device 40 again to realize communication is provided as a functional block. The RF transmitter / receiver 26 realized by the high-frequency circuit 124 shown in FIG. 4 and the information encrypted by the CPU 123 shown in FIG. 4 and encrypted based on the first encryption method (for example, RSA encryption method) are translated. The first translation unit 23 to be executed, the unique information holding unit 24 realized by the memory 122 shown in FIG. 4, and the first encryption realized by the CPU 123 shown in FIG. A data generation unit (second encryption unit) 25 that performs encryption by a second encryption method (elliptic curve encryption) different from the encryption method (RSA encryption method). Although the reader / writer device 40 shown in FIG. 2 has a power supply circuit (not shown), the non-contact IC card 30 and the non-contact IC card 20 with a translation function are not shown in the figure but are supplied with electromagnetic waves from the reader / writer device 40. Power supply circuit.

  In FIG. 2, the reader / writer device 40 always calls the non-contact IC card 30 via the antenna 44 and the information path (1). When the contactless IC card 30 receives a call from the reader / writer device 40 via the information path (1) via the antenna 34 and the RF transmitter / receiver 33, the non-contact IC card 30 responds via the information path (2). The response format is known ACK / NACK for this kind of call. If there is an ACK response from the non-contact IC card 30, the reader / writer device 40 encrypts the information held in the information holding unit 41 from the reader / writer device 40 by the first encryption unit 42 using the first encryption method. To send. The non-contact IC card 30 translates this information by the first translation unit 32 to return the information to plaintext, and adds unique information held in the unique information holding unit 31 to the information corresponding to the information, for example, ID. The first encryption unit 32 replies after encrypting with the first encryption method. The reader / writer device 40 cannot directly receive information returned from the non-contact IC card 30. That is, the reader / writer device 40 is encrypted with a second encryption method (elliptic curve encryption method) different from the first encryption method (RSA encryption method) at the time of transmission when receiving the reply information. This is because the second translation unit 42 that translates the information is provided.

  When exchanging information (communication) between the non-contact IC card 30 and the reader / writer device 40, the non-contact IC card 20 with translation function is juxtaposed to the non-contact IC card 30 so as to face the reader / writer device 40, and The contact IC card 20 receives the information returned from the non-contact IC card 30 via the reader / writer device 40. That is, the reader / writer device 40 recognizes that no reply information can be obtained even after a predetermined time has passed from the non-contact IC card 30, and the information returned from the non-contact IC card 30 is transmitted to the antenna 44, the information path. (3) is transmitted to the non-contact IC card 20 with translation function, and the non-contact IC card 20 with translation function transmits the RF of the non-contact IC card 20 with translation function via the antenna 27 and the information path (3). The data is received by the transmission / reception unit 26, sent to the first translation unit 23, and translated by the first translation unit 23. The contactless IC card with translation function 20 adds unique information (for example, ID) held in the unique information holding unit 24 to the translated information, and the first encryption method in the contactless IC card 30 ( The data generation unit (second encryption unit) 25 executes encryption using a second encryption method (elliptic curve encryption method) different from the RSA encryption method. The information from the non-contact IC card 30 re-encrypted by adding the unique information (corresponding to the third information) of the non-contact IC card with translation function 20 is the RF transmission / reception unit of the non-contact IC card with translation function 20 26, the antenna 27, and the information path (4), the data is transmitted to the reader / writer device 40.

The reader / writer device 40 receives the information transmitted again through the information path (4) and the antenna 44 via the non-contact IC card 20 with a translation function and received by the RF transmission / reception unit 43 of the reader / writer device 40. This is translated by the second translation unit 42 of the reader / writer device 40 and returned to plain text. The second translation unit 42 of the reader / writer device 40 is encrypted with a second encryption method (elliptic curve encryption method) different from the first encryption method (RSA encryption method) in the contactless IC card 30. Only the information is translated, so that the exchange (communication) of information between the non-contact IC card 30 and the reader / writer device 40 can be realized by the intervention of the non-contact IC card 20 with a translation function.

  As an example of using the non-contact IC card according to the second embodiment, the non-contact IC card 30 possessed by many users can communicate by encrypting information using a general-purpose encryption method (for example, RSA encryption method). Done. Therefore, in order to provide a special service, the non-contact IC card 20 with a translation function that juxtaposes the non-contact IC card 20 with a translation function on the non-contact IC card 30 facing the reader / writer device 40 is, for example, a special service. Only authorized administrators have it. Then, when providing a special service, the non-contact IC card 20 with translation function is turned into the non-contact IC card 30 facing the reader / writer device 40 in the presence of an administrator having the non-contact IC card 20 with translation function. An encryption method (for example, an RSA encryption method) that is juxtaposed and combined with information from the non-contact IC card 30 and the ID of the non-contact IC card 20 with a translation function is different from the general-purpose encryption method (RSA encryption method). The data is re-encrypted by an elliptic curve encryption method) and transferred to the reader / writer device 40. As a result, security can be easily strengthened, and various services can be achieved by changing the combination with the contactless IC card with translation function.

As described above, according to the non-contact IC card intervening communication apparatus according to the second embodiment, translation is performed facing the reader / writer apparatus 40 when exchanging (communication) information between the non-contact IC card and the reader / writer apparatus. The contactless IC card with a function is juxtaposed to the contactless IC card, and the contactless IC card with a translation function receives information returned from the contactless IC card via a reader / writer device, It is easy to add the information of 3 and re-encrypt it, and the communication related to the specific service is realized only by the cooperation of the contactless IC card with translation function, reader / writer device, and contactless IC card. In addition, security can be strengthened and various services can be provided by changing the combination with a contactless IC card with a translation function.
[Embodiment 3]
FIG. 3 is a diagram showing functional blocks and an information flow of the non-contact IC card intervening communication apparatus according to the third embodiment. In FIG. 3, the first non-contact IC card 30 includes, as functional blocks, a unique information holding unit 31 realized by the memory 122 shown in FIG. 4 and a first encryption method (realized by the CPU 123 shown in FIG. For example, the first encryption unit / first translation unit 32 that performs encryption / translation based on the RSA encryption method), and the RF transmission / reception unit 33 realized by the high-frequency circuit 124 illustrated in FIG. On the other hand, the reader / writer device 50 is not shown in the figure as a functional block paired with the non-contact IC card, but is realized by an RF transmission / reception unit 53 realized by a high-frequency circuit and a CPU. Is executed based on a first encryption method (for example, RSA encryption method), and translation is performed by a first encryption unit / second device that translates information encrypted by the first encryption method (RSA encryption method). 1 translation unit 52 and memory It has information holding unit 51 which is realized by re. Further, the second non-contact IC card 60 includes, as function blocks, a unique information holding unit 61 realized by the memory 122 shown in FIG. 4 and a CPU 123 shown in FIG. It is executed based on a second encryption method (for example, elliptic curve encryption method) different from (RSA encryption method), and translation is performed by using information encrypted by the first encryption method (RSA encryption method). It has the 2nd encryption part / 1st translation part 62 to translate, and RF transmission / reception part 63 implement | achieved by the high frequency circuit 124 shown in FIG. When it is placed between the second non-contact IC card 60 and the reader / writer device 50 and superimposed under the second non-contact IC card 60, the information from the second non-contact IC card 60 is relayed. The non-contact IC card 70 with a translation function, which is encrypted and transmitted again to the reader / writer device 50, has RF transmission / reception units 72 and 76 realized by the high-frequency circuit 124 shown in FIG. 4 as functional blocks, as shown in FIG. A second translation unit 73 that translates information that is realized by the CPU 123 and is encrypted by a second encryption method (for example, an elliptic curve encryption method) different from the first encryption method (RSA encryption method); The unique information holding unit 74 realized by the memory 122 shown in FIG. 4 and the first encryption method realized by the CPU 123 shown in FIG. 4 and different from the second encryption method (elliptic curve encryption method) (RSA encryption A data generation unit (first encryption unit) 75 for performing encryption by the encryption method. Although the reader / writer device 50 shown in FIG. 3 has a power supply circuit (not shown), the first non-contact IC card 30, the second non-contact IC card 60, and the non-contact IC card 70 with a translation function are shown. Although not provided, the reader / writer device 50 has a power supply circuit fed with electromagnetic waves.

  In FIG. 3, the reader / writer device 50 always calls the first contactless IC card 30 via the antenna 54 and the information path (1). When the first non-contact IC card 30 receives the call from the reader / writer device 50 via the information path (1) via the antenna 34 and the RF transmitter / receiver 33, the first non-contact IC card 30 responds via the information path (2). The response format is known ACK / NACK for this kind of call. If there is an ACK response from the first contactless IC card 30, the reader / writer device 50 uses the first encryption unit 52 to transfer the information held in the information holding unit 51 from the reader / writer device 50 to the first encryption method. Encrypted and sent. The first non-contact IC card 30 translates this information by the first translation unit 32 to return the information to plaintext, and the unique information held in the unique information holding unit 31 in the information corresponding to the information, such as an ID, for example. In addition, the first encryption unit 32 encrypts it using the first encryption method and sends it back. The reader / writer device 50 translates the information returned from the first non-contact IC card 30 by the first translation unit 52 to return the information to plain text, holds the information in the information holding unit 51, and stores the information held later. To process. In this manner, information exchange (communication) between the first non-contact IC card 30 and the reader / writer device 50 is performed in the same manner as shown in FIG.

  On the other hand, when information exchange (communication) is performed between the second non-contact IC card 60 and the reader / writer device 50, the reader / writer device 50 passes through the antenna 54 and the information path (3) and passes through the second non-contact IC card. Always call 60. When the second non-contact IC card 60 receives a call from the reader / writer device 50 via the information path (3) via the antenna 64 and the RF transmitter / receiver 63, the second non-contact IC card 60 responds via the information path (4). The response format is known ACK / NACK for this kind of call. If there is an ACK response from the second non-contact IC card 60, the reader / writer device 50 uses the first encryption unit 52 to transfer the information held in the information holding unit 51 from the reader / writer device 50 to the first encryption method. Encrypted and sent. The second non-contact IC card 60 translates this information by the first translating unit 62 to return the information to plaintext, and the unique information held in the unique information holding unit 61, such as an ID, is stored in the information corresponding to the information. In addition, the second encryption unit 62 that performs encryption by the second encryption method (elliptic curve encryption method) encrypts it and sends it back. The reader / writer device 50 cannot directly receive reply information encrypted by the second encryption method (elliptic curve encryption method) from the second non-contact IC card 60. That is, the reader / writer device 50 translates only the information encrypted by the first encryption method (RSA encryption method) different from the second encryption method (elliptic curve encryption method) when receiving information. This is because the first translation unit 52 is included.

The non-contact IC card 70 with a translation function is located between the second non-contact IC card 60 and the reader / writer device 50 and is placed under the second non-contact IC card 60 so as to overlap the second non-contact IC card. Information from the card 60 is received by the RF transmission / reception unit 72 of the contactless IC card 70 with a translation function via the antenna 64, the information path (4), and the antenna 71, and is translated by the second translation unit 73. The non-contact IC card 70 with a translation function adds unique information (for example, ID) held in the unique information holding unit 74 to the translated information, and the second encryption in the second non-contact IC card 60 The data generation unit (first encryption unit) 75 executes encryption using a first encryption method (RSA encryption method) different from the encryption method (elliptic curve encryption method). Information from the second non-contact IC card 60 re-encrypted by adding the unique information (corresponding to the third information) of the non-contact IC card with translation function 70 is stored in the non-contact IC card 70 with translation function. The signal is transmitted to the reader / writer device 50 through the RF transmitter / receiver 76, the antenna 77, and the information path (5). In the above description, the antennas 71 and 77 and the RF transmission / reception units 72 and 76 are shown separately as different components in relation to the information flow. However, both hardware using the antenna 110 and the high-frequency circuit 124 shown in FIG. It is realized and does not necessarily mean that it is a plurality of hardware.

  The reader / writer device 50 receives the information that has been re-encrypted and transmitted via the information path (5) and the antenna 54 via the non-contact IC card 70 with the translation function by the RF transmission / reception unit 53 of the reader / writer device 50. This is translated by the first translation unit 52 of the reader / writer device 50 and returned to plain text. That is, the first translation unit 52 of the reader / writer device 50 uses a first encryption method (RSA encryption method) different from the second encryption method (elliptic curve encryption method) in the second contactless IC card 60. ) Is used to translate only the encrypted information, and thereby exchange (communication) of information between the second non-contact IC card 60 and the reader / writer device 50 is performed through the non-contact IC card 70 with a translation function. Can be realized.

  In the above example, the information transfer from the reader / writer device 50 to the second contactless IC card 60 has been described as being sent directly via the information path (3). It is also possible to perform communication via a non-contact IC card 70 with a translation function for transfer. In that case, the non-contact IC card 70 with a translation function includes a first translation unit (not shown) for translation in the downward direction in addition to the second translation unit 73 for translation in the upward direction toward the reader / writer device 50. Will have.

  As an example of using the non-contact IC card according to the third embodiment, the first non-contact IC card 30 possessed by many users encrypts information using a general-purpose encryption method (for example, RSA encryption method). Communication. Accordingly, the second contactless IC card 60 is configured to encrypt information by an encryption method different from this (for example, elliptic curve encryption method), and to provide a special service, The non-contact IC card 70 with a translation function interposed between the non-contact IC card 60 and the reader / writer device 50 is held only by an administrator who has been granted a special service. When providing a special service, the non-contact IC card 70 with the translation function is transferred to the second non-contact IC card 60 and the reader / writer device 50 in the presence of an administrator who has the non-contact IC card 70 with the translation function. Between the second non-contact IC card 60 and the ID of the non-contact IC card 70 with a translation function in combination with the encryption method (elliptic curve encryption) in the second non-contact IC card 60 The information is re-encrypted by the above-mentioned general-purpose encryption method (RSA encryption method) different from the method) and transferred to the reader / writer device 50. As a result, security can be easily strengthened, and various services can be achieved by changing the combination with the contactless IC card with translation function.

  As described above, according to the non-contact IC card intervening communication device according to the third embodiment, a reader / writer device having versatility is installed, and communication with the first non-contact IC card is scheduled exclusively. A second non-contact IC card different from the first non-contact IC card by interposing a non-contact IC card with a translation function between the second non-contact IC card and the reader / writer device. In addition to enabling communication via a reader / writer device having versatility, the third information is added from the non-contact IC card with translation function and encrypted again, and the non-contact IC with translation function The communication between the card, reader / writer device, and the second contactless IC card is not possible until the communication related to the specific service is realized. By changing the combination of the ability with the non-contact IC card can be realized a variety of services.

It is a figure which shows the functional block and information flow of the non-contact IC card intervening communication apparatus which concern on 1st Embodiment. It is a figure which shows the functional block and information flow of the non-contact IC card intervening communication apparatus which concern on 2nd Embodiment. It is a figure which shows the functional block and information flow of a non-contact IC card intervening communication apparatus which concern on 3rd Embodiment. It is a block diagram which shows the general structure of a non-contact IC card. It is a figure which shows the functional block and information flow which concern on the communication between the conventional non-contact IC card and reader / writer apparatuses.

Explanation of symbols

20 Non-contact IC card with translation function 21, 27 Antenna 22, 26 RF transmission / reception unit 23 First translation unit 24 Unique information holding unit 25 Data generation unit (second encryption unit)
DESCRIPTION OF SYMBOLS 30 Non-contact IC card 31 Unique information holding part 32 1st encryption part / 1st translation part 33 RF transmission / reception part 34 Antenna 40 Reader / writer apparatus 41 Information holding part 42 1st encryption part / 2nd translation part 43 RF transmission / reception part 44 Antenna

Claims (6)

A process of interposing a non-contact IC card with a translation function between the non-contact IC card and the reader / writer device in order to establish communication related to a specific service;
A process of translating information encrypted by the contactless IC card in the contactless IC card with a translation function;
Adding third information to information translated in the contactless IC card with translation function;
Re-encrypting the information added with the third information in the contactless IC card with a translation function;
Transmitting the re-encrypted information from the contactless IC card with a translation function to the reader / writer device;
Receiving and translating the transmitted information in the reader / writer device;
A non-contact IC card intervening communication method including: A non-contact IC card intervening communication device that establishes communication related to a specific service by interposing a non-contact IC card with a translation function between the non-contact IC card and the reader / writer device,
The non-contact IC card is
Translation means for translating information encrypted by the first encryption method;
Information sending means for sending information encrypted by the first encryption method;
Have
The reader / writer device is
Information sending means for sending information encrypted by the first encryption method;
Information receiving means for receiving information encrypted by the second encryption method;
Have
The contactless IC card with a translation function is:
Translation means for translating the information encrypted by the first encryption method with the contactless IC card;
Re-encrypting means for adding third information to the information translated by the translating means and re-encrypting by the second encryption method;
Have
The non-contact IC card with a translation function is positioned so as to overlap under the non-contact IC card, relays information from the non-contact IC card, re-encrypts it, transmits it to the reader / writer device, and sends it to the specific service. A non-contact IC card intervening communication apparatus characterized by establishing such communication. A process of interposing a non-contact IC card with a translation function between the non-contact IC card and the reader / writer device in order to establish communication related to a specific service;
A process in which the reader / writer device receives information from the contactless IC card and detects information;
Transmitting the detected information from the reader / writer device to the contactless IC card with a translation function;
Receiving the information transmitted from the reader / writer device in the contactless IC card with a translation function, and translating the information encrypted by the contactless IC card;
Adding third information to information translated in the contactless IC card with translation function;
Re-encrypting the information added with the third information in the contactless IC card with a translation function;
Transmitting the re-encrypted information from the contactless IC card with a translation function to the reader / writer device;
Receiving and translating the transmitted information in the reader / writer device;
A non-contact IC card intervening communication method including: A non-contact IC card intervening communication device that establishes communication related to a specific service by interposing a non-contact IC card with a translation function between the non-contact IC card and the reader / writer device,
The non-contact IC card is
Translation means for translating information encrypted by the first encryption method;
Information sending means for sending information encrypted by the first encryption method;
Have
The reader / writer device is
Information sending means for sending information encrypted by the first encryption method;
Information re-sending means for detecting and re-sending information from the non-contact IC card;
Information receiving means for receiving information encrypted by the second encryption method;
Have
The contactless IC card with a translation function is:
Translation means for translating information from the non-contact IC card retransmitted from the reader / writer device;
Re-encrypting means for adding third information to the information translated by the translating means and re-encrypting by the second encryption method;
Have
The non-contact IC card with a translation function is juxtaposed to the non-contact IC card, relays information from the non-contact IC card, re-encrypts and transmits it to the reader / writer device, and establishes communication related to the specific service A non-contact IC card intervening communication apparatus characterized by the above. A process of executing communication between the first non-contact IC card and the reader / writer device without the intervention of a non-contact IC card with a translation function;
A process of interposing a non-contact IC card with a translation function between the second non-contact IC card and the reader / writer device in order to establish communication related to the specific service;
Translating information encrypted by the second contactless IC card in the contactless IC card with translation function;
Adding third information to information translated in the contactless IC card with translation function;
Re-encrypting the information added with the third information in the contactless IC card with a translation function;
Transmitting the re-encrypted information from the contactless IC card with a translation function to the reader / writer device;
Receiving and translating the transmitted information in the reader / writer device;
A non-contact IC card intervening communication method including: Communication between the first non-contact IC card and the reader / writer device is performed without interposition of the non-contact IC card with translation function, and the non-contact with translation function is performed between the second non-contact IC card and the reader / writer device. A non-contact IC card intervening communication device that establishes communication related to a specific service by interposing an IC card,
The first non-contact IC card is
Translation means for translating information encrypted by the first encryption method;
Information sending means for sending information encrypted by the first encryption method;
Have
The second non-contact IC card is
Translation means for translating information encrypted by the first encryption method;
Information sending means for sending information encrypted by the second encryption method;
Have
The reader / writer device is
Information sending means for sending information encrypted by the first encryption method;
Information receiving means for receiving information encrypted by the first encryption method;
Have
The contactless IC card with a translation function is:
Translation means for translating information encrypted by the second encryption method with the second contactless IC card;
Re-encrypting means for adding third information to the information translated by the translating means and re-encrypting by the first encryption method;
Have
The non-contact IC card with a translation function is positioned so as to overlap the second non-contact IC card, relays information from the second non-contact IC card, and re-encrypts it to the reader / writer device. A non-contact IC card intervening communication apparatus that transmits and establishes communication related to the specific service.