JP2005330777A - Writing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a writing device capable of easily registering information which an in-vehicle apparatus uses. <P>SOLUTION: Key information for unlocking a door lock and drive information used by a navigation device NV to search a root is stored to a non-contact C card key 3, and when the non-contact IC card key 3 is held up to a reader/writer RWI of an automobile 2, the reader/writer RWI reads out the key information and the drive information, the key information is transferred to an ECU 10, and the drive information is transferred to the navigation device NV. Accordingly, unlocking of the door lock of the automobile 2 and the transfer of the drive information to the navigation device NV can be processed by one operation, and as a result, the drive information used by the navigation device NV can be easily registered to the navigation device NV. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a writing device, an information processing device, a storage medium built-in device, and a vehicle, and is suitable for application when reading / writing information from / to a contactless IC card, for example.

  Generally, in an automobile, the opening and closing of the door and the starting of the engine are restricted by a key dedicated to the automobile. The user can open and close the door and start the engine by releasing these restrictions using a key dedicated to the automobile.

  In recent years, with the spread of non-contact IC (Integrated Circuit) cards, techniques for applying such non-contact IC cards as automobile keys have been proposed. For example, the user simply holds the non-contact IC card (hereinafter referred to as “non-contact IC card key”) that functions as a key of the car over, for example, a reader / writer provided near the door of the car. The door opening / closing restriction (door lock) can be easily released.

In addition, by writing user information (for example, user ID) for identifying the user in this non-contact IC card key, the car identifies the user based on the user ID, and the in-vehicle device matched to the user Setting (for example, setting of the volume of a car audio device) can also be performed (see, for example, Patent Document 1).
JP 2002-322842 A

  By the way, in order to perform the setting according to the user based on the user ID recorded in the non-contact IC card key, it is necessary to register the setting information corresponding to the setting for each user in the in-vehicle device in association with the user ID. There is. In order to change the setting, it is necessary to update the setting information registered in the in-vehicle device.

  In these cases, the user must perform, for example, work for registering setting information in the vehicle before driving.

  As described above, conventionally, there is a problem that the user needs to perform the work of registering information used by the in-vehicle device such as setting information in the in-vehicle device before driving, and the registration work is troublesome. It was.

  The present invention has been made in consideration of the above points, and intends to propose a writing device, an information processing device, a storage medium built-in device, and a vehicle that can easily register information used by in-vehicle devices. .

  In order to solve this problem, in the writing apparatus of the present invention, a communication unit that communicates with a storage medium built-in device having a first storage medium that is approaching, and a second storage medium that stores information that can be used by the in-vehicle device Authentication means for authenticating based on information received from the first storage medium via the communication means, and the first storage medium can be used by the first area for storing the vehicle control key information and the in-vehicle device. And a second area of the first storage medium that can be used by the in-vehicle device stored in the second storage medium according to the authentication result by the authentication means. And writing means for transmitting the write request information for requesting writing to the terminal via the communication means.

  In the information processing apparatus and the vehicle according to the present invention, the communication unit that communicates with the approaching storage medium built-in device, the authentication unit that authenticates based on the information received from the storage medium built-in device via the communication unit, and the authentication by the authentication unit Depending on the result, user information stored in the storage medium in the storage medium built-in device, vehicle control key information including at least key information for releasing the vehicle door lock, and information usable by the in-vehicle device are read out. The reading means, the user information read by the reading means and the vehicle control key information are transferred to the vehicle control means for controlling the operation of the vehicle, and the information usable by the in-vehicle device is controlled by the vehicle control means and the in-vehicle device. Transfer means for transferring to at least one of the in-vehicle device control means is provided.

  Further, in the storage medium built-in device of the present invention, the first service area for storing the vehicle control key information, the first service area identification code for identifying the first service area, and the first A first service definition area for storing the authentication code and managing the first service area; a second service area for storing information usable by the in-vehicle device; and the second service area. A storage medium storing a second service area identification code for identification and a second authentication code, and a second service definition area for managing the second service area, and a non-contact with an external device A communication means for performing communication, an authentication means for authenticating based on data received from the external device via the communication means and the second authentication code, and an external device based on an authentication result by the authentication means Depending on the data write request to the second service area received Ri, it was provided a writing means for writing the information available by vehicle apparatus in the second service region.

  Thus, the vehicle control key information including the key information for releasing the vehicle door lock is stored in the first service area of the storage medium built-in device, and the information that can be used by the in-vehicle device in the second service area. The information processing device reads the vehicle control key information and information that can be used by the in-vehicle device, transfers the vehicle control key information to the vehicle control means, and transmits the information that can be used by the in-vehicle device. By transferring to the device control means, it is possible to process the release of the door lock of the vehicle and the transfer of information usable by the in-vehicle device in one operation.

  According to the present invention, the vehicle control key information including the key information for releasing the vehicle door lock is stored in the first service area of the storage medium built-in device, and is used by the in-vehicle device in the second service area. Information is stored, and the information processing device reads the vehicle control key information and the information that can be used by the in-vehicle device, transfers the vehicle control key information to the vehicle control means, and can be used by the in-vehicle device. By transferring the information to the in-vehicle device control means, it is possible to process the release of the vehicle door lock and the transfer of information that can be used by the in-vehicle device in one operation, and thus the in-vehicle device uses it. Information can be easily registered.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

(1) First Embodiment (1-1) Contactless IC Card Key System In FIG. 1, reference numeral 1 denotes a contactless IC card key system as a whole, which includes a navigation device NV having a car navigation function and a content playback function. The mounted vehicle 2, vehicle control key information (hereinafter also simply referred to as key information) permitting the release of the door lock and the engine starting in the vehicle 2, and usage information (described later) used in the navigation device NV A non-contact IC card key 3 in which drive information, license information, etc.) are written, a personal computer PC for writing usage information to the non-contact IC card key 3, and a server SV connected to a network NT such as the Internet. It consists of.

  The automobile 2 has a reader / writer RW (RW1 to RW3) for non-contact communication with a non-contact IC card inside each door (near the door knob) or near the driver's seat. The RW (RW1 to RW3) reads key information, usage information, and the like from the non-contact IC card key 3 held over the reader / writer RW (RW1 to RW3).

  Then, when the key information read from the non-contact IC card key 3 matches the key information held by the automobile 2, the automobile 2 permits the unlocking of the door, the start of the engine, etc., and uses the usage information. The data is sent to the navigation device NV.

  When the navigation device NV receives the usage information, for example, based on the usage information, the navigation device NV executes a route search or downloads the content data from the server SV that distributes the content data.

(1-2) Configuration of the Vehicle (1-2-1) Circuit Configuration of the Vehicle Next, the circuit configuration of the electric control system in the vehicle 2 will be described with reference to FIG. For the ECU 10 that comprehensively controls the electric circuit inside the automobile, the reader / writers RW1 and RW2 provided inside each door (near the doorknob) and the reader / writer RW3 provided near the driver's seat. And are connected. Thus, the ECU 10 can communicate with the non-contact IC card key 3 held over the reader / writer RW (RW1 to RW3) via the reader / writer RW (RW1 to RW3).

  The ECU 10 is provided with a communication unit 11 for communicating with the navigation device NV wirelessly or by wire. As a result, the ECU 10 can exchange a power on / off switching command and usage information for the navigation device NV via the communication unit 11.

  Furthermore, for this ECU 10, a characteristic adjusting unit 12 for adjusting the position of the driver seat, a steering lock unit 13 for controlling the steering lock, a fuel supply to the engine, and an ignition operation are controlled. The immobilizer unit 14, the door lock unit 15 for controlling the door lock, the trunk lock unit 16 for controlling the trunk lock, the dashboard lock unit 17 for limiting the dashboard lock, and the like are connected. .

  Further, an operation detection unit 18 for detecting an operation on the ignition switch, a courtesy switch 19 for detecting opening / closing of a door, and a storage unit 20 such as a hard disk are connected to the ECU 10.

  As shown in FIG. 3, a database for storing owner information related to the owner (user) of the automobile 2, key related information related to key information, and the like is constructed in the storage unit 20.

  The owner information stored in this database includes information such as an owner ID (Identification) for identifying the owner, a password, a name and a license number, and the key related information includes each key information ( For example, “ABC”), permission operation for each key information (for example, door lock release or engine start operation), and non-contact IC card key 3 issued to the automobile 2 (for example, a master card key or spare) Information such as an issuance ID for identifying the card key) and operation restrictions (number of times, period, etc.) permitted by the key information set for each contactless IC card key 3 are included.

(1-2-2) Circuit Configuration of Navigation Device Next, a circuit configuration of the navigation device NV mounted on the automobile 2 will be described. As shown in FIG. 4, the navigation device NV includes a CPU (Central Processing Unit) 30 that stores a program stored in a ROM (Read Only Memory) 32 via a bus 31 and a RAM (Random Access Memory) from the storage unit 33. ) Various processes are executed in accordance with the program read in 34.

  Further, an input / output interface 35 is connected to the bus 31, and an operation unit 36 for operating the navigation device NV via the input / output interface 35, a display unit for displaying a current position and a route search result. 37, a voice output unit 38 for outputting voice and music, a storage unit 33 for storing map data and content data, a communication unit 39 for communicating with the ECU 10, communication with GPS satellites and wireless communication with a radio base station A wireless communication unit 40 for performing the operation and a drive 41 for reproducing a CD, a DVD or the like are connected.

  The navigation device NV according to the present embodiment has a content reproduction function for reproducing content data in addition to the navigation function.

  That is, when the navigation function is selected via the operation unit 36, the CPU 30 of the navigation device NV identifies the current position of the automobile 2 by communicating with the GPS satellite via the wireless communication unit 40, and maps the result into map data. When the content playback function is selected for this, for example, the music data stored in the storage unit 33 is read out and subjected to a predetermined decoding process, and the resulting audio signal A sound based on the above is output from the sound output unit 38.

  Further, the navigation device NV is configured to be able to wirelessly communicate with the wireless base station via the wireless communication unit 40, thereby connecting to the network NT via the wireless base station and the server SV on the network NT. The content data can be downloaded from and reproduced.

(1-2-3) Circuit Configuration of Reader / Writer Device Next, a circuit configuration of the reader / writer RW (RW1 to RW3) mounted on the automobile 2 will be described. As shown in FIG. 5, the reader / writer RW includes an IC 50, various circuit blocks (flash memory 51, modulation circuit 52, demodulation circuit 53, oscillator 54), and an antenna 55.

  In the IC 50, the control unit 56 that controls each part of the IC 50 in an integrated manner, the DPU (Data Processing Unit) 57 that performs data processing, the data to be transmitted to the non-contact IC card key 3 and the non-contact IC card key 3 An SPU (Signal Processing Unit) 58 that processes data, an SCC (Serial Communication Controller) 59 that communicates with the ECU 10, and a ROM unit 59 that stores information necessary for data processing in advance and data that is being processed A memory unit 61 composed of a RAM unit 60 for temporarily storing is connected via a bus. Also connected to this bus is a flash memory 51 for storing predetermined data.

  The DPU 57 outputs a command to be transmitted to the non-contact IC card key 3 to the SPU 58 and receives response data received from the non-contact IC card key 3 from the SPU 58.

  The SPU 58 performs predetermined processing (for example, BPSK (BiPhase Shift Keying) modulation (coding to Manchester code), etc.) on the command transmitted to the non-contact IC card key 3 and then outputs it to the modulation circuit 52. The response data transmitted by the non-contact IC card key 3 is received from the demodulation circuit 53, and predetermined processing is performed on the data.

  The modulation circuit 52 performs ASK (Amplitude Shift Keying) modulation on a carrier wave having a predetermined frequency (for example, 13.56 MHz) supplied from an oscillator (OSC) 54 with data supplied from the SPU 58, and generates a modulated wave. An electromagnetic wave is output to the non-contact IC card key 3 through the antenna 55. At this time, the modulation circuit 52 performs ASK modulation with a modulation degree less than 1, so that the maximum amplitude of the modulated wave does not become zero even when the data is at a low level. Has been made.

  The demodulating circuit 53 demodulates the modulated wave (ASK modulated wave) received from the non-contact IC card key 3 via the antenna 55 and outputs the demodulated data to the SPU 58.

  Further, the control unit 56 performs an authentication process (details will be described later) between the reader / writer RW and the non-contact IC card key 3 during communication with the non-contact IC card key 3, and the result and the like are transmitted via the SCC 59. To be transmitted to the ECU 10.

(1-3) Configuration of Non-Contact IC Card Key (1-3-1) Circuit Configuration of Non-Contact IC Card Key Next, the non-contact IC card key 3 will be described. As shown in FIG. 6, the non-contact IC card key 3 includes an IC 70, a capacitor 71, and an antenna 72, and the IC 70 receives a modulated wave transmitted from the reader / writer RW via the antenna 72. It is made to do. The capacitor 71 constitutes an LC circuit together with the antenna 72, and is tuned (resonated) with an electromagnetic wave having a predetermined frequency (carrier frequency).

  In the IC 70, the RF interface unit 73 detects and demodulates the modulated wave (ASK modulated wave) received via the antenna 72 by the ASK demodulator 74, and the demodulated data is transmitted to the BPSK demodulator circuit 75 and the PLL (Phase In addition to being output to the Locked Loop) unit 76, the voltage regulator 77 stabilizes the signal detected by the ASK demodulating unit 78 and supplies it to each circuit as a DC power source.

  Further, the RF interface unit 73 oscillates a signal having the same frequency as the data clock frequency by the oscillation circuit 79 and outputs the signal to the PLL unit 76.

  Further, in the RF interface unit 73, the load of the antenna 72 as the power source of the non-contact IC card key 3 is corresponded to the data supplied from the arithmetic unit 80 via the BPSK modulation circuit 81 in the ASK modulation unit 78. Receive via the antenna 72 by changing (for example, turning on / off a predetermined switching element corresponding to data and connecting a predetermined load in parallel to the antenna 72 only when the switching element is on) The modulated wave is ASK-modulated (when data is transmitted from the non-contact IC card key 3 (when data is transmitted to the non-contact IC card key 3), the reader / writer RW outputs the modulated wave. The modulation component is ASK-modulated by fluctuations in the load of the antenna 72), and its modulation component It is adapted to via an antenna 72 to transmit to the reader / writer RW (fluctuate terminal voltage of the reader / writer RW antenna 55).

  The PLL unit 76 generates a clock signal synchronized with the data from the data supplied from the ASK demodulation unit 74 and outputs the clock signal to the BPSK demodulation circuit 75 and the BPSK modulation circuit 81.

  When the data demodulated by the ASK demodulator 74 is BPSK modulated, the BPSK demodulator circuit 75 demodulates the data (decodes Manchester code) according to the clock signal supplied from the PLL unit 76 and demodulates the data. The data is output to the calculation unit 80.

  When the data supplied from the BPSK demodulator circuit 75 is encrypted, the arithmetic unit 80 decrypts the data with the encryption / decryption unit 82 and then processes the data with the sequencer 83. . If the data is not encrypted, the data supplied from the BPSK demodulation circuit 75 is directly supplied to the sequencer 83 without going through the encryption / decryption unit 82.

  The sequencer 83 performs processing corresponding to data as a command supplied thereto. That is, for example, the sequencer 83 performs writing and reading of data with respect to the EEPROM 84 and other necessary arithmetic processing for the data. Furthermore, the sequencer 83 performs control of access to the EEPROM 84 by performing authentication, management of the EEPROM 84, and the like.

  The parity calculation unit 85 of the calculation unit 80 calculates, for example, a Reed-Solomon code as the parity from the data stored in the EEPROM 84 or the data stored in the EEPROM 84.

  Further, the calculation unit 80 performs predetermined processing by the sequencer 83, and then outputs response data (data to be transmitted to the reader / writer RW) corresponding to the processing to the BPSK modulation circuit 81.

  The BPSK modulation circuit 81 BPSK modulates the data supplied from the calculation unit 80 and outputs the modulated data to the ASK modulation unit 78 of the RF interface unit 73.

  The ROM 86 stores a program for the sequencer 83 to perform processing and other necessary data. When the sequencer 83 performs processing, the RAM 87 temporarily stores data in the middle of the processing.

  An EEPROM (Electrically Erasable and Programmable ROM) 84 is a non-volatile memory that keeps storing data even after the non-contact IC card key 3 ends communication with the reader / writer RW and power supply is stopped. Has been made.

(1-3-2) Configuration of EEPROM Here, the configuration of the EEPROM 84 will be described. As shown in FIG. 7, the logical format of the EEPROM 84 is configured in units of blocks. For example, one block is configured by 16 bytes.

  Further, in the EEPROM 84, the logical address of the top block is # 0000h (h represents a hexadecimal number), and the logical addresses are assigned in ascending order. In the EEPROM 66, # 0000h to #FFFFh are assigned as logical addresses, and therefore 65536 (= 216) blocks are configured.

  The block is designed to be used as a user block or a system block. The blocks of the EEPROM 84 are assigned to user blocks in ascending order of logical addresses, and are assigned to system blocks in descending order of logical addresses. That is, user blocks increase downward and system blocks increase upward. When there are no more free blocks, user blocks and system blocks cannot be created. Therefore, the boundary between the user block and the system block is not fixed, and the number of user blocks or the number of system blocks is not particularly limited (in this embodiment, the user block and the system block Is limited to 65536 or less).

  There are five types of system blocks: manufacturing ID (Identification) block, issue ID block, system definition block, area definition block, and service definition block. In the present embodiment, an area definition block or a service definition block is indicated as an area / service definition block.

  Of the system blocks, the manufacturing ID block, the issued ID block, and the system definition block are basically already arranged when the non-contact IC card key 3 is issued. The logical addresses #FFFFh and #FFFEh , #FFFDh, respectively. The area / service definition blocks are arranged in the order of creation above the logical address #FFFCh.

  Information related to the manufacture of the non-contact IC card key 3 is arranged in the manufacture ID block. That is, for example, a unique manufacturing ID, a manufacturing date, a manufacturer's code, and the like are arranged in the manufacturing ID block.

  Information relating to the issuance of the non-contact IC card key 3 is arranged in the issue ID block. That is, in the issuance ID block, for example, a date when the non-contact IC card key 3 is issued, a code indicating the order of issuing the IC cards (that is, information unique to each non-contact IC card key 31), and the like are arranged. The

  In the system definition block, for example, the number of system blocks or user blocks included in the EEPROM 84, a system authentication key, and the like are arranged. The system authentication key is used when mutual authentication is performed between the non-contact IC card key 3 and the control unit 10 of the reader / writer RW.

  The area definition block is created, for example, by assigning a storage area (area) of the EEPROM 84 to the administrator, and information for managing the storage area assigned to the administrator is arranged there. Is done. That is, in the area definition block, for example, a code range, a free capacity, an area key, and the like which will be described later are arranged.

  In the service definition block, information (service area capacity, service key, etc.) for managing a service area to be described later is arranged.

  Next, the directory structure of the EEPROM 84 will be described. In the sequencer 83, the storage area of the EEPROM 84 is managed in a hierarchical manner. That is, as shown in FIG. 8, the storage area of the EEPROM 84 has a hierarchical structure with the area definition area as a hierarchy, and the area definition area can have an area definition area and a service definition area. .

  The area definition area is assigned to the administrator, and includes a code range that represents a range of identification codes that can be used by the administrator as a name for identifying the area definition area and the service definition area, and usable free blocks. A free space indicating the number, an area key used for authentication, and the like are arranged. Here, one area definition area corresponds to one area definition block described in FIG.

  In this embodiment, the area definition area assigned to the administrator A constitutes the highest hierarchy, and the area definition areas of the managers B1 and B2 are created using this as the parent hierarchy. Further, the area definition area of the manager C is created with the area definition area of the manager B1 as the parent hierarchy.

  The service definition area is assigned to a service provided by an administrator, and a capacity of a service area for storing data necessary for providing the service, a service key, and the like are arranged therein. Here, one service definition area corresponds to one service definition block described with reference to FIG.

  The service area is a storage area in which data necessary for providing the service is stored, and corresponds to the user block in FIG. That is, the service area is composed of zero or more user blocks, and the number of user blocks constituting the service area is arranged as the capacity of the service definition area for managing the service area.

  In the area definition area and the service definition area, identification codes for identifying them are also arranged. Here, each identification code for identifying an area definition area or a service definition area is hereinafter referred to as an area code or a service code as appropriate. Since the service code identifies a service definition area that manages a certain service area, it can be said that the service code is an identification code (service area identification code) that identifies the service area.

  In the present embodiment, the area definition area of the highest hierarchy is assigned to the administrator A. Then, 0000h to FFFFh are defined as the usable identification code range (code range), and “0123456789abcdef” is defined as the area key. Here, any identification code within the code range in the area definition area can be used as the area code of the area definition area. In the present embodiment, for example, the area definition area code The minimum value of the range is used as the area code. Accordingly, the area definition area in which the code range is 0000h to FFFFh, that is, the area definition area assigned to the administrator A is 0000h. Here, the area definition area of area code #xxxxh is hereinafter referred to as area definition area #xxxxh as appropriate.

  In the hierarchy of the area definition area # 0000h of the administrator A, a service definition area for the administrator A to provide a service is provided. 0008h of 0000h to FFFFh, which is the code range of area definition area # 0000h, is assigned to this service definition area as a service code. Here, the service definition area of service code #xxxxh is hereinafter referred to as service definition area #xxxxh as appropriate.

  The capacity of the service definition area # 0008h is 8. Therefore, the service area composed of 8 user blocks can be used. The service key of the service definition area # 0008h is “0101010101010101”.

  Further, the area definition area # 0000h of the manager A is provided with an area definition area # 0100h of the manager B1 and an area definition area # 1000h of the manager B2 as child hierarchies thereof. In addition, other area definition areas (not shown) are also provided in the hierarchy of the area definition area # 0000h, so that the number of blocks (free capacity) that can be used by the area definition area # 0000h is 37 blocks, for example. It has become.

  As the code range of the area definition area # 0100h of the administrator B1, 0100h to 03FFh among the code ranges of 0000h to FFFFh that are the code range of the area definition area # 0000h that is the parent hierarchy is assigned. Here, since the code range of the area definition area of the administrator B1 is 0100h to 03FFh, the minimum value 0100h is the area code of the area definition area of the administrator B1.

  The free space or area key of the area definition area # 0100h is 14 or “a0a0a0a0a0a0a0a0”, respectively.

  Further, the area definition area # 0100h of the manager B1 is provided with an area definition area # 0300h of the manager C as a child hierarchy. Then, as the code range of the area definition area # 0300h of the administrator C, 0300h to 03FFh is assigned among 0100h to 03FFh which is the code range of the area definition area # 0100h which is the parent hierarchy. Here, since the code range of the area definition area of the administrator C is 0300h to 03FFh, 0300h which is the minimum value is the area code of the area definition area of the administrator C.

  The free space or area key of the area definition area # 0300h is 0 or “b0b0b0b0b0b0b0b0”, respectively.

  In the hierarchy of the area definition area # 0300h of the administrator C, a service definition area for the administrator C to provide a service is provided. In this service definition area, 030Ch of 0300h to 03FFh, which is the code range of area definition area # 0300h, is assigned as a service code.

  The service definition area to which the service code 030Ch is assigned, that is, the service definition area # 030Ch has a capacity of 16, so that a service area composed of 16 user blocks can be used. Further, the service key of the service definition area # 030Ch is “0202020202020202”.

  Here, since the capacity of the service area managed by the service definition area # 030Ch is 16, and the service definition area # 030Ch itself uses one block as a service definition block, the service definition area # 030Ch exists. As a result, the number of blocks used is 17 (= 16 + 1) blocks. Further, the number of blocks that can be used by the area definition area # 0300h of the hierarchy to which the service definition area # 030Ch belongs is 0 block because the free capacity is 0. Furthermore, area definition area # 0300h itself uses one block as an area definition block. Accordingly, in the hierarchy of the area definition area # 0300h, the used blocks are 18 (= 17 + 1) blocks and the usable blocks are 0 blocks, so the area definition area which is the parent hierarchy (upper hierarchy) It can be seen that the number of blocks allocated from # 0100h is 18 (= 18 + 0) blocks.

  Further, regarding the hierarchy of the area definition area # 0100h, as described above, 18 blocks are used in the area definition area # 0300h that is a child hierarchy (lower hierarchy). Further, a block whose area definition area # 0100h itself is 1 is used as an area definition block. The free space in area definition area # 0100h is 14 as described above. Accordingly, in the hierarchy of the area definition area # 0100h, since 19 (= 18 + 1) blocks are used and 14 usable blocks are allocated, the area definition area # 0000h that is the parent hierarchy is assigned. It can be seen that the number of blocks is 33 (= 19 + 14) blocks.

  On the other hand, as the code range of the area definition area # 1000h of the administrator B2, 1000h to 1FFFh of the code range of 0000h to FFFFh which is the code range of the area definition area # 0000h that is the parent hierarchy is assigned. Here, since the code range of the area definition area of the administrator B2 is 1000h to 1FFFh, the minimum value 1000h is the area code of the area definition area of the administrator B2.

  The free space or area key of the area definition area # 1000h is 43 or “c0c0c0c0c0c0c0c0”, respectively.

  In the hierarchy of the area definition area # 1000h of the administrator B2, a service definition area for the administrator B2 to provide a service is provided. In this service definition area, 1022h out of 1000h to 1FFFh which is the code range of area definition area # 1000h is assigned as a service code.

  The capacity of the service definition area to which the service code 1022h is assigned, that is, the service definition area # 1022h is set to 4, so that the service area composed of 4 user blocks can be used. The service key of the service definition area # 1022h is “0303030303030303”.

  Here, since the capacity of the service area managed by the service definition area # 1022h is 4, and the service definition area # 1022h itself uses one block as the service definition block, the service definition area # 1022h exists. As a result, the number of blocks used is 5 (= 4 + 1) blocks. Further, the number of blocks that can be used by the area definition area # 1000h of the hierarchy to which the service definition area # 1022h belongs is 43 blocks because the free capacity is 43. Further, a block whose area definition area # 1000h itself is 1 is used as an area definition block. Accordingly, in the hierarchy of the area definition area # 1000h, the number of used blocks is 6 (= 5 + 1) blocks, and the number of usable blocks is 43. Therefore, the blocks allocated to the area definition area # 1000h are 49 blocks. It can be seen that (= 6 + 43) blocks.

  As described above, since the code range that is the range of identification codes that can be assigned to the area definition area to be managed is stored in the area definition area, the area definition area to be managed is defined as a child based on the code range. A hierarchical structure as shown in FIG. 8 can be defined in which a hierarchy is used and an area definition area that manages the area definition area is a parent hierarchy.

(1-4) Circuit Configuration of Personal Computer Next, the circuit configuration of the personal computer PC will be described. As shown in FIG. 9, in a personal computer PC, a CPU (Central Processing Unit) 100 has a program stored in a ROM (Read Only Memory) 102 via a bus 101 and a RAM (Random Access Memory) from the storage unit 103. ) Various processes are executed in accordance with the program read in 104.

  Also, an input / output interface 105 is connected to the bus 101. An operation unit 106 such as a keyboard and a mouse for operating the personal computer PC via the input / output interface 105, a display for displaying video, and An output unit 107 including a speaker for outputting sound, a storage unit 103 including a hard disk, a communication unit 108 communicating with a server SV or the like via a network NT such as the Internet, a drive 109 for reproducing a CD or a DVD, a reader / A writer RW4 is connected.

  The reader / writer RW4 has substantially the same configuration as that mounted on the automobile 2 described above. The only difference is that an SCC (Serial Communication Controller) 59 communicates with the CPU 100 via the input / output interface 105 and the bus 101 instead of the ECU 10.

  In the personal computer PC of the present embodiment, usage information (drive information, license information, etc., which will be described later) can be written to the non-contact IC card key 3 via the reader / writer RW4.

  That is, for example, when a command for writing drive information to the non-contact IC card key 3 is input via the operation unit 106, the CPU 100 of the personal computer PC inputs the drive information and the non-contact IC to the reader / writer RW4. Write request information for requesting writing of drive information to a predetermined area of the card key 3 is supplied. When the reader / writer RW4 receives the drive information and the write request information, the reader / writer RW4 performs a predetermined encryption process on the drive information and the write request information, and then transmits them to the non-contact IC card key 3. As a result, drive information is written in a predetermined area of the non-contact IC card key 3.

  The personal computer PC can also exchange various information with a server (for example, a server SV) on the network NT via the communication unit 108.

(1-5) Server Circuit Configuration Next, the circuit configuration of the server SV connected to the network NT will be described. As shown in FIG. 10, the server SV includes a CPU (Central Processing Unit) 120 that stores a program stored in a ROM (Read Only Memory) 122 via a bus 121 and a RAM (Random Access Memory) from the storage unit 123. Various processes are executed in accordance with the program read out in 124.

  Also, an input / output interface 125 is connected to the bus 121, and an operation unit 126 such as a keyboard and a mouse for operating the server SV via the input / output interface 125, a display for displaying video and audio A communication unit 128 that communicates with the personal computer PC or the navigation device NV of the automobile 2 via a network NT such as the Internet, an output unit 127 composed of a speaker or the like that outputs a signal, a CD or DVD, etc. A drive 129 for reproduction is connected.

  In the server SV of the present embodiment, user information (for example, user ID and password) of the user who owns the personal computer PC and the non-contact IC card key 3 and license information issued when the user purchases content. And content data corresponding to the license information are stored in the storage unit 123.

  When the CPU 120 of the server SV receives, for example, owner information (user information) and license information transmitted from the navigation device NV of the automobile 2 via the communication unit 128, the owner information and license information are authentic. If the corresponding content data is stored in the storage unit 123, the content data is read out and transmitted to the navigation device NV via the communication unit 128.

(1-6) Writing of drive information to non-contact IC card key Next, writing when the personal computer PC writes drive information to a predetermined area of the non-contact IC card key 3 via the reader / writer RW4. A processing procedure will be described.

  Note that the personal computer PC according to the present embodiment stores drive information indicating the destination (for example, “Kanagawa Aquarium”) registered by the user through a predetermined application in the storage unit 103 before the writing process. It is made to keep.

  Further, the predetermined area of the contactless IC card key 3 for writing the drive information is, for example, the first and second service areas below the area definition area of the administrator A as shown in the directory structure of FIG. Refers to the second service area. Therefore, the reader / writer RW4 needs an area key (for example, “0123456789abcdef”) for the area definition area and a service key (for example, “0404040404040404”) for the second service area, which are necessary when accessing the second service area. Are stored in advance in the flash memory 51 or the like. In the first service area, key information for permitting unlocking of the door of the automobile 2 and starting of the engine, etc., and owner information including an owner name and a password for identifying the owner of the automobile 2 are written. ing.

  Based on these considerations, the procedure of this writing process will be described in detail below along the sequence chart shown in FIG.

  For example, when a command for writing drive information to the non-contact IC card key 3 is input via the operation unit 106, the CPU 100 of the personal computer PC starts the writing process. When the writing process is started, the reader / writer RW4 of the personal computer PC executes a communication connection establishment process in order to enable communication between itself and the non-contact IC card key 3 in the subroutine SRT1.

  As shown in FIG. 13, in the communication connection establishment process of the subroutine SRT1, the reader / writer RW4 first repeats step SP10 at a predetermined time interval, thereby sending a response request signal for requesting a response to the antenna. It is repeatedly sent to the outside via 55.

  In such a state, when the user holds the non-contact IC card key 3 over the reader / writer RW4 of the personal computer PC, and as a result, the non-contact IC card key 3 receives a response request signal from the reader / writer RW4. At this time, the non-contact IC card key 3 sends a response signal corresponding to the response request signal to the reader / writer RW4 via the antenna 72 in step SP11.

  When the reader / writer RW4 receives the response signal from the non-contact IC card key 3, in step SP12, the area key “0123456789abcdef” in the area definition area and the service key “2” in the second service area are stored in the flash memory 51. [0404040404040404] or the like is used to execute mutual authentication processing based on the Triple-DES encryption algorithm or the like with the non-contact IC card key 3.

  As a result, when the mutual authentication process is completed normally, the reader / writer RW4 can send and receive information to and from the non-contact IC card key 3, and thereafter the information is written to the non-contact IC card key 3. In addition, read processing and the like can be executed.

  In this way, when the communication connection with the non-contact IC card key 3 is established by the communication connection establishment process, the reader / writer RW4 exits the subroutine SRT1 and proceeds to step SP13 (FIG. 12).

  In step SP13, the reader / writer RW4 sends connection completion information indicating that a communication connection has been established to the CPU 100 of the personal computer PC.

  When the CPU 100 of the personal computer PC receives the connection completion information from the reader / writer RW4, it reads out the drive information stored in the storage unit 103 in step SP14 and stores it in the second service area of the non-contact IC card key 3. Write request information for requesting writing of the drive information is generated and sent to the reader / writer RW4.

  When the reader / writer RW4 receives the drive information and the write request information from the CPU 100, in step SP15, the reader / writer RW4 performs a predetermined encryption process on the drive information and the write request information, and then converts them into a non-contact IC. Send to card key 3.

  When the non-contact IC card key 3 receives the encrypted drive information and the write request information transmitted from the reader / writer RW4 via the antenna 72, the non-contact IC card key 3 releases the encryption for them in step SP16. As a result, drive information and write request information are obtained, and the drive information is stored in the second service area in the EEPROM 84 based on the write request information.

  In this manner, in this writing processing procedure, the drive information stored in the personal computer PC is transferred to the non-contact IC card key 3 and written in the EEPROM 84.

(1-7) Transfer of Drive Information to Car Next, the car 2 reads the drive information from the non-contact IC card key 3 via the reader / writer RW1 provided near the doorknob, for example. A transfer process procedure for transferring drive information from the contact IC card key 3 to the automobile 2 will be described with reference to the sequence chart of FIG.

  In this transfer process, the reader / writer RW1 reads the key information and owner information written in the first service area of the contactless IC card key 3 and the drive information written in the second service area. Has been made. Therefore, the reader / writer RW1 needs the area key “0123456789abcdef” of the area definition area and the first service key of the first service definition area, which are necessary when accessing the first and second service areas (FIG. 11). “0101010101010101”, the second service key “0404040404040404” of the second service definition area, and the like are stored in advance in the flash memory 51 and the like.

  For example, key information (in this case, key information for unlocking the door), owner information, and drive information are provided to the reader / writer RW1 provided near the door knob in order for the owner to unlock the door of the automobile 2. When the written non-contact IC card key 3 is held over, the reader / writer RW1 proceeds to subroutine SRT1 (FIG. 13) and executes communication connection establishment processing.

  In this communication connection establishment process, the reader / writer RW1 and the non-contact IC card key 3 perform steps SP10 to SP12 in the same manner as described above.

  However, when the reader / writer RW1 accesses a plurality of service areas as in this case, the area key “0123456789abcdef”, the first service key “0101010101010101” and the second service key “0404040404040404” shown in FIG. Two keys are synthesized to generate one synthesized key, and mutual authentication processing (step SP12) is performed using this one synthesized key. As a result, the reader / writer RW1 and the non-contact IC card key 3 mutually authenticate each other separately using the area key “0123456789abcdef”, the first service key “0101010101010101”, and the second service key “0404040404040404”. The mutual authentication process can be executed at a higher speed than when processing is performed.

  If communication between the reader / writer RW1 and the non-contact IC card key 3 becomes possible as a result of this communication connection establishment process, the reader / writer RW1 proceeds to the next step SP20 (FIG. 14) at this time, and contactless Generates request information for requesting transmission of key information, owner information, and drive information stored in the IC card key 3, performs a predetermined encryption process on the request information, and then performs contactless Send to IC card key 3.

  When the contactless IC card key 3 receives the encrypted request information from the reader / writer RW1, the process proceeds to step SP21, where the encrypted request information is subjected to a predetermined process for decrypting the result. Request information is obtained, key information, owner information, and drive information are read from the EEPROM 84 based on the request information, subjected to predetermined encryption processing, and then transmitted to the reader / writer RW1. .

  When the reader / writer RW1 receives the encrypted key information, owner information, and drive information from the non-contact IC card key 3, the process proceeds to the next step SP22, and the encrypted key information, owner information, and drive information are processed. Then, a predetermined process for releasing the encryption is performed, and as a result, key information, owner information, and drive information are obtained and sent to the ECU 10.

  When the ECU 10 receives the key information, owner information, and drive information transferred from the non-contact IC card key 3 via the reader / writer RW1, the ECU 10 proceeds to step SP23, and the owner identified by the received owner information is It is determined whether or not the vehicle 2 is the owner. That is, the ECU 10 determines whether or not the owner information transferred from the non-contact IC card key 3 is the same as the owner information stored in the database (FIG. 3).

  If an affirmative result is obtained here, this means that the owner information transferred from the non-contact IC card key 3 indicates the owner of the automobile 2. At this time, the ECU 10 proceeds to step SP24.

  On the other hand, if a negative result is obtained in step SP23, this indicates that the owner information transferred from the non-contact IC card key 3 does not indicate the owner of the automobile 2, and at this time, the ECU 10 Moving to step SP25, a notification process for notifying the user that the door lock of the automobile 2 cannot be released is performed. In this notification process, a voice or a buzzer sound indicating that may be emitted from a speaker or the like provided in the automobile 2.

  In step SP24, the ECU 10 determines whether the key information transferred from the non-contact IC card key 3 is the same as the key information stored in the database.

  If an affirmative result is obtained here, this indicates that the key information transferred from the non-contact IC card key 3 is correct key information for releasing the door lock. At this time, the ECU 10 performs step SP26. Move on.

  On the other hand, if a negative result is obtained in step SP24, this indicates that the key information transferred from the non-contact IC card key 3 is not correct key information for releasing the door lock. The ECU 10 moves to step SP25 and performs the notification process described above.

  In step SP26, the ECU 10 sends the drive information transferred from the non-contact IC card key 3 to the navigation device NV, moves to step SP27, and releases the door lock.

  Upon receiving the drive information transmitted from the ECU 10, the navigation device NV registers the drive information in the storage unit 33 (FIG. 4) in step SP28, and recognizes the destination “Kanagawa Aquarium” based on this drive information. For example, a route search process from the current location to “Kanagawa Aquarium” is executed.

(1-8) Operation and Effect According to First Embodiment In the above configuration, the personal computer PC provides the drive information necessary for the navigation device NV of the automobile 2 to execute the route search, and the reader / writer RW4. Then, the information is written into the non-contact IC card key 3 in which key information for releasing the door lock of the automobile 2 is written.

  In this case, in the non-contact IC card key 3, key information is written in the first service area which is the storage area, and drive information is written in the second service area.

  Then, when the non-contact IC card key 3 is held over the reader / writer RW1 provided in the vicinity of the door knob, the automobile 2 reads the key information and the drive information from the non-contact IC card key 3 and reads the key information into the ECU 10 And the drive information is transferred to the navigation device NV.

  Then, the ECU 10 releases the door lock based on the key information, and the navigation device NV performs a route search based on the drive information.

  Thus, by simply holding the non-contact IC card key 3 over the reader / writer RW1 provided near the door knob of the automobile 2, the door lock can be released and the drive information can be transferred to the navigation device NV to execute a route search. .

  According to the above configuration, the key information for releasing the door lock of the automobile 2 is stored in the first service area of the non-contact IC card key 3, and the navigation device NV performs route search in the second service area. The drive information to be used is stored, and when the non-contact IC card key 3 is held over the reader / writer RW1 of the automobile 2, the reader / writer RW1 reads the key information and drive information and transfers the key information to the ECU 10. At the same time, the drive information is transferred to the navigation device NV. As a result, the release of the door lock of the automobile 2 and the transfer of drive information to the navigation device NV can be processed in one operation, and thus drive information used by the navigation device NV can be easily registered in the navigation device NV. Can

(2) Second Embodiment In the second embodiment, the configuration of the system, automobile, contactless IC card key, personal computer, and server is the same as that of the first embodiment described above. Description of these will be omitted.

  In this second embodiment, the personal computer PC executes a writing process in which license information that permits downloading of content stored in the server SV is written in the contactless IC card key 3 instead of drive information. It is made to do.

  When the contactless IC card key 3 is held over the reader / writer RW1 of the automobile 2, the automobile 2 reads the license information from the contactless IC card key 3 and transfers the license information to the navigation device NV. It is made to do.

(2-1) Writing of license information to the non-contact IC card key First, when the personal computer PC writes the license information to the second service area of the non-contact IC card key 3 via the reader / writer RW4. The procedure of the writing process will be described.

  Note that the personal computer PC according to the present embodiment, prior to this writing process, for example, license information (content ID for identifying content and server SV that is a content download destination) corresponding to the content purchased via the server SV. (Including Uniform Resource Locator) and the like) is stored in the storage unit 103 via a predetermined application.

  The server SV also provides user information including a user ID and a password for identifying the user (in this case, the owner of the car 2) and the provided content when the content is provided to the user of the personal computer PC. Is associated with license information (URL may not be included) and stored in the storage unit 123.

  Further, key information and owner information are written in the first service area of the non-contact IC card key 3 as in the first embodiment. In the present embodiment, since the user of the personal computer PC and the owner of the automobile 2 are the same, the user information and the owner information are the same.

  Based on these considerations, the procedure of the writing process will be described in detail below along the sequence chart shown in FIG.

  When the CPU 100 of the personal computer PC receives a command for writing license information to the non-contact IC card key 3 through the operation unit 106, for example, the CPU 100 starts the writing process. When the writing process is started, the reader / writer RW4 of the personal computer PC establishes a communication connection establishment process (first process) for enabling communication between itself and the non-contact IC card key 3 in the subroutine SRT1. The communication connection establishment process at the time of the writing process in the embodiment is executed).

  If communication between the reader / writer RW4 and the non-contact IC card key 3 becomes possible as a result of this communication connection establishment process, the reader / writer RW4 proceeds to step SP40.

  In step SP40, the reader / writer RW4 sends connection completion information indicating that a communication connection has been established to the CPU 100 of the personal computer PC.

  When the CPU 100 of the personal computer PC receives the connection completion information from the reader / writer RW4, the CPU 100 reads the license information stored in the storage unit 103 in step SP41 and stores it in the second service area of the non-contact IC card key 3. Write request information for requesting writing of this license information is generated and sent to the reader / writer RW4.

  When the reader / writer RW4 receives the license information and the write request information from the CPU 100, in step SP42, the reader / writer RW4 performs a predetermined encryption process on the license information and the write request information, and then converts them into a non-contact IC. Send to card key 3.

  When the contactless IC card key 3 receives the encrypted license information and the write request information transmitted from the reader / writer RW4 via the antenna 72, the encryption is canceled for these in step SP43. As a result, license information and write request information are obtained, and license information is stored in the second service area in the EEPROM 84 based on the write request information.

  Thus, in this writing processing procedure, the license information stored in the personal computer PC is transferred to the non-contact IC card key 3 and written in the EEPROM 84.

(2-2) Transfer of License Information to Car Next, the car 2 reads the license information from the non-contact IC card key 3 through, for example, the reader / writer RW1 provided near the doorknob. A procedure of transfer processing for transferring license information from the contact IC card key 3 to the automobile 2 will be described with reference to sequence charts of FIGS. 16 and 17.

  For example, key information (in this case, key information for unlocking the door), user information, and license information are provided to the reader / writer RW1 provided in the vicinity of the door knob in order for the user to unlock the door of the automobile 2. When the non-contact IC card key 3 that has been written is held over, the reader / writer RW1 proceeds to the subroutine SRT1 and establishes a communication connection process (similar to the communication connection confirmation process during the transfer process in the first embodiment). Execute.

  If communication between the reader / writer RW1 and the non-contact IC card key 3 becomes possible as a result of the communication connection establishment process, the reader / writer RW1 proceeds to the next step SP50 at this time, and the non-contact IC card key 3 Request information for requesting transmission of the key information, owner information, and license information stored in the information, and after applying a predetermined encryption process to the request information, Is sent to.

  When the contactless IC card key 3 receives the encrypted request information from the reader / writer RW1, the process proceeds to step SP51, where the encrypted request information is subjected to a predetermined process for decryption, and the result Request information is obtained, key information, owner information, and license information are read from the EEPROM 84 based on the request information, subjected to predetermined encryption processing, and then transmitted to the reader / writer RW1. .

  When the reader / writer RW1 receives the encrypted key information, owner information, and license information from the non-contact IC card key 3, the reader / writer RW1 proceeds to the next step SP52, and with respect to these encrypted key information, owner information, and drive information. Then, predetermined processing for releasing encryption is performed, and as a result, key information, owner information, and license information are obtained, and these are sent to the ECU 10.

  When the ECU 10 receives the key information, owner information, and license information transferred from the non-contact IC card key 3 via the reader / writer RW1, the ECU 10 proceeds to step SP53, and the owner identified by the received owner information is It is determined whether or not the vehicle 2 is the owner. That is, the ECU 10 determines whether or not the owner information transferred from the non-contact IC card key 3 is the same as the owner information stored in the database (FIG. 3).

  If an affirmative result is obtained here, this indicates that the owner information transferred from the non-contact IC card key 3 indicates the owner of the automobile 2. At this time, the ECU 10 proceeds to step SP54.

  On the other hand, if a negative result is obtained in step SP53, this indicates that the owner information transferred from the non-contact IC card key 3 does not indicate the owner of the automobile 2, and at this time, the ECU 10 Moving to step SP55, a notification process for notifying the user that the door lock of the automobile 2 cannot be released is performed. In this notification process, a voice or a buzzer sound indicating that may be emitted from a speaker or the like provided in the automobile 2.

  In step SP54, the ECU 10 determines whether or not the key information transferred from the non-contact IC card key 3 is the same as the key information stored in the database.

  If an affirmative result is obtained here, this means that the key information transferred from the non-contact IC card key 3 is correct key information for releasing the door lock. At this time, the ECU 10 performs step SP56. Move to (FIG. 17).

  On the other hand, if a negative result is obtained in step SP54, this indicates that the key information transferred from the non-contact IC card key 3 is not correct key information for releasing the door lock. The ECU 10 moves to step SP55 and performs the notification process described above.

  In step SP56 (FIG. 17), the ECU 10 sends the owner information and license information transferred from the non-contact IC card key 3 to the navigation device NV, moves to step SP57, and releases the door lock.

  Upon receiving the owner information and license information transmitted from the ECU 10, the navigation device NV registers the license information in the storage unit 33 (FIG. 4) in step SP58, and adds it to the URL of the server SV included in the license information. Based on this, owner information and license information are transmitted to the server SV.

  When the CPU 120 of the server SV receives the owner information and license information transmitted from the navigation device NV of the automobile 2, in step SP59, the CPU 120 performs a predetermined authentication process based on the owner information and license information. That is, the CPU 120 stores in the storage unit 123 user information (user ID and password, etc.) and license information (content ID) of the same combination as the received owner information (owner ID and password, etc.) and license information (content ID, etc.). Determine if it is registered.

  The CPU 120 of the server SV determines that the received owner information and license information can be authenticated only when the same combination is registered, and proceeds to the next step SP60.

  In step SP60, based on the content ID included in the received license information, the CPU 120 of the server SV searches and reads content data (for example, music data) corresponding to the content ID from the storage unit 123, and reads the content data from the storage device NV. Send to.

  When the navigation device NV receives the music data transmitted from the server SV, the navigation device NV moves to step SP61 and records the music data in the storage unit 33.

  For example, when a command for reproducing the downloaded music data is input via the operation unit 106, the navigation device NV reproduces the downloaded music data in response thereto.

(2-3) Operation and effect according to the second embodiment In the above configuration, the personal computer PC obtains license information necessary for downloading music data to be reproduced by the navigation device NV of the automobile 2 from the server SV. The data is written to the non-contact IC card key 3 in which key information for releasing the door lock of the automobile 2 is written via the reader / writer RW4.

  In this case, in the non-contact IC card key 3, key information is written in the first service area which is the storage area, and license information is written in the second service area.

  When the non-contact IC card key 3 is held over the reader / writer RW1 provided near the doorknob, the automobile 2 reads key information and license information from the non-contact IC card key 3 and reads the key information into the ECU 10 And license information to the navigation device NV.

  Then, the ECU 10 releases the door lock based on the key information, and the navigation device NV downloads music data from the server SV based on the license information.

  Thus, by simply holding the non-contact IC card key 3 over the reader / writer RW1 provided near the door knob of the automobile 2, the door lock can be released and the license information can be transferred to the navigation device NV to download the music data. .

  According to the above configuration, the key information for releasing the door lock of the automobile 2 is stored in the first service area of the contactless IC card key 3, and the navigation device NV stores the content data in the second service area. The license information used for downloading is stored, and when the contactless IC card key 3 is held over the reader / writer RW1 of the automobile 2, the reader / writer RW1 reads the key information and the license information, and the key information is stored in the ECU 10. At the same time, the license information is transferred to the navigation device NV. Thus, the unlocking of the door of the automobile 2 and the transfer of the license information to the navigation device NV can be processed with a single operation, and thus the license information used by the navigation device NV can be easily registered in the navigation device NV. Can do.

(3) Other Embodiments In the above-described first embodiment, the case where the drive information indicating the destination is written to the non-contact IC card key 3 from the personal computer PC has been described. For example, instead of drive information, playlist information indicating the order in which music data is reproduced by the navigation device NV may be written. In this case, the navigation device NV reproduces the music data recorded in the storage unit 33 in the order of the music specified by the playlist information transferred from the non-contact IC card key 3, for example, by the user. Music data can be played back in song order.

  Instead of drive information, for example, weather information indicating a weather forecast may be written. In this case, the ECU 10 stores the weather forecast information transferred from the non-contact IC card key 3 in the storage unit 20, and performs temperature adjustment of the vehicle air conditioner, wiper control, and the like based on the weather forecast information. Therefore, the air conditioner and the wiper in the vehicle can be optimally controlled according to the weather at that time.

  Further, instead of drive information, facility information indicating the name of a facility (such as a police station or a post office) that the user plans to visit may be written. In this case, the navigation device NV, based on the facility information transferred from the non-contact IC card key 3, for example, when it comes close to the post office, from the video or audio output unit 38 that displays it on the display unit 37 By notifying with an output voice or the like, it is possible to notify the user that there is a facility that is scheduled to stop by.

  Further, instead of the drive information, advertisement information indicating a store advertisement may be written. In this case, the navigation device NV displays an advertisement of the store on the display unit 37 when it comes close to the store where the advertisement is issued based on the advertisement information transferred from the non-contact IC card key 3. For example, it is possible to notify that there is a store that advertises special items or the like nearby.

  Further, a desired sightseeing spot may be written as drive information. In this case, the navigation device NV automatically performs a route search process that allows the user to go around the desired sightseeing spot based on the drive information indicating the sightseeing spot transferred from the non-contact IC card key 3. A route around the spot can be presented to the user.

  As described above, the information written in the non-contact IC card key 3 may be various information other than the drive information as long as the information can be used in the automobile 2.

  Furthermore, in the first embodiment described above, the drive information indicating the destination “Kanagawa Aquarium” is written in the non-contact IC card key 3 as an example, but the present invention is not limited to this. For example, a list of a plurality of destinations may be written in the contactless IC card key 3 as drive information. In this case, the navigation device NV causes the user to designate a desired destination from a plurality of destinations by displaying a list of destinations on the display unit 37 based on the drive information transferred from the non-contact IC card key 3. Can do.

  Furthermore, in the above-described second embodiment, the navigation device NV downloads content data from the server SV based on the license information transferred from the non-contact IC card key 3 and reproduces it. However, the present invention is not limited to this. For example, content data corresponding to the license information is stored in the storage unit 33 in advance, and the stored content data is read and reproduced based on the license information. It may be.

  Further, instead of the license information, for example, resume information indicating how far the video recorded on the DVD has been viewed may be written. In this case, the navigation device NV resumes the DVD inserted in the drive 41 based on the resume information transferred from the non-contact IC card key 3, for example, the DVD viewed halfway by the user on the personal computer PC. Can be seen from the continuation in the car 2.

  Further, a storage medium having a capacity capable of recording content data may be mounted on the non-contact IC card key 3, and the content data itself may be written together with the license information. In this case, the navigation device NV can reproduce the content data based on the license information and content data transferred from the non-contact IC card key 3.

  Furthermore, in the above-described second embodiment, the case where the navigation device NV downloads content data from the server SV based on the license information has been described. However, the present invention is not limited to this, and for example, a personal computer The content data stored in the storage unit 103 of the PC (that is, content data owned by the user) is uploaded to a predetermined server on the network NT, and the URL of this server is written in the non-contact IC card key 3 In this way, the navigation device NV may download content data from a predetermined server based on this URL transferred from the non-contact IC card key 3.

  Further, in the first and second embodiments described above, the case where the card-type non-contact IC card key 3 is used as the storage medium built-in device has been described. However, the present invention is not limited to this, and the reader / As long as information can be transmitted to and received from the writer RW in a non-contact manner, not only the card type but also various other shapes may be applied.

  Furthermore, in the above-described first and second embodiments, the case where the present invention is applied to the automobile 2 as a vehicle has been described. However, the present invention is not limited to this and is applied to various other vehicles such as motorcycles. You may make it apply this invention.

  Furthermore, in the first and second embodiments described above, drive information and license information are transferred from the non-contact IC card key 3 to the navigation device NV via the reader / writer RW1 of the automobile 2. However, the present invention is not limited to this. The reader / writer RW is built in the navigation device NV, and drive information and license information are sent from the non-contact IC card key 3 to the navigation device NV via the reader / writer RW. You may make it forward.

  Furthermore, in the first and second embodiments described above, the second service area of the EEPROM 84 is used as a second area for storing usage information (drive information and license information) as information that can be used by the in-vehicle device. Although the case where it used was described, this invention is not restricted to this, For example, you may make it use the 3rd, 4th service area | region (not shown), and these several service area | regions are carried out by vehicle equipment. It may be used as an area for storing available information. That is, the second area is composed of one or more service areas.

  Further, in the first and second embodiments described above, a command for writing usage information (drive information and license information) from the personal computer PC to the contactless IC card key 3 is written via the operation unit 106. However, the present invention is not limited to this. For example, when the reader / writer RW1 recognizes that the non-contact IC card key 3 is held by polling, In response to this, the writing process may be automatically started.

  Furthermore, in the first and second embodiments described above, when the non-contact IC card key 3 is held over the reader / writer RW1 provided near the doorknob, The case where the key information (engine start key information) and drive information for releasing the written door lock is transferred to the reader / writer RW1 has been described. However, the present invention is not limited to this. Key information and drive information for starting the engine written in the non-contact IC card key 3 when the non-contact IC card key 3 is held over the reader / writer RW3 provided in the vicinity of the seat May be transferred to the reader / writer RW3. In this case, the start of the engine of the automobile 2 and the transfer of usage information to the navigation device NV can be processed with a single operation.

  Further, in the first and second embodiments described above, key information for releasing the door lock and key information for starting the engine are written in the non-contact IC card key 3. However, the present invention is not limited to this. For example, key information for starting an in-vehicle device such as the navigation device NV (in-vehicle device activation key information) is written in the non-contact IC card key 3. When the contactless IC card key 3 is held over the reader / writer RW1, the navigation device NV may be turned on. In this case, of course, key information for starting the navigation device NV is registered in advance in the storage unit 20 of the automobile 2.

  Furthermore, in the first and second embodiments described above, the personal computer PC as the writing device communicates with the non-contact IC card key 3 as the storage medium built-in device having the EEPROM 84 as the first storage medium. A reader / writer RW4 as a communication unit, an authentication unit, and a writing unit, and a storage unit 103 as a second storage medium that stores drive information as information usable by the in-vehicle device and license information as access right information Although the case where it is configured is described, the present invention is not limited to this, and the personal computer PC may be configured with various other configurations.

  Further, in the first and second embodiments described above, the information processing apparatus and the automobile 2 as a vehicle are used as a communication unit, an authentication unit, a reading unit, a reader / writer RW as a transfer unit, or a vehicle control unit. By the ECU 10, the in-vehicle device control means for controlling the navigation device NV as the in-vehicle device, the CPU 30 as the reproduction means and the route search means for reproducing the content data, the communication unit 11 as the transfer means, and the storage unit 20 as the storage means Although the case where it comprised is described, this invention is not restricted to this, You may make it comprise the motor vehicle 2 by various other structures.

  Further, in the first and second embodiments described above, the non-contact IC card key 3 as the storage medium built-in device is identified by the first service area and the first service area for identifying the first service area. A first service definition area for storing a first service code as a service area identification code and a first service key as a first authentication code, and managing the first service area; Storing a service area, a second service code as a second service area identification code for identifying the second service area, and a second service key as a second authentication code; EEPROM 84 as a storage medium having a second service definition area for managing two service areas, antenna 72 and RF interface as communication means 73, or the case where the authentication unit, the writing unit, and the calculating unit 80 as the reading unit are configured. However, the present invention is not limited to this, and the contactless IC card key 3 can be configured in various other configurations. You may make it comprise.

  The present invention can be widely used in a system that uses a non-contact IC card as an automobile key.

It is a basic diagram which shows the whole structure of a non-contact IC card key system. It is a block diagram which shows the structure of the electric control system of a motor vehicle. It is a basic diagram which shows the structure of a database. It is a block diagram which shows the structure of a navigation apparatus. It is a block diagram which shows the structure of a reader / writer. It is a block diagram which shows the structure of a non-contact IC card key. It is a basic diagram which shows the logic format of EEPROM. It is a basic diagram which shows the directory structure (1) of EEPROM. It is a block diagram which shows the structure of personal computer PC. It is a block diagram which shows the structure of a server. It is a basic diagram which shows the directory structure (2) of EEPROM. It is a sequence chart which shows the write-in process procedure in 1st Embodiment. It is a sequence chart which shows a communication connection establishment process procedure. It is a sequence chart which shows the transfer processing procedure in 1st Embodiment. It is a sequence chart which shows the write-in procedure in 2nd Embodiment. It is a sequence chart which shows the transfer processing procedure (1) in 2nd Embodiment. It is a sequence chart which shows the transfer process procedure (2) following the transfer process procedure (1) of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Non-contact IC card key system, 2 ... Automobile, 3 ... Non-contact IC card key, 10 ... ECU, 11, 39, 108, 128 ... Communication part, 20, 33, 103, 123 ... Memory, 30, 100, 120 ... CPU, 37 ... Display, 38 ... Audio output, 50, 70 ... IC, 51 ... Flash memory, 55, 72 ... Antenna, 56 ... Control , 73... RF interface unit, 80... Arithmetic unit, 84... EEPROM, RW1, RW2, RW3, RW4... Reader / writer, NV.

Claims (24)

Communication means for communicating with a storage medium built-in device having an approaching first storage medium;
A second storage medium for storing information usable by the in-vehicle device;
Authentication means for authenticating based on information received from the first storage medium via the communication means;
The first storage medium includes a first area for storing vehicle control key information and a second area for storing information that can be used by the in-vehicle device, according to an authentication result by the authentication means. Write request information for requesting writing of information that can be used by the in-vehicle device stored in the second storage medium to the second area of the first storage medium via the communication means A writing device comprising: writing means for transmitting Information that can be used by the in-vehicle devices
The writing apparatus according to claim 1, further comprising drive information indicating a destination. Information that can be used by the in-vehicle devices
The writing apparatus according to claim 1, wherein the in-vehicle device includes access right information for accessing content data stored in a remote server or its own storage medium. A communication means for communicating with an approaching storage medium built-in device;
Authentication means for authenticating based on information received from the storage medium built-in device via the communication means;
According to the authentication result by the authentication means, user information stored in a storage medium in the storage medium built-in device, vehicle control key information including at least key information for releasing the vehicle door lock, and on-vehicle equipment A reading means for reading available information;
The user information and the vehicle control key information read by the reading means are transferred to a vehicle control means for controlling the operation of the vehicle, and information usable by the in-vehicle device is controlled by the vehicle control means and the in-vehicle device. An information processing apparatus comprising: transfer means for transferring to at least one of the in-vehicle device control means. The vehicle control means;
Read / write based on the control of the vehicle control means, comprising user information representing the owner of the vehicle, and storage means for storing a plurality of vehicle control key information,
The vehicle control means includes
User information comparing means for comparing the user information transferred by the transferring means with the user information stored by the storing means;
Vehicle control key information transferred by the transfer means and vehicle control key information comparing means for comparing the vehicle control key information stored by the storage means;
The vehicle control means controls the operation of the vehicle based on the vehicle control key information according to a comparison result by the user information comparison means and the vehicle control key information comparison means. The information processing apparatus described. The vehicle control key information is
It has in-vehicle device activation key information for activating the in-vehicle device,
The vehicle control means includes
The information processing apparatus according to claim 5, wherein the in-vehicle device is activated based on the in-vehicle device activation key information. The vehicle control key information is
Has engine start key information to start the engine,
The vehicle control means includes
The information processing apparatus according to claim 5, wherein an engine mounted on the vehicle is started based on the engine start key information. An in-vehicle device control means for controlling the in-vehicle device;
The information processing apparatus according to claim 4, further comprising: a reproducing unit that reproduces input information under the control of the in-vehicle device control unit. The reproducing means is
The information processing apparatus according to claim 8, wherein the content data that is information that can be used by the in-vehicle device transferred by the transfer unit is reproduced. Information that can be used by the in-vehicle device transferred by the transfer means is
Including access right information indicating an access right to content data stored in a storage medium communicable with the in-vehicle device control means,
The vehicle equipment control means is
Based on the access right information, obtain content data stored in the communicable storage medium,
The reproducing means is
The information processing apparatus according to claim 8, wherein the content data acquired by the in-vehicle device control means is reproduced. The communicable storage medium is
The information processing apparatus according to claim 10, wherein the information processing apparatus is a storage medium in the vehicle. The communicable storage medium is
The information processing apparatus according to claim 10, wherein the information processing apparatus is an external storage medium. Information that can be used by the in-vehicle device transferred by the transfer means is
Including destination data,
The vehicle equipment control means is
Has route search means,
The route search means
The information processing apparatus according to claim 8, wherein route information from a current position to the destination data is searched based on the destination data. The storage medium in the storage medium built-in device is:
A first service area for storing vehicle control key information; a first service definition area for storing a first authentication code used for authentication for accessing the first service area; A second service area for storing information usable by the device, and a second service definition area for storing a second authentication code used for authentication for accessing the second service area. Have
The authentication means is
Authenticate based on composite key information in which the first authentication code and the second authentication code are combined,
The reading means is
The information processing apparatus according to claim 4, wherein information can be read from the first service area and the second service area in accordance with an authentication result by the authentication unit. A first service area for storing vehicle control key information, a first service area identification code for identifying the first service area, and a first authentication code are stored, and the first A first service definition area for managing the service area, a second service area for storing information usable by the in-vehicle device, and a second service area identification for identifying the second service area A storage medium storing a code and a second authentication code and having a second service definition area for managing the second service area;
A communication means for contactless communication with an external device;
Authentication means for authenticating based on the data received from the external device via the communication means and the second authentication code;
Write means for writing information usable by the in-vehicle device in the second service area in response to a data write request for the second service area received from the external device based on an authentication result by the authentication means A device with a built-in storage medium, comprising: The vehicle control key stored in the first and second service areas based on a data read request for the first and second service areas received from the external device in accordance with an authentication result by the authentication means. Comprising reading means for reading information and information usable by the in-vehicle device,
The communication means is
16. The storage medium built-in device according to claim 15, wherein the vehicle control key information read by the reading unit and information usable by the in-vehicle device are transmitted to the external device. The authentication means is
Authenticate based on composite key information in which the first authentication code and the second authentication code are combined,
The reading means is
The apparatus with a built-in storage medium according to claim 16, wherein information can be read from the first service area and the second service area in accordance with an authentication result by the authentication means. A communication means for communicating with an approaching storage medium built-in device;
Authentication means for authenticating based on information received from the storage medium built-in device via the communication means;
According to the authentication result by the authentication means, user information stored in a storage medium in the storage medium built-in device, vehicle control key information including at least key information for releasing the vehicle door lock, and on-vehicle equipment A reading means for reading available information;
The user information and the vehicle control key information read by the reading means are transferred to a vehicle control means for controlling the operation of the vehicle, and information usable by the in-vehicle device is controlled by the vehicle control means and the in-vehicle device. And a transfer means for transferring to at least one of the on-vehicle equipment control means. Communicating with a storage medium built-in device having a first storage medium approaching;
An authentication step of authenticating based on the information received from the first storage medium in the communication step;
The first storage medium includes a first area for storing vehicle control key information and a second area for storing information that can be used by the in-vehicle device, and corresponds to an authentication result in the authentication step. A writing step of transmitting write request information for requesting that information usable by the vehicle-mounted device stored in the second storage medium be written in the second area of the first storage medium; A writing method characterized by comprising. A communication step of communicating with an approaching storage medium built-in device;
An authentication step of authenticating based on information received from the storage medium built-in device in the communication step;
According to the authentication result in the authentication step, user information stored in a storage medium in the storage medium built-in device, vehicle control key information including at least key information for releasing the vehicle door lock, and in-vehicle device A reading step for reading information available by
The user information and the vehicle control key information read in the reading step are transferred to a vehicle control means for controlling the operation of the vehicle, and information usable by the in-vehicle equipment is controlled by the vehicle control means and the in-vehicle equipment. And a transfer step of transferring to at least one of the in-vehicle device control means. A first service area for storing vehicle control key information, a first service area identification code for identifying the first service area, and a first authentication code are stored, and the first A first service definition area for managing the service area, a second service area for storing information usable by the in-vehicle device, and a second service area identification for identifying the second service area A storage medium-embedded communication method comprising a storage medium that stores a code and a second authentication code and has a second service definition area for managing the second service area,
A communication step for contactless communication with an external device;
An authentication step of authenticating based on the data received from the external device in the communication step and the second authentication code;
Write that writes information usable by the in-vehicle device in the second service area in response to a data write request for the second service area received from the external device based on the authentication result in the authentication step A communication method for a device with a built-in storage medium, comprising: a step. For information processing equipment
Communicating with a storage medium built-in device having a first storage medium approaching;
An authentication step of authenticating based on the information received from the first storage medium in the communication step;
The first storage medium includes a first area for storing vehicle control key information and a second area for storing information that can be used by the in-vehicle device, and corresponds to an authentication result in the authentication step. A writing step of transmitting write request information for requesting that information usable by the vehicle-mounted device stored in the second storage medium be written in the second area of the first storage medium; A writing program characterized by being executed. For information processing equipment
A communication step of communicating with an approaching storage medium built-in device;
An authentication step of authenticating based on information received from the storage medium built-in device in the communication step;
According to the authentication result in the authentication step, user information stored in a storage medium in the storage medium built-in device, vehicle control key information including at least key information for releasing the vehicle door lock, and in-vehicle device A reading step for reading information available by
The user information and the vehicle control key information read in the reading step are transferred to a vehicle control means for controlling the operation of the vehicle, and information usable by the in-vehicle equipment is controlled by the vehicle control means and the in-vehicle equipment. And a transfer step of transferring to at least one of the in-vehicle device control means. A first service area for storing vehicle control key information, a first service area identification code for identifying the first service area, and a first authentication code are stored, and the first A first service definition area for managing the service area, a second service area for storing information usable by the in-vehicle device, and a second service area identification for identifying the second service area An information processing apparatus comprising a storage medium that stores a code and a second authentication code and has a second service definition area that manages the second service area.
A communication step for contactless communication with an external device;
An authentication step of authenticating based on the data received from the external device in the communication step and the second authentication code;
Write that writes information usable by the in-vehicle device in the second service area in response to a data write request for the second service area received from the external device based on the authentication result in the authentication step A communication program characterized by causing steps to be executed.

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