JP2004280310A - Information management system and method, electronic equipment and control method, information management device and method, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve the operability of electronic equipment. <P>SOLUTION: User identification is carried out through a network 15 between a setting data management server 16 and a digital portable telephone set with camera installed in an automobile 11, and when a user is identified, setting data are downloaded from the setting data management server 16 to the digital portable telephone set with camera. Afterwards, the user identification is carried out via a connection part between the digital portable telephone set with camera and the setting device of the automobile 11, and when the user is identified, the setting data are transmitted from the digital portable telephone set with camera to the setting device. The setting device changes the setting data associated with the condition of each part of the automobile 11. Thus, it is possible to set and update the condition of the automobile 11 according to the tastes of the user. This invention can be applied to an automobile, for example. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an information management system and method, an electronic device and a control method, a program, an information management device and method, and a program, and in particular, to an information management system and method capable of easily setting the state of a vehicle, The present invention relates to an apparatus and a control method, a program, an information management device and method, and a program.
[0002]
[Prior art]
With the advance of IT technology in recent years, various kinds of computers have been incorporated in automobiles, and various controls have been performed by the computers. For example, a car navigation system mounted on an automobile has a user interface such as an icon on a display screen like a personal computer, and has a wireless communication function. Some of them can acquire such information and display it on a display screen.
[0003]
As for a car navigation system, a method has been proposed in which only the necessary map information is obtained via a communication line to suppress an increase in storage capacity (for example, Patent Document 1).
[0004]
In this proposal, map information other than a predetermined area is deleted, and only necessary map information is received and stored via a communication line, so that the map information can be efficiently stored without increasing the storage capacity.
[0005]
[Patent Document 1]
JP-A-2003-4456
[0006]
[Problems to be solved by the invention]
[0007]
However, according to the technology disclosed in Patent Literature 1, when a plurality of users share a single car (for example, when a single car is shared by a family of four, etc.), each of the users, such as map information and restaurant information, may be used. There is a problem in that common information can be provided to users, but individual information necessary for each user to drive a car cannot be provided.
[0008]
The present invention has been made in view of such a situation, and it is an object of the present invention to provide necessary information for each user, thereby improving operability.
[0009]
[Means for Solving the Problems]
An information management system according to the present invention includes an electronic device and an information management device connected to the electronic device via a network. The electronic device transmits identification information to the information management device, and updates information from the information management device. Receiving, performing an update process based on the received update information, the information management device performing an authentication process based on the identification information, and transmitting the update information to the electronic device based on the authentication process.
[0010]
An information management method according to the present invention is an information management method for an information management system including an electronic device and an information management device connected to the electronic device via a network, wherein the electronic device transmits identification information to the information management device. Receiving the update information from the information management device, performing an update process based on the received update information, the information management device performing an authentication process based on the identification information, and transmitting the update information to the electronic device based on the authentication process. It is characterized by transmitting.
[0011]
A first electronic device of the present invention includes a transmission / reception unit and a setting unit, wherein the transmission / reception unit transmits identification information to an information management device, and a first transmission unit that receives update information from the information management device. And a first supply unit for supplying the update information received by the first reception unit to the setting unit, wherein the setting unit updates based on the update information supplied by the first supply unit. Updating means for performing processing.
[0012]
The transmitting and receiving unit further includes a second supply unit that supplies the identification information to the setting unit; the setting unit further includes an authentication unit that authenticates the identification information supplied by the second supply unit; May be configured to supply update information to the setting unit when the identification information has been authenticated by the authentication unit.
[0013]
The transmitting / receiving unit may be a mobile phone terminal or an ETC on-vehicle device.
[0014]
The update information may be information on the state of the vehicle or personal information.
[0015]
According to a first control method of the present invention, the transmission / reception unit performs the first transmission step of transmitting identification information to the information management apparatus, the reception step of receiving update information from the information management apparatus, and the reception step. Supplying the updated information to the setting unit. The setting unit includes an updating step of performing an updating process based on the update information supplied by the processing of the supplying step.
[0016]
According to a first program of the present invention, the transmission / reception unit receives the information by a first transmission step of transmitting identification information to the information management apparatus, a reception step of receiving update information from the information management apparatus, and a receiver step. Supplying the updated information to the setting unit. The setting unit causes the computer to execute an updating step of performing an updating process based on the updated information supplied by the processing of the supplying step.
[0017]
A second electronic device according to the present invention includes: a first receiving unit for receiving identification information for identifying update information from an information storage device; an authentication unit for authenticating the identification information received by the first receiving unit; A second receiving unit that receives update information from the information storage device when the identification information is authenticated by the unit; and an updating unit that performs update processing based on the update information received by the second receiving unit. It is characterized by having.
[0018]
The information storage device can be an IC card.
[0019]
The update information may be information on the state of the vehicle or personal information.
[0020]
According to a second control method of the present invention, a first receiving step of receiving identification information for identifying update information from an information storage device; an authentication step of authenticating the identification information received by the processing of the first receiving step; A second receiving step of receiving update information from the information storage device when the identification information is authenticated by the processing of the authentication step, and an update process based on the update information received by the processing of the second receiving step And performing an updating step.
[0021]
A second program according to the present invention includes a first receiving step of receiving identification information for identifying update information from an information storage device; an authentication step of authenticating the identification information received by the processing of the first receiving step; A second receiving step of receiving update information from the information storage device when the identification information is authenticated by the processing of the authentication step; and performing an update process based on the update information received by the processing of the second receiving step. And causing the computer to execute the updating step to be performed.
[0022]
An information management apparatus according to the present invention includes a first receiving unit for receiving first identification information for identifying update information from an electronic device, and a first receiving unit for authenticating the first identification information received by the first receiving unit. And first transmission means for transmitting update information to the electronic device when the first identification information is authenticated as correct by the first authentication means.
[0023]
The information management device may further include a second transmission unit that transmits GUI image data for inputting update information to an information processing device connected to the information management device via a network.
[0024]
The information management device includes a second receiving unit that receives second identification information for identifying the information processing device from the information processing device, and a second reception unit that authenticates the second identification information received by the second receiving device. The second transmitting means may transmit the image data to the information processing device when the second identification information is authenticated as being correct by the second authenticating means.
[0025]
The information management device may further include a second reception unit that receives the update information input in the information processing device, and a storage unit that stores the update information received by the second reception unit. it can.
[0026]
The first transmission means may transmit, as update information, setting information for setting a state of the vehicle on which the electronic device is mounted, or personal information corresponding to the first identification information.
[0027]
An information management method according to the present invention includes a first receiving step of receiving first identification information for identifying update information from an electronic device, and authenticating the first identification information received by the processing of the first receiving step. It is characterized by including a first authentication step and a first transmission step of transmitting update information to the electronic device when the first identification information is authenticated as correct by the processing of the first authentication step.
[0028]
A third program according to the present invention includes a first receiving step of receiving first identification information for identifying update information from an electronic device, and authenticating the first identification information received by the processing of the first receiving step. Causing the computer to execute a first authentication step of performing the first authentication step, and a first transmission step of transmitting update information to the electronic device when the first identification information is authenticated as being correct by the processing of the first authentication step. Features.
[0029]
In the information management system and method of the present invention, an electronic device and an information management device that is connected to the electronic device via a network. In the electronic device, identification information is transmitted to the information management device. Update information is received, an update process is performed based on the received update information, an authentication process is performed in the information management device based on the identification information, and the update information is transmitted to the electronic device based on the authentication process. .
[0030]
According to the first electronic device, control method, and program of the present invention, a transmitting / receiving unit and a setting unit are provided. In the transmitting / receiving unit, identification information is transmitted to the information management device, and update information is received from the information management device. The received update information is supplied to the setting unit, and the setting unit performs an update process based on the supplied update information.
[0031]
In the second electronic device, control method, and program according to the present invention, when identification information for identifying update information is received from the information storage device, the received identification information is authenticated, and when the identification information is authenticated to be correct. The update information is received from the information storage device, and an update process is performed based on the received update information.
[0032]
In the information management apparatus and method and the program according to the present invention, first identification information for identifying update information is received from an electronic device, the received first identification information is authenticated, and the first identification information is correct. Is updated, the update information is transmitted to the electronic device.
[0033]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0034]
FIG. 1 shows the overall configuration of a network system 1 as an information management system to which the present invention is applied.
[0035]
In the network system 1, base stations 12-1 to 12-4, which are fixed wireless stations, are installed in cells obtained by dividing a communication service providing area into a desired area. In these base stations 12-1 to 12-4, a digital mobile phone 31 with a camera (to be described later with reference to FIG. 2), which is a mobile radio station provided in the automobile 11, is for example a W-CDMA (Wideband-Code). It is wirelessly connected by a code division multiple access system called Division Multiple Access, and can perform high-speed data communication of large-capacity data at a data transfer rate of 2 [Mbps] at the maximum using a frequency band of 2 [GHz]. it can.
[0036]
As described above, the camera-equipped digital mobile phone 31 is capable of high-speed data communication of large-capacity data by the W-CDMA method. Can perform data communication.
[0037]
The base stations 12-1 to 12-4 are connected to a public line network 13 via a wired line, and an access server 14 of an Internet service provider is connected to the public line network 13. A setting data management server 16 is connected to the access server 14 via a network 15 (for example, including the Internet, a LAN (Local Area Network), a WAN (Wide Area Network), and other various networks). A personal computer 17 is connected to the access server 14 via a network 15.
[0038]
In the following, the base stations 12-1 to 12-4 are generically referred to as base stations 12 when it is not necessary to distinguish each of them.
[0039]
FIG. 2 illustrates an internal configuration of the automobile 11 as viewed from the rear seat side. As shown in FIG. 2, a handle 41 for operating the wheels of the automobile 11 is provided on the right side in the figure, and an operation unit 51 provided with various devices is provided at the center. At the center of the operation unit 51, a liquid crystal display 52 of a setting device 101 (described later with reference to FIG. 4) is provided, and various processes in the setting device 101 are displayed on the liquid crystal display 52.
[0040]
An operation input / output unit 53 is provided below the liquid crystal display 52, and a user can cause the setting device 101 to execute various processes by operating the operation input / output unit 53. A lever 54 operated when changing gears of the vehicle 11 is provided below the operation input / output unit 53. The user operates the lever 54 to move the vehicle 11 forward or backward. be able to. On the left side of the operation unit 51, a holder 56 for mounting the digital mobile phone with camera 31 is provided. The digital mobile phone with camera 31 is connected to the setting device 101 via a connection unit (not shown) provided in the holder 56. Is electrically connected to
[0041]
FIG. 3 schematically shows a functional configuration of a portion for controlling the state of the automobile 11 in FIG.
[0042]
The automobile 11 includes a setting device 101, a suspension control unit 102, a suspension 103, a horn control unit 104, a horn 105, an air conditioner control unit 106, and an air conditioner 107.
[0043]
The setting device 101 receives setting data (hereinafter simply referred to as “setting”) for setting the state of each part (the suspension 103, the horn 105, and the air conditioner 107 in the example of FIG. 3) of the automobile 11 received from the camera-equipped digital mobile phone 31. Based on the data, the control signals are generated and supplied to the suspension control unit 102, the horn control unit 104, and the air conditioner control unit 106. The suspension control unit 102 controls the suspension 103 based on a control signal supplied from the setting device 101. The horn control unit 104 controls the horn 105 based on the control signal supplied from the setting device 101, and the air conditioning control unit 14 controls the air conditioner 107 based on the control signal supplied from the setting device 101. .
[0044]
The suspension 103 updates settings such as a spring constant and a damping characteristic inside the suspension 103 based on control from the suspension control unit 102. The horn 105 updates settings such as the type and volume of the sound of the horn 105 based on the control from the horn control unit 104. The air conditioner 107 updates settings such as temperature and humidity of the air conditioner 107 based on control from the air conditioner control unit 106.
[0045]
FIG. 4 shows an internal configuration of the setting device 101 in FIG.
[0046]
The setting device 101 includes a liquid crystal display 52, an operation input / output unit 53, a transmission / reception unit 131, a control unit 132, an authentication unit 133, a storage unit 134, and an LCD (Liquid Crystal Display) control unit 135. Interconnected.
[0047]
The operation input / output unit 53 generates various signals based on the operation by the user, and supplies the signals to the control unit 132 via the bus 136.
[0048]
The transmission / reception unit 131 communicates with the camera-equipped digital mobile phone 31, receives setting data and various control signals, and supplies the received data to each unit of the setting device 101 via the bus 136. The control unit 132 generates various control signals for controlling each unit of the setting device 101, controls each unit of the setting device 101 via the bus 136, and controls each unit of the automobile 11 (in the case of FIG. The control signal is supplied to the unit 102, the horn control unit 104, and the air conditioner control unit 106).
[0049]
The storage unit 134 stores setting data and the telephone number of the camera-equipped digital mobile phone 31 owned by the user, and supplies the data to each unit of the setting device 101 via the bus 136 as necessary. The authentication unit 133 is supplied from the transmission / reception unit 131 with reference to the telephone number of the camera-equipped digital mobile phone 31 stored in the storage unit 134 (that is, the telephone number of the camera-equipped digital mobile phone 31 owned by the user). It authenticates whether the telephone number of the digital cellular phone with camera 31 included in the control signal matches, and supplies the authentication result to the control unit 132.
[0050]
The LCD control unit 135 controls the liquid crystal display 52 based on an instruction from the control unit 132. The liquid crystal display 52 displays various information based on an instruction from the LCD control unit 135.
[0051]
FIG. 5 shows an external configuration of a camera-equipped digital mobile phone 31 to which the present invention is applied.
[0052]
As shown in FIG. 5, the camera-equipped digital mobile phone 31 is divided into a display section 212 and a main body 213 with a center hinge section 211 as a boundary, and is formed to be foldable via the hinge section 211. . An antenna 214 for transmission and reception is attached to the display unit 212 at the upper left portion so as to be able to be pulled out and stored, and transmits and receives radio waves to and from the base station 12 via the antenna 214.
[0053]
In addition, the display unit 212 is provided with a camera unit 215 that is rotatable in an angle range of approximately 180 degrees at the center of the upper end, and a desired imaging target can be imaged by the CCD camera 216 of the camera unit 215. Here, when the camera unit 215 is rotated by approximately 180 degrees and positioned by the user, the display unit 212 moves the speaker 217 provided at the center of the rear side of the camera unit 215 to the front side as shown in FIG. Position, thereby switching to a normal voice call state.
[0054]
Further, the display unit 212 is provided with a liquid crystal display 218 in front of the display unit 212. The liquid crystal display state, the remaining battery level, the destination name and telephone number registered in the telephone directory, the transmission history, and the like, as well as the e-mail , A simple homepage, and an image captured by the CCD camera 216 of the camera unit 215 can be displayed.
[0055]
On the other hand, the main body 213 is provided with operation keys 219 such as numeric keys of “0” to “9”, a call key, a redial key, an end / power key, a clear key, and an e-mail key. Thus, various instructions can be input using the operation keys 219. The main body 213 is provided with a memo button 220 and a microphone 221 below the operation keys 219, so that the memo button 220 can record the voice of the other party during a call, and the microphone 221 allows the user to speak during the call. Collect audio.
[0056]
Further, a rotatable jog dial 222 is provided on the main body 213 above the operation keys 219 so as to slightly protrude from the surface of the main body 213, and is displayed on the liquid crystal display 218 in response to the turning operation on the jog dial 222. Various operations such as a scrolling operation of a telephone directory list or an e-mail, a page turning operation of a simple homepage, and an image sending operation are executed.
[0057]
For example, the main body 213 selects a desired telephone number from a plurality of telephone numbers in the telephone directory list displayed on the liquid crystal display 218 in response to a rotation operation of the jog dial 222 by the user, and moves the jog dial 222 toward the inside of the main body 213. Is pressed, the selected telephone number is determined, and a calling process is performed on the telephone number.
[0058]
The main body 213 has a battery pack (not shown) inserted in the back side, and when the call is ended and the power key is turned on, power is supplied from the battery pack to each circuit unit and the main body 213 is activated. I do.
[0059]
By the way, the main body 213 is provided with a memory stick slot 224 for inserting a removable memory stick (trademark of the applicant company) 223 on the upper left side of the main body 213, and the memo button 220 is pressed. In addition, the voice of the other party during the call can be recorded on the memory stick 223, and an image captured by an electronic mail, a simple homepage, or the CCD camera 216 can be recorded according to the operation of the user.
[0060]
Here, the memory stick 223 is a kind of flash memory card developed by Sony Corporation, the present applicant. The memory stick 223 is an electrically erasable and erasable non-volatile memory (EEPROM) that is electrically rewritable and erasable in a small and thin plastic case having a size of 21.5 × 50 × 2.8 [mm]. It stores a flash memory element, which is a kind of Programmable Read Only Memory, and enables writing and reading of various data such as images, sounds, and music via a 10-pin terminal.
[0061]
Also, the memory stick 223 employs a unique serial protocol that can ensure compatibility with a device to be used even when the specification of the built-in flash memory is changed due to an increase in capacity or the like, and a maximum writing speed of 1.5 [ MB / S] and a maximum read speed of 2.45 [MB / S], and high reliability is secured by providing an erasure prevention switch.
[0062]
Therefore, since the camera-equipped digital mobile phone 31 is configured to be able to insert such a memory stick 223, data can be shared with other electronic devices via the memory stick 223. .
[0063]
FIG. 7 shows a configuration of the camera-equipped digital mobile phone 31.
[0064]
As shown in FIG. 7, the camera-equipped digital mobile phone 31 includes a power supply circuit unit 251, an operation input control unit 252, and a main control unit 250 that integrally controls the display unit 212 and the main body 213. The encoder 253, the camera interface unit 254, the LCD control unit 255, the demultiplexing unit 257, the modulation / demodulation circuit unit 258, the audio codec 259, and the storage unit 264 are connected to each other via the main bus 260, and the image encoder 253 and the image decoder 256, a demultiplexing unit 257, a modulation / demodulation circuit unit 258, an audio codec 259, and a recording / reproducing unit 263 are connected to each other via a synchronous bus 261.
[0065]
When the end of the call and the power key are turned on by the user's operation, the power supply circuit unit 251 activates the camera-equipped digital mobile phone 31 in an operable state by supplying power to each unit from the battery pack. .
[0066]
The camera-equipped digital mobile phone 31 converts an audio signal collected by the microphone 221 in the audio communication mode into a digital audio signal by the audio codec 259 under the control of the main control unit 250 including a CPU, a ROM, a RAM, and the like. The signal is compressed, subjected to spread spectrum processing by a modulation / demodulation circuit section 258, subjected to digital / analog conversion processing and frequency conversion processing by a transmission / reception circuit section 262, and then transmitted via an antenna 214.
[0067]
Further, the camera-equipped digital mobile phone 31 amplifies the received signal received by the antenna 214 in the voice communication mode, performs a frequency conversion process and an analog-to-digital conversion process, performs a spectrum despreading process in the modulation / demodulation circuit unit 258, and After being expanded and converted into an analog audio signal, this is output via a speaker 217.
[0068]
Further, when transmitting an e-mail in the data communication mode, the camera-equipped digital mobile phone 31 converts the text data of the e-mail input by operating the operation keys 219 and the jog dial 222 into the main control unit 250 via the operation input control unit 252. To send to. The main control unit 250 performs spread spectrum processing on the text data in the modulation / demodulation circuit unit 258, performs digital / analog conversion processing and frequency conversion processing in the transmission / reception circuit unit 262, and transmits the text data to the base station 12 via the antenna 214.
[0069]
On the other hand, when receiving an e-mail in the data communication mode, the camera-equipped digital mobile phone 31 performs a spectrum despreading process on a received signal received from the base station 12 via the antenna 214 by the modulation / demodulation circuit unit 258, and returns the original signal. After restoring the text data, the text data is displayed on the liquid crystal display 218 via the LCD control unit 255 as an electronic mail.
[0070]
Thereafter, the camera-equipped digital mobile phone 31 can also record the received e-mail on the memory stick 223 via the recording / reproducing unit 263 according to the operation of the user.
[0071]
When not transmitting an image signal, the camera-equipped digital mobile phone 31 directly displays the image signal captured by the CCD camera 216 on the liquid crystal display 218 via the camera interface unit 254 and the LCD control unit 255.
[0072]
When transmitting an image signal in the data communication mode, the camera-equipped digital mobile phone 31 supplies an image signal captured by the CCD camera 216 to the image encoder 253 via the camera interface unit 254.
[0073]
The image encoder 253 converts the image signal supplied from the CCD camera 216 into an encoded image signal by compression-encoding the image signal according to a predetermined encoding method such as MPEG (Moving Picture Experts Group) 2 or MPEG4. To the demultiplexer 257. At this time, the camera-equipped digital mobile phone 31 simultaneously transmits the voice collected by the microphone 221 during the imaging by the CCD camera 216 to the demultiplexer 257 via the voice codec 259 as a digital voice signal.
[0074]
The demultiplexing unit 257 multiplexes the coded image signal supplied from the image encoder 253 and the audio signal supplied from the audio codec 259 in a predetermined system, and the multiplexed signal obtained as a result is transmitted to the modulation / demodulation circuit unit 258 for spectrum analysis. After performing spread processing and performing digital-to-analog conversion processing and frequency conversion processing in the transmission / reception circuit unit 262, transmission is performed via the antenna 214.
[0075]
On the other hand, when receiving data of a moving image file linked to, for example, a simple homepage or the like in the data communication mode, the camera-equipped digital mobile phone 31 converts a received signal received from the base station 12 via the antenna 214 into a modulation / demodulation circuit. The spectrum despreading process is performed by the unit 258, and the resulting multiplexed signal is sent to the demultiplexing unit 257.
[0076]
The demultiplexing unit 257 separates the multiplexed signal into an encoded image signal and an audio signal by supplying the encoded image signal to the image decoder 256 via the synchronization bus 261 and also outputs the audio signal to the audio codec 259. Supply. The image decoder 256 generates a reproduced moving image signal by decoding the encoded image signal by a decoding method corresponding to a predetermined encoding method such as MPEG2 or MPEG4, and outputs the reproduced moving image signal via the LCD control unit 255 to the liquid crystal display. 218, whereby, for example, moving image data included in the moving image file linked to the simplified homepage is displayed.
[0077]
At this time, at the same time, the audio codec 259 converts the audio signal into an analog audio signal, and then supplies the analog audio signal to the speaker 217, whereby, for example, the audio signal included in the moving image file linked to the simplified homepage is reproduced. . Also in this case, similarly to the case of the e-mail, the camera-equipped digital mobile phone 31 can record the received data linked to the simplified homepage or the like on the memory stick 223 via the recording / reproducing unit 263 by the user's operation. is there.
[0078]
The storage unit 264 stores the setting data received by the transmission / reception circuit unit 262 via the network 15 and the telephone number of the digital cellular phone 31 with a camera, and stores the digital cellular phone with a camera via the bus 260 as necessary. 31.
[0079]
FIG. 8 shows an internal configuration of the setting data management server 16 of FIG.
[0080]
The setting data management server 16 includes a transmission / reception unit 301, a control unit 302, a storage unit 303, and a database 304.
[0081]
The transmission / reception unit 301 communicates with the camera-equipped digital mobile phone 31 via the network 15, supplies a control signal including the received telephone number data of the camera-equipped digital mobile phone 31 to the control unit 302, and The setting data and the like supplied from the unit 302 are transmitted to the digital cellular phone 31 with a camera. Further, the transmission / reception unit 301 communicates with the personal computer 17 via the network 15 and sets image data for setting data creation (hereinafter, referred to as a GUI (Graphical User Interface) for inputting the setting data supplied from the control unit 302). , Simply referred to as “setting data creation image data”) to the personal computer 17, receives the setting data created from the personal computer 17, and supplies it to the control unit 302.
[0082]
The control unit 302 includes a telephone number of the camera-equipped digital mobile phone 31 registered in the database 304 (that is, a telephone number of the camera-equipped digital mobile phone 31 owned by the user registered in the database 304) and a transmission / reception unit 301. It verifies whether or not the telephone number of the digital mobile phone with camera 31 included in the control signal supplied from the PC matches. When it is verified that the telephone number of the camera-equipped digital mobile phone 31 included in the control signal matches the registered telephone number, the control unit 302 reads the setting data registered in the database 304 and sends the setting data to the transmitting / receiving unit 301. Supply.
[0083]
If the telephone number of the camera-equipped digital mobile phone 31 included in the control signal does not match (if it does not match the registered phone number), the control unit 302 returns to the telephone of the camera-equipped digital mobile phone 31. A control signal indicating that the numbers do not match is generated and supplied to the transmission / reception unit 301.
[0084]
The storage unit 303 stores the image data for setting data creation and supplies it to the control unit 302 as needed. The database 304 registers the setting data in association with the telephone number of the camera-equipped digital mobile phone 31 owned by the user, and supplies the setting data to the control unit 302 as appropriate based on an instruction from the control unit 302. I do.
[0085]
FIG. 9 shows an internal configuration of the personal computer 17 of FIG.
[0086]
In FIG. 9, a CPU (Central Processing Unit) 351 executes various processes according to a program stored in a ROM (Read Access Memory) 352 or a program loaded from a storage unit 358 into a RAM (Random Access Memory) 353. I do. The RAM 353 also appropriately stores data necessary for the CPU 351 to execute various processes.
[0087]
The CPU 351, the ROM 352, and the RAM 353 are interconnected via a bus 354. The bus 354 is also connected to an input / output interface 355.
[0088]
The input / output interface 355 includes an input unit 356 including a keyboard and a mouse, a display including a CRT and an LCD, an output unit 357 including a speaker, a storage unit 358 including a hard disk, a modem, a terminal adapter, and the like. The configured communication unit 359 is connected. The communication unit 359 performs communication processing via the network 15 including the Internet.
[0089]
A drive 360 is connected to the input / output interface 355 as necessary, and a magnetic disk 371, an optical disk 372, a magneto-optical disk 373, a semiconductor memory 374, or the like is appropriately mounted. It is installed in the storage unit 358 as needed.
[0090]
When the setting of each part of the automobile 11 is updated based on the setting data, the user first connects to the setting data management server 16 of FIG. 1 and performs a membership and other procedures. The user creates arbitrary setting data using the personal computer 17.
[0091]
Next, with reference to FIG. 10, an outline of the setting data creation processing in the personal computer 17 and the setting data reception processing in the setting data management server 16 corresponding to the processing will be described.
[0092]
The details of the processing for each device will be described later with reference to FIGS. The process of FIG. 10 is started when the user instructs the setting data creation process.
[0093]
In step S1, the personal computer 17 displays an authentication start message (described later with reference to FIG. 12). The user instructs the start of authentication based on the displayed authentication start message, and inputs a password (described later with reference to FIG. 13), which is an authentication symbol for permitting the user to access the setting data management server 16. . In step S2, the personal computer 17 performs an authentication start control signal including password data (a control signal indicating the start of user authentication between the personal computer 17 and the setting data management server 16) based on a user instruction. Is generated, connected to the setting data management server 16 via the network 15, and transmitted.
[0094]
The setting data management server 16 that has received the authentication start control signal in step S31, in step S32, the password of the user whose password included in the authentication start control signal is registered in the database 304 (described later with reference to FIG. 20). Authenticates whether it matches (is registered). If it is verified that the password included in the authentication start control signal has been registered, the setting data management server 16 determines in step S33 that a setting data creation control signal (a control signal indicating that setting data can be created). Is generated and transmitted to the personal computer 17 via the network 15.
[0095]
The personal computer 17 that has received the setting data creation control signal in step S3 displays a setting data creation start message (described later with reference to FIG. 14) in step S4. The user instructs the start of setting data creation based on the displayed setting data creation start message. In step S5, the personal computer 17 generates a setting data creation start control signal (a control signal indicating the start of creation of the setting data), and transmits it to the setting data management server 16 via the network 15.
[0096]
In step S35, the setting data management server 16 that has received the setting data creation start control signal in step S34 reads out the setting data creation image data for the GUI for creating the setting data. In step S36, the setting data management server 16 transmits the read setting data creating image data to the personal computer 17 via the network 15.
[0097]
The personal computer 17 that has received the setting data creation image data in step S6, based on the received setting data creation image data in step S7, creates a GUI for setting data creation (input) (described later with reference to FIG. 15). Display). The user inputs the setting data based on the displayed GUI. In step S8, the personal computer 17 acquires the setting data input by the user and transmits the setting data to the setting data management server 16 via the network 15.
[0098]
In step S38, the setting data management server 16 that has received the setting data in step S37 registers the received setting data (if the setting data has already been registered, updates the setting data). A reception control signal (a control signal indicating reception of setting data in the setting data management server 16) is generated and transmitted to the personal computer 17 via the network 15.
[0099]
The personal computer 17 that has received the setting data reception control signal in step S10 displays a setting data reception message (described later with reference to FIG. 17).
[0100]
In this way, the personal computer 17 creates the setting data, and the setting data management server 16 receives and registers the created setting data.
[0101]
Next, the details of the setting data creation processing (the processing of steps S1 to S10 in FIG. 10) in the personal computer 17 in FIG. 1 will be described with reference to the flowchart in FIG. This process is started when the user gives an instruction to create setting data.
[0102]
In step S71, the CPU 351 causes the display of the output unit 357 to display an authentication start message 401 as shown in FIG.
[0103]
The authentication start message 401 in FIG. 12 has a message display column 411, a command display column 412 for displaying a command, and a command display column 413.
[0104]
In the case of the example of FIG. 12, the message display field 411 displays “Start authentication?” As a message. This indicates that the user can start authentication between the personal computer 17 and the setting data management server 16 by the subsequent processing.
[0105]
The command display column 412 and the command display column 413 display icons “Yes” and “No”, respectively. By operating the input unit 356, the user can select the “No” command icon in the command display field 413 and cancel the start of authentication. Further, the user can operate the input unit 357 to select the icon of the “Yes” command in the command display field 412 and instruct the start of authentication.
[0106]
In step S72, the CPU 351 determines whether or not the start of authentication has been instructed (the “Yes” icon has been operated). If not, the CPU 351 does not instruct the command display field by operating the input unit 356. If it is determined that the “No” command icon 413 has been selected), the start of the authentication is cancelled, and the setting data creation process ends.
[0107]
If it is determined in step S72 that the user has operated the input unit 356 to select the icon of the “Yes” command in the command display field 412, the CPU 351 determines in step S73 the password as shown in FIG. A password input dialog 441 as an interface for inputting is displayed on the display of the output unit 357.
[0108]
The password input dialog 441 in FIG. 13 has a message display column 451, a password input column 452 for inputting a password, and a command display column 453 for displaying a command.
[0109]
In the case of the example of FIG. 13, “Please enter a password” is displayed in the message display column 451 as a message. As a result, it is understood that the user can input a password which is an authentication symbol for permitting access to the setting data management server 16 by the subsequent processing. The password, which is an authentication symbol for permitting access to the setting data management server 16, is given in advance when the user performs the enrollment procedure with the setting data management server 16, and is associated with the user's telephone number. It is registered (see FIG. 20 described later).
[0110]
The user can input a password in the password input field 452 by operating the input unit 357. In the case of the example of FIG. 13, the password entered by the user in the password entry field 452 is “ABCD”.
[0111]
The command display column 453 displays an icon of a command “OK”. By selecting the “OK” command icon in the command display field 453, the user can instruct the completion of the password input to the password input field 452.
[0112]
When the user selects the “OK” command icon in the command display field 453, the CPU 351 determines in step S74 that an authentication start control signal (a control signal indicating the start of user authentication between the personal computer 17 and the setting data management server 16). ) Is generated and supplied to the communication unit 359 via the bus 354. The authentication start control signal includes data of the password ("ABCD" in the example of FIG. 13) input by the user. The communication unit 359 transmits the authentication start control signal supplied from the CPU 351 via the bus 354 to the setting data management server 16 via the network 15.
[0113]
In step S75, the CPU 351 transmits a control signal for enabling setting data creation from the setting data management server 16 via the network 15 (a control signal generated and transmitted from the setting data management server 16 by the processing of step S173 in FIG. 19 described later). ) Is determined. If it is determined in step S75 that the setting data creation control signal has been received from the setting data management server 16, the CPU 351 displays a setting data creation start message 471 as shown in FIG. Display.
[0114]
The setting data creation start message 471 in FIG. 14 has a message display column 481 and a command display column 482 for displaying a command.
[0115]
In the case of the example of FIG. 14, the message “Start creating the setting data” is displayed in the message display column 471 as a message. As a result, it is understood that the user can start creating the setting data by the subsequent processing.
[0116]
The command display column 482 displays an icon of a command “OK”. The user can instruct the start of setting data creation by selecting the “OK” command icon in the command display field 482.
[0117]
When the user selects the “OK” command icon in the command display field 482, the CPU 351 generates a setting data creation start control signal (a control signal indicating the start of creation of setting data) in step S77, and connects the bus 354. It is supplied to the communication unit 359 via the communication unit 359. The communication unit 359 transmits a setting data creation start control signal supplied from the CPU 351 via the bus 354 to the setting data management server 16 via the network 15.
[0118]
In step S78, the CPU 351 determines whether or not image data for setting data creation (sent in step S176 in FIG. 19 described later) has been received from the setting data management server 16 via the network 15. If it is determined in step S78 that the setting data creation image data has not been received from the setting data management server 16, the process waits until the setting data creation image data is received from the setting data management server 16.
[0119]
If it is determined in step S78 that the setting data creation image data has been received from the setting data management server 16, the CPU 351 determines in step S79 based on the received setting data creation image data a GUI as shown in FIG. Is displayed on the display of the output unit 357. Note that HTML (Hyper Text Markup Language) or the like can be used as the image data for setting data creation.
[0120]
In the case of the setting data creation screen 501 in FIG. 15, the names of the setting targets of “suspension”, “horn”, and “air conditioner” are displayed in the first column.
[0121]
In the case of “Suspension” in the first row of FIG. 15, the setting object of “Spring constant”, “Damping characteristic”, and “Vehicle height” are displayed in the second column. “Spring constant” means the hardness of the spring of the suspension 103 (FIG. 3). The “damping characteristic” means a property of a damping change of the damper of the suspension 103 with respect to the piston speed, and the “vehicle height” means a height of the automobile 11 with respect to the ground. In the case of the example of “spring constant” in FIG. 15, the hardness of the spring of the suspension 103 (FIG. 3) is “soft” indicating that the spring of the suspension 103 is relatively soft. Can be set to any state between 20 steps up to “hard” indicating For example, the hardness of the spring of the suspension 103 can be set to "10.0" or "6.5".
[0122]
In the case of the example of “damping characteristic” in FIG. 15, the state of the characteristic of the damping change with respect to the piston speed of the damper of the suspension 103 is set in advance to “type A1”, “type A2”, “type A3”, “type A3”. It can be arbitrarily selected and set from eight types of "type A4", "type A5", "type A6", "type A7", and "type A8". For example, it is possible to set the state of the characteristic of the damping change of the damper of the suspension 103 with respect to the piston speed, such as “type A5” or “type A7”.
[0123]
In the case of the example of “vehicle height” in FIG. 15, the height of the car 11 with respect to the ground is from “low” indicating that the height of the car 11 to the ground is relatively low to “height” indicating that the height of the car 11 is relatively high. Can be arbitrarily set between the 20 steps. For example, the height of the car 11 with respect to the ground can be set, such as “8.2” or “3.7”.
[0124]
In the case of “horn” in the second row of FIG. 15, the setting target of “sound type” and “volume” is displayed in the second column. “Sound type” means the type of sound generated by the horn 105 (FIG. 3). Further, “volume” means a volume generated by the horn 105.
[0125]
In the case of the example of “sound type” in FIG. 15, the types of sounds generated by the horn 105 are “type B1”, “type B2”, “type B3”, “type B4”, and “type B4”. Any type can be selected and set from the eight types of "type B5", "type B6", "type B7", and "type B8". For example, the type of sound generated by the horn 105 can be set, such as “type B2” or “type B3”.
[0126]
In the case of the example of “volume” in FIG. 15, the volume generated by the horn 105 is relatively large from “low” indicating that the volume generated by the horn 105 is relatively small as the volume generated by the horn 105. Can be arbitrarily set in 20 steps up to “large” indicating that For example, the volume generated by the horn 105 can be set, such as “2.0” or “9.4”.
[0127]
In the case of “air conditioning” in the third row of FIG. 15, the setting targets of “temperature”, “humidity”, and “air volume” are displayed in the second column. “Temperature” means the temperature inside the automobile 11 adjusted by the air conditioner 107. “Humidity” means the humidity inside the automobile 11 adjusted by the air conditioner 107, and “air volume” means the air volume blown into the automobile 11 by the air conditioner 107.
[0128]
In the case of the example of “Temperature” in FIG. 15, the temperature in the vehicle 11 controlled by the air conditioner 107 is compared with “Low” indicating that the temperature in the vehicle 11 controlled by the air conditioner 107 is relatively low. It can be arbitrarily set between 20 levels up to “high” indicating that the target is high. For example, the temperature inside the automobile 11 controlled by the air conditioner 107 can be set as “1.0” or “9.9”. In the case of the example of “humidity” in FIG. 15, the humidity in the vehicle 11 adjusted by the air conditioner 107 is compared with “low” indicating that the humidity in the vehicle 11 adjusted by the air conditioner 107 is relatively low. It can be arbitrarily set between 20 levels up to “high” indicating that the target is high. For example, it is possible to set the humidity in the automobile 11 adjusted by the air conditioner 107, such as “4.0” or “15.0”.
[0129]
In the case of the example of “air volume” in FIG. 15, the air volume blown into the vehicle 11 by the air conditioner 107 is “weak” indicating that the air volume blown into the vehicle 11 by the air conditioner 107 is relatively weak. It can be arbitrarily set in 20 steps up to “strong” indicating that the air volume blown into the automobile 11 by the air conditioner 107 is relatively strong. For example, the air volume blown into the automobile 11 by the air conditioner 107 can be set, such as “1.0” or “5.6”.
[0130]
The user inputs the state of the automobile 11 desired by operating each part of the setting data creation screen 501 shown in FIG.
[0131]
Returning to FIG. 11, in step S80, the CPU 351 executes a setting data creation process. The setting data acquisition processing is shown in FIG.
[0132]
The setting data acquisition process in the personal computer 17 of FIG. 1 will be described with reference to the flowchart of FIG.
[0133]
In step S121, the CPU 351 determines whether or not the setting of the suspension 103 has been instructed by the operation of the input unit 356 from the user. If it is determined in step S121 that the setting of the suspension 103 has been instructed, in step S122, the CPU 351 sets the suspension 103 by inputting the user by operating the setting data creation screen 501 (in the example of FIG. 15, “ The setting data of “spring constant”, “horn”, and “air conditioner” are obtained, and data of corresponding specific numerical values is created.
[0134]
In step S128, the CPU 351 determines whether or not an operation of the input unit 356 by a user has instructed setting of another part. If it is determined in step S128 that another part setting has been instructed, the process returns to step S121, and the subsequent processes are repeated. That is, setting of other parts is performed.
[0135]
If it is determined in step S121 that the setting of the suspension 103 has not been instructed, the CPU 351 determines in step S122 whether the setting of the horn 105 has been instructed. If it is determined in step S123 that the setting of the horn 105 has been instructed, the CPU 351 determines in step S124 that the user inputs the setting data of the horn 105 by operating the setting data creation screen 501 (in the example of FIG. 15, “ The setting data of “sound type” and “volume” are obtained, and corresponding numerical data is created. Thereafter, the process proceeds to step S128, and thereafter, the same process is repeated.
[0136]
If it is determined in step S123 that the setting of the horn 105 has not been instructed, the CPU 351 determines in step S125 whether the setting of the air conditioner 107 has been instructed. When it is determined in step S125 that the setting of the air conditioner 107 has been instructed, the CPU 351 determines in step S126 that the setting data of the air conditioner 107 input by the user operating the setting data creation screen 501 (in the case of the example of FIG. , “Temperature”, “humidity”, and “air flow” setting data), and create data of corresponding specific numerical values. Thereafter, the process proceeds to step S128, and thereafter, the same process is repeated.
[0137]
If it is determined in step S125 that the setting of the air conditioner 107 has not been instructed, the CPU 351 executes an error process in step S127. Thereafter, the process proceeds to step S128, and thereafter, the same process is repeated.
[0138]
As described above, the user can input setting data for setting each part of the automobile 11 (in the example of FIG. 3, the suspension 102, the cushion 103, and the air conditioner 104) to an arbitrary state.
[0139]
In the embodiment of the present invention, the states of the suspension 103, the horn 105, and the air conditioner 107 of the automobile 11 are set. However, it is needless to say that any part that can be set in the automobile 11 such as an accelerator, etc. Any part may be set arbitrarily.
[0140]
Returning to FIG. 11, after the setting data acquisition process is executed in step S80 as described above, in step S81, the CPU 351 supplies the generated setting data to the communication unit 359 via the bus 354. The communication unit 359 transmits the setting data supplied from the CPU 351 to the setting data management server 16 via the network 15.
[0141]
In step S82, the CPU 351 determines whether or not a setting data reception control signal (a control signal generated in the setting data management server 16 by the processing in step S179 in FIG. 19) from the setting data management server 16 via the network 15. Is determined. If it is determined in step S82 that the setting data reception control signal has not been received from the setting data management server 16, the process waits until a setting data reception control signal is received from the setting data management server 16.
[0142]
If it is determined in step S82 that the setting data reception control signal has been received from the setting data management server 16, the CPU 351 causes the display of the output unit 357 to display a setting data reception message 541 as shown in FIG. .
[0143]
The setting data reception message 541 in FIG. 17 has a message display column 551 and a command display column 552 for displaying a command.
[0144]
In the case of the example of FIG. 17, “Setting data received” is displayed as a message in the message display column 551. This allows the user to know that the setting data created by the processing up to now has been received by the setting data management server 16.
[0145]
The command display column 552 displays an icon of a command “OK”. The user can instruct the completion of the creation of the setting data by selecting the “OK” command icon in the command display field 552.
[0146]
When the user selects the icon of the command “OK” in the command display field 552, the setting data creation processing ends.
[0147]
On the other hand, when it is determined in step S75 that the setting data creation control signal has not been received from the setting data management server 16 (that is, the CPU 351 sends the setting data creation disable control signal from the setting data management server 16 (step S75 in FIG. 19). When it is determined that the control data generated by the setting data management server 16 in the processing of S180 (indicating that the setting data cannot be created) is received), the CPU 351 proceeds to step S84 and shown in FIG. The setting data creation impossible message 571 is displayed on the display of the output unit 357.
[0148]
18 has a message display column 581 and a command display column 582 for displaying a command.
[0149]
In the case of the example of FIG. 18, “Setting data cannot be created” is displayed as a message in the message display column 581. This indicates that the user cannot create the setting data by the subsequent processing.
[0150]
The command display column 582 displays an icon of a command “return”. The user can cancel the creation of the setting data by selecting the icon of the “return” command in the command display column 582.
[0151]
If the user selects the “return” command icon in the command display field 582, the setting data creation processing is canceled, and the setting data creation processing ends.
[0152]
As described above, since the user authentication is performed between the personal computer 17 and the setting data management server 16, it is possible to prevent unauthorized access to the setting data of the user by another person who has accessed the setting data management server 16. Can be. Therefore, the setting data management server 16 can manage the setting data of the vehicle 11 owned by the user while ensuring security with the personal computer 17.
[0153]
In the above description, the setting data of the automobile 11 is created by using the personal computer 17, but may be created by using various information processing terminals such as a PDA and a digital cellular phone 31 with a camera. .
[0154]
Next, the setting data receiving process executed by the setting data management server 16 in correspondence with the personal computer 17 setting data creating process will be described with reference to the flowchart of FIG.
[0155]
In step S171, the control unit 302 of the setting data management server 16 sends the authentication start control signal from the personal computer 17 via the network 15 to the transmission / reception unit 301 (the control signal generated in the personal computer 17 by the processing of step S74 in FIG. 11). ) Is determined. As described above, the authentication start control signal includes the data of the password (“1111” in the example of FIG. 13) input by the user.
[0156]
If it is determined in step S171 that the authentication start control signal has not been received from the personal computer 17, the process waits until the authentication start control signal is received from the personal computer 17.
[0157]
If it is determined in step S171 that the authentication start control signal has been received from the personal computer 17, the control unit 302 determines in step S172 that the password included in the received authentication start control signal is the password registered in the database 304 (see FIG. 20 (which will be described later with reference to FIG. 20).
[0158]
If it is determined in step S172 that the password included in the authentication start control signal has been registered, the control unit 302 determines in step S173 that the setting data creation possible control signal (the control signal indicating that setting data creation is possible). ) Is generated and supplied to the transmission / reception unit 301 of the setting data management server 16. The transmission / reception unit 301 transmits the control signal capable of creating setting data supplied from the control unit 302 to the personal computer 17 via the network 15.
[0159]
In step S174, the control unit 302 determines whether the transmission / reception unit 301 has received the setting data creation start control signal (the control signal generated in the personal computer 17 by the processing in step S77 in FIG. 11) from the personal computer 17 via the network 15. It is determined whether or not. If it is determined in step S174 that the setting data creation start control signal has not been received from the personal computer 17, the process waits until a setting data creation start control signal is received from the personal computer 17.
[0160]
If it is determined in step S174 that the control data generation start control signal has been received from the personal computer 17, the control unit 302 reads out the setting data generation image data for the GUI from the storage unit 303 in step S175, and To supply. In step S176, the transmission / reception unit 301 transmits the image data for setting data generation supplied from the control unit 302 to the personal computer 17 via the network 15 using a known protocol such as HTTP (Hyper Text Transfer Protocol). .
[0161]
In step S177, the control unit 302 determines whether the transmission / reception unit 301 has received the setting data created from the personal computer 17 via the network 15 (the setting data created in step S80 in FIG. 11). If it is determined in step S177 that the setting data created from the personal computer 17 has not been received, the process waits until the setting data created from the personal computer 17 is received.
[0162]
If it is determined in step S177 that the setting data created from the personal computer 17 has been received, the control unit 302 registers the received setting data in the database 304 in step S178 (if the setting data has already been registered, Updates its configuration data).
[0163]
FIG. 20 illustrates an example of the database 304 of the setting data management server 16 in FIG. In the example of the database 304 of FIG. 20, as shown in the first to sixth columns, “management number”, “telephone number”, “suspension”, “cushion”, “air conditioner”, and “ The password is registered in association with the password. “Management number” in the first column of FIG. 20 is a number for managing the setting data managed by the setting data management server 16. The “telephone number” in the second column is the telephone number of the camera-equipped digital mobile phone 31 owned by the user who manages the setting data in the setting data management server 16. It is registered. “Suspension” in the third column is setting data of the suspension 103, and includes three items of “spring constant”, “damping characteristic”, and “vehicle height”. The “horn” in the fourth column is the setting data of the horn 105, and has two items, “sound type” and “volume”. “Air conditioner” in the fifth column is setting data of the air conditioner 107, and has three items of “temperature”, “humidity”, and “air volume”. “Password” in the sixth column is an authentication symbol for permitting the user to access the setting data management server 16 from the personal computer 17 via the network 15 and is given to the user when joining.
[0164]
In the case of the second line in FIG. 20, the “management number” is “1” and the “telephone number” is “09072398119”. The setting data of “spring constant”, “damping characteristic”, and “vehicle height” in “suspension” are “9.5”, “type A2”, and “10.0”, respectively. The setting data of “sound type” and “volume” in “horn” are “type B3” and “5.0”, respectively, and “temperature”, “humidity”, and “air volume” in “air conditioner” are set. Are "7.0", "9.0", and "7.5", respectively. Further, the “password” is “1111”.
[0165]
In the case of the third line in FIG. 20, the “management number” is “2” and the “telephone number” is “090829293263”. The setting data of “spring constant”, “damping characteristic”, and “vehicle height” in “suspension” are “7.0”, “type A7”, and “2.0”, respectively. The setting data of “sound type” and “volume” in “horn” are “type B1” and “1.0”, respectively, and “temperature”, “humidity”, and “air volume” in “air conditioner” are set. Are "3.0", "5.5", and "11.5", respectively. Further, the “password” is “BCDE”.
[0166]
As described above, the setting data management server 16 associates the setting data of the automobile 11 created by the user with the telephone number (telephone number of the camera-equipped digital mobile phone 31 owned by the user) and registers it in the database 304, Managing.
[0167]
Note that a user ID other than a telephone number can be used as an ID for identifying a user. However, by using a telephone number, as described later, a digital portable device with a camera can be used without imposing a heavy burden on the user. With a simple operation of simply attaching the telephone set 31 to the holder 56, the setting data can be easily and quickly set to that of the user.
[0168]
In step S179, the control unit 302 generates a setting data reception control signal (a control signal indicating reception of setting data in the setting data management server 16) and supplies it to the transmission / reception unit 301. The transmission / reception unit 301 transmits the setting data reception control signal supplied from the control unit 302 to the personal computer 17 via the network 15. Thereafter, the process returns to step S171, and thereafter, the same process is repeated. That is, the setting data receiving process for another user who has accessed the setting data management server 16 is similarly executed.
[0169]
If it is determined in step S172 that the password included in the authentication start control signal has not been registered, the control unit 302 determines in step S180 that the setting data cannot be created control signal (setting data creation is impossible in the setting data management server 16). A control signal indicating that it is possible) is generated and supplied to the transmission / reception unit 301. The transmission / reception unit 301 transmits the setting data unavailable control signal supplied from the control unit 302 to the personal computer 17 via the network 15.
[0170]
As described above, since the user authentication is performed between the personal computer 17 and the setting data management server 16, it is possible to prevent unauthorized access to the setting data of the user by another person who has accessed the setting data management server 16. Can be. Therefore, the setting data management server 16 can manage the setting data of the vehicle 11 owned by the user while ensuring security with the personal computer 17.
[0171]
In order to update the settings of each part of the automobile 11 based on the setting data, the user downloads the setting data from the setting data management server 16 that manages the created setting data to the camera-equipped digital cellular phone 31, and stores the setting data. Let it. The outline of the setting data storage processing in the camera-equipped digital mobile phone 31 and the setting data distribution processing in the setting data management server 16 corresponding to the processing will be described with reference to the flowchart in FIG.
[0172]
The details of the processing of each device in the flowchart of FIG. 21 will be described later with reference to FIGS. 22 and 27. The setting data storage processing in the camera-equipped digital mobile phone 31 is started when a user instructs.
[0173]
In step S201, the camera-equipped digital mobile phone 31 displays an authentication start message (described later with reference to FIG. 23). The user instructs the start of authentication based on the displayed authentication start message. In step S202, the camera-equipped digital mobile phone 31 sends an authentication start control signal containing the telephone number data of the camera-equipped digital mobile phone 31 (start of user authentication in the setting data management server 16) based on the user's instruction. Is generated, and transmitted to the setting data management server 16 via the nearest base station 12, the public line network 13, the access server 14, and the network 15.
[0174]
Upon receiving the authentication start control signal in step S231, the setting data management server 16 determines that the telephone number of the camera-equipped digital mobile phone 31 included in the authentication start control signal in step S232 is registered in the database 304. It authenticates whether it matches (registered) with the telephone number 31. When it is verified that the telephone number of the digital cellular phone with camera 31 included in the authentication start control signal is registered, the setting data management server 16 determines in step S233 that the setting data downloadable control signal (the setting data management server 16 , A control signal indicating that the registered setting data can be downloaded, and transmits it to the camera-equipped digital mobile phone 31 via the network 15.
[0175]
The digital mobile phone with camera 31 that has received the setting data downloadable control signal in step S203 displays a setting data download start message (described later with reference to FIG. 24) in step S204. The user instructs to start downloading the setting data based on the displayed setting data download start message. In step S205, the camera-equipped digital mobile phone 31 generates a setting data download start control signal (a control signal indicating the start of setting data download) based on the user's instruction, and sends the setting data management server via the network 15. 16 to be transmitted.
[0176]
The setting data management server 16 that has received the setting download start control signal in step S234 reads the registered setting data in step S235. In step S236, the setting data management server 16 transmits the read setting data to the camera-equipped digital mobile phone 31 via the network 15.
[0177]
In step S206, upon receiving the setting data, the camera-equipped digital mobile phone 31 registers the setting data in the storage unit 264 or the memory stick 223. When the transmission of the read setting data is completed, the setting data management server 16 determines in step S237 that the setting data transmission completion control signal (control signal indicating that the transmission of the setting data from the setting data management server 16 is completed). Is generated and transmitted to the camera-equipped digital mobile phone 31 via the network 15.
[0178]
In step S208, the digital mobile phone with camera 31 that has received the setting data transmission completion control signal in step S207 displays a setting data download completion message (described later with reference to FIG. 25).
[0179]
In this way, the setting data is stored in the camera-equipped digital mobile phone 31, and the setting data distribution processing is performed by the setting data management server 16 in response to this processing.
[0180]
Next, the details of the setting data storage processing (the processing of steps S201 to S280 in FIG. 21) in the camera-equipped digital mobile phone 31 in FIG. 2 will be described with reference to the flowchart in FIG. The setting data storage processing in the camera-equipped digital mobile phone 31 is started when the user instructs to start the storage processing.
[0181]
In step S261, the main control unit 250 of the camera-equipped digital mobile phone 31 controls the LCD control unit 255 to cause the liquid crystal display 218 to display an authentication start message 631 as shown in FIG.
[0182]
The authentication start message 631 in FIG. 23 has a message display column 641, a command display column 642 for displaying a command, and a command display column 643.
[0183]
In the case of the example of FIG. 23, the message display field 641 displays “Start authentication?” As a message. Thus, it is understood that the user can start authentication between the camera-equipped digital mobile phone 31 and the setting data management server 16 by the subsequent processing.
[0184]
The command display column 642 and the command display column 643 display icons “Yes” and “No”, respectively. By operating the operation keys 219 and the jog dial 222, the user can select the icon of the command of “No” in the command display column 643 and cancel the start of the authentication. By operating the operation keys 219 and the jog dial 222, the user can select the icon of the “Yes” command in the command display field 642 and instruct the start of authentication.
[0185]
Therefore, in step S262, the main control unit 250 determines whether or not the start of authentication has been instructed, and operates the operation key 219 or the jog dial 222 to change the icon of the “No” command in the command display field 643. When selected, it is determined that the start of the authentication is not instructed, the start of the authentication is canceled, and the setting data storage processing ends.
[0186]
If the user selects the “Yes” command icon in the command display field 642 by operating the operation keys 219 or the jog dial 222, the start of authentication is commanded in step S262, and it is determined that there is no other command. At this time, in step S263, the main control unit 250 sends the telephone number of the camera-equipped digital mobile phone 31 stored in the storage unit 264 in advance (for example, a unique phone number of the camera-equipped digital mobile phone 31 such as “09072398119”). Number).
[0187]
In step S264, the main control unit 250 sets the authentication start control signal (the authentication between the camera-equipped digital mobile phone 31 and the setting data management server 16) including the read telephone number data of the camera-equipped digital mobile phone 31. Is generated, and supplied to the modulation / demodulation circuit unit 258. The modulation / demodulation circuit unit 258 performs a spread spectrum process on the authentication start control signal supplied from the main control unit 250 and supplies the signal to the transmission / reception circuit unit 262. The transmission / reception circuit unit 262 performs a digital-analog conversion process and a frequency conversion process on the authentication start control signal supplied from the modulation / demodulation circuit unit 258, and then transmits the signal to the setting data management server 16 via the antenna 214.
[0188]
In step S265, the main control unit 250 receives the control signal for allowing the transmission / reception circuit unit 262 to download the setting data (the control signal generated in the process of step S303 in FIG. 27) from the setting data management server 16 via the network 15. It is determined whether or not.
[0189]
If it is determined in step S265 that the setting data download control signal has been received from the setting data management server 16, the main control unit 250 controls the LCD control unit 255 to start setting data download as shown in FIG. The message 671 is displayed on the liquid crystal display 218.
[0190]
The setting data download start message 671 in FIG. 24 has a message display column 681 and a command display column 682 for displaying a command.
[0191]
In the example of FIG. 24, the message display column 671 displays "Start download of setting data" as a message. Accordingly, it is understood that the user can start downloading the setting data from the setting data management server 16 by the subsequent processing.
[0192]
The command display column 682 displays an icon of a command “OK”. The user can instruct the start of the download of the setting data by selecting the “OK” command icon in the command display field 682.
[0193]
When the user selects the “OK” command icon in the command display field 682, the main control unit 250 generates a setting data download start control signal (a control signal indicating the start of setting data download) in step S267, The signal is supplied to the modulation / demodulation circuit unit 258. The modulation / demodulation circuit unit 258 performs a spread spectrum process on the setting data download start control signal supplied from the main control unit 250 and supplies the signal to the transmission / reception circuit unit 262. The transmission / reception circuit unit 262 performs a digital-to-analog conversion process and a frequency conversion process on the setting data download start control signal supplied from the modulation / demodulation circuit unit 258, and then transmits the signal to the setting data management server 16 via the antenna 214.
[0194]
In step S268, the transmission / reception circuit unit 262 sends the setting data (“suspension”, “cushion”, and “cushion” in the third to sixth columns in the example of FIG. 20) from the setting data management server 16 via the network 15. The setting data of “air conditioner” is received.
[0195]
In step S269, the main control unit 250 causes the transmission / reception circuit unit 262 to receive the setting data transmission completion control signal (the control signal generated in the process of step S308 in FIG. 27) from the setting data management server 16 via the network 15. It is determined whether or not. If it is determined in step S269 that the setting data transmission completion control signal has not been received from the setting data management server 16, the process waits until a setting data transmission completion control signal is received from the setting data management server 16.
[0196]
If it is determined in step S269 that the transmission / reception circuit unit 262 has received the setting data transmission completion control signal from the setting data management server 16, the main control unit 250 stores the received setting data in the storage unit 264, and sets the LCD control The control unit 255 controls the liquid crystal display 218 to display a setting data download completion message 711 as shown in FIG.
[0197]
The setting data download completion message 711 in FIG. 25 has a message display column 721 and a command display column 722 for displaying a command.
[0198]
In the case of the example of FIG. 25, the message display field 711 displays a message "Setting data download completed". This allows the user to know that the download of the setting data from the setting data management server 16 has been completed.
[0199]
The command display column 722 displays an icon of a command “OK”. The user can instruct the completion of the download of the setting data by selecting the “OK” command icon in the command display field 722.
[0200]
When the user selects the “OK” command icon in the command display field 722, the setting data storage processing ends.
[0201]
On the other hand, when it is determined in step S265 that the setting data downloadable control signal has not been received from the setting data management server 16 (that is, the setting data download disable control signal from the setting data management server 16 (the processing in step S309 in FIG. 27). Is determined to have been received from the setting data management server 16 indicating that downloading of the setting data is not possible), the LCD control unit 255 is controlled to control the LCD control unit 255 as shown in FIG. Is displayed on the liquid crystal display 218.
[0202]
The setting data download impossible message 751 in FIG. 26 has a message display column 761 and a command display column 762 for displaying a command.
[0203]
In the case of the example of FIG. 26, the message “Setting data cannot be downloaded” is displayed in the message display field 751 as a message. Thus, the user can understand that the setting data cannot be downloaded from the setting data management server 16 by the subsequent processing.
[0204]
The command display column 762 displays an icon of a command “return”. The user can cancel the download of the setting data by selecting the icon of the “return” command in the command display column 762.
[0205]
When the user selects the “return” command icon in the command display field 762, the setting data storage processing is canceled and the setting data storage processing ends.
[0206]
As described above, the user can acquire the setting data created in advance by the personal computer 17 from the setting data management server 16 and store it.
[0207]
At this time, the user authentication is performed between the camera-equipped digital mobile phone 31 and the setting data management server 16, so that unauthorized access to the setting data management server 16 by another user who accesses the setting data management server 16 prevents the setting data of the user from being illegally downloaded. Can be prevented. At this time, since the telephone number is used as the user ID, the user can easily and quickly download the setting data.
[0208]
Next, the details of the setting data distribution processing (the processing of steps S231 to S237 in FIG. 21) in the setting data management server 16 corresponding to the setting data storage processing in FIG. 22 will be described with reference to the flowchart in FIG.
[0209]
In step S301, the control unit 302 of the setting data management server 16 sends an authentication start control signal from the camera-equipped digital mobile phone 31 through the network 15 (the camera-equipped digital mobile phone 31 by the process of step S261 in FIG. 22). Is determined. As described above, the authentication start control signal includes data of the telephone number of the camera-equipped digital mobile phone 31 (for example, a unique phone number of the camera-equipped digital mobile phone 31 such as "09072398119"). I have.
[0210]
If it is determined in step S301 that an authentication start control signal has not been received from the camera-equipped digital mobile phone 31, the process waits until an authentication start control signal is received from the camera-equipped digital mobile phone 31.
[0211]
If it is determined in step S301 that the authentication start control signal has been received from the camera-equipped digital mobile phone 31, the control unit 302 determines in step S302 that the telephone number of the camera-equipped digital mobile phone 31 included in the received authentication start control signal ( For example, the phone number of the camera-equipped digital mobile phone 31 such as “09072398119” is registered as the phone number of the camera-equipped digital mobile phone 31 registered in the database 304 (in the example of FIG. 20, the second line). Then, it is authenticated whether or not “09072398119” of the eye matches (registered) “090829293263” on the third line.
[0212]
If it is verified in step S302 that the telephone number of the camera-equipped digital mobile phone 31 included in the authentication start control signal is registered, the control unit 302 determines in step S303 that the setting data downloadable control signal (the setting data management server 16 A control signal indicating that the setting data can be downloaded from the server is generated and supplied to the transmission / reception unit 301 of the setting data management server 16. The transmission / reception section 301 transmits the setting data downloadable control signal supplied from the control section 302 to the camera-equipped digital mobile phone 31 via the network 15.
[0213]
In step S304, the control unit 302 transmits a setting data download start control signal from the camera-equipped digital mobile phone 31 via the network 15 to the setting data download start control signal (the control generated in the camera-equipped digital mobile phone 31 by the process of step S264 in FIG. 22). Signal) is received. If it is determined in step S304 that the setting data download start control signal has not been received from the camera-equipped digital mobile phone 31, the process waits until a setting data download start control signal is received from the camera-equipped digital mobile phone 31.
[0214]
If it is determined in step S304 that the setting data download start control signal has been received from the camera-equipped digital mobile phone 31, the control unit 302 determines in step S305 the telephone number of the camera-equipped digital mobile phone 31 included in the authentication start control signal. Corresponding setting data (in the example of FIG. 20, “09072398119” in the second row, or “Suspension” and “Cushion” in the third to fifth columns corresponding to “090829293263” in the third row) , And setting data of the “air conditioner”) are read from the database 304 and supplied to the transmitting / receiving unit 301.
[0215]
In step S306, the transmission / reception unit 301 transmits the setting data supplied from the control unit 302 to the camera-equipped digital mobile phone 31 via the network 15.
[0216]
In step S307, the control unit 302 determines whether the transmission of the setting data has been completed. If it is determined in step S307 that the transmission of the setting data has not been completed, the process waits until the transmission of the setting data has been completed.
[0219]
If it is determined in step S307 that the transmission of the setting data has been completed, the control unit 302 determines in step S308 that the control unit 302 has transmitted the setting data transmission completion control signal (the transmission of the setting data from the setting data management server 16 has been completed). Is generated and supplied to the transmission / reception unit 301. The transmission / reception unit 301 transmits the setting data transmission completion control signal supplied from the control unit 302 to the camera-equipped digital mobile phone 31 via the network 15.
[0218]
If it is determined in step S302 that the telephone number of the camera-equipped digital mobile phone 31 included in the authentication start control signal does not match, the control unit 302 determines in step S309 that the setting data cannot be downloaded control signal (from the setting data management server 16). (A control signal indicating that the setting data cannot be downloaded) is supplied to the transmission / reception unit 301. The transmission / reception unit 301 transmits the setting data download disable control signal supplied from the control unit 302 to the camera-equipped digital mobile phone 31 via the network 15.
[0219]
As described above, the setting data management server 16 transmits the setting data created and registered in advance by the user to the digital mobile phone with camera 31 owned by the user.
[0220]
When the setting of each part of the vehicle 11 is updated by the setting data, the user then inputs the telephone number of the camera-equipped digital mobile phone 31 to the setting device 101 of the vehicle 11 (for example, “09072398119” or the like). The phone number unique to the camera-equipped digital mobile phone 31 is stored in advance. Thereafter, the user transmits the setting data from the camera-equipped digital mobile phone 31 to the setting device 101 of the automobile 11. The outline of the setting data transmission processing in the camera-equipped digital mobile phone 31 in FIG. 2 and the setting data reception processing in the setting device 101 in FIG. 3 corresponding to the processing will be described with reference to the flowchart in FIG.
[0221]
Details of the processing of each apparatus in the flowchart of FIG. 28 will be described later with reference to FIGS. 29 and 34. The setting data transmission process in the camera-equipped digital mobile phone 31 is started when the user mounts the camera-equipped digital mobile phone 31 on the holder 56 of the automobile 11.
[0222]
In step S331, the camera-equipped digital mobile phone 31 displays an authentication start message (described later with reference to FIG. 30). The user instructs the start of authentication based on the displayed authentication start message. In step S332, the camera-equipped digital mobile phone 31 transmits, based on the user's instruction, an authentication start control signal (the camera-equipped digital mobile phone 31 and the setting device 101) including the telephone number data of the camera-equipped digital mobile phone 31. And a control signal indicating the start of user authentication between the setting device 101 and the setting device 101 via the connection unit.
[0223]
The setting device 101, which has received the authentication start control signal in step S361, transmits the telephone number of the camera-equipped digital mobile phone 31 included in the authentication start control signal in step S362 to the camera-equipped digital mobile phone 31 registered in the database 304. Authenticates whether the phone number matches (is registered). If it is authenticated that the telephone number of the camera-equipped digital mobile phone 31 included in the authentication start control signal is complete, the setting device 101 transmits a setting data receivable control signal (setting data can be received by the setting device 101). Is generated, and transmitted to the camera-equipped digital mobile phone 31 via the connection unit.
[0224]
In step S334, the camera-equipped digital mobile phone 31 that has received the setting data receivable control signal in step S333 displays a setting data transmission start message (described later with reference to FIG. 31). The user instructs transmission of the setting data based on the displayed setting data transmission start message. In step S335, the camera-equipped digital mobile phone 31 reads the setting data (setting data stored in the camera-equipped digital mobile phone 31 by the process of step S269 in FIG. 22).
[0225]
In step S336, the camera-equipped digital mobile phone 31 transmits the read setting data to the setting device 101 via the connection unit. In step S364, the setting device 101 receives setting data from the camera-equipped digital mobile phone 31 via the connection unit.
[0226]
In step S337, the camera-equipped digital mobile phone 31 generates a setting data transmission completion control signal (a control signal indicating that the transmission of the setting data from the camera-equipped digital mobile phone 31 has been completed), and performs the setting via the connection unit. Transmit to the device 101. The setting device 101 that has received the setting data transmission completion control signal in step S365 stores the setting data received in step S366 (if the setting data is already stored, the setting data is updated). In step S367, the setting device 101 displays a setting data reception completion message (described later with reference to FIG. 35).
[0227]
In this way, the setting data transmitted from the camera-equipped digital mobile phone 31 of FIG. 2 is received by the setting device 101 and registered.
[0228]
With reference to the flowchart in FIG. 29, the setting data transmission processing (the processing in steps S331 to S337 in FIG. 28) in the camera-equipped digital mobile phone 31 will be described. Note that this setting data transmission process is started when the user mounts (connects) the camera-equipped digital mobile phone 31 to the holder 56 of the automobile 11.
[0229]
In step S401, the main controller 250 of the camera-equipped digital mobile phone 31 controls the LCD controller 255 to display an authentication start message 781 as shown in FIG.
[0230]
The authentication start message 781 in FIG. 30 has a message display column 791, a command display column 792 for displaying commands, and a command display column 793.
[0231]
In the example of FIG. 30, the message display column 791 displays "Start authentication?" As a message. Thus, it is understood that the user can start authentication between the digital mobile phone with camera 31 and the setting device 101 by the subsequent processing.
[0232]
The command display column 792 and the command display column 793 display icons “Yes” and “No”, respectively. The user can cancel the start of authentication by operating the operation key 219 or the jog dial 222 to select the icon of the command “No” in the command display field 793. Further, the user can operate the operation keys 219 and the jog dial 222 to select the command icon of “Yes” in the command display field 792 and instruct the start of authentication.
[0233]
In step S402, the main control unit 250 determines whether the user has instructed to start authentication. If the user selects the “No” command icon in the command display field 793 by operating the operation key 219 or the jog dial 222, the main control unit 250 determines in step S402 that the start of authentication is not instructed, and The start is canceled, and the setting data transmission process ends.
[0234]
If the user operates the operation key 219 or the jog dial 222 to select the “Yes” command icon in the command display field 792, it is determined in step S402 that the start of authentication has been commanded. At this time, in step S403, the main control unit 250 reads the telephone number of the camera-equipped digital mobile phone 31 from the storage unit 264 as the user ID.
[0235]
In step S404, the main control unit 250 includes the read data of the telephone number of the camera-equipped digital mobile phone 31 (for example, a unique phone number of the camera-equipped digital mobile phone 31 such as "09072398119"). An authentication start control signal (a control signal indicating the start of user authentication between the camera-equipped digital mobile phone 31 and the setting device 101) is generated and supplied to the modem circuit 258. The modulation / demodulation circuit unit 258 performs a spread spectrum process on the authentication start control signal supplied from the main control unit 250 and supplies the signal to the transmission / reception circuit unit 262. The transmission / reception circuit unit 262 performs digital-analog conversion processing and frequency conversion processing on the authentication start control signal supplied from the modulation / demodulation circuit unit 258, and then transmits the signal to the setting device 101 via the connection unit.
[0236]
In step S405, the main control unit 250 outputs a control signal (control signal generated in the setting device 101 by the processing of step S453 in FIG. 34) from the setting device 101 to the transmission / reception circuit unit 262 via the connection unit. It is determined whether or not it has been received. If it is determined in step S405 that the setting data receivable control signal has not been received from the setting device 101, the process waits until a setting data receivable control signal is received from the setting device.
[0237]
If it is determined in step S405 that a setting data receivable control signal has been received from the setting device 101, the main control unit 250 controls the LCD control unit 255 to output a setting data transmission start message 801 as shown in FIG. Is displayed on the liquid crystal display 218.
[0238]
The setting data transmission start message 801 in FIG. 31 has a message display column 811 and a command display column 812 for displaying a command.
[0239]
In the example of FIG. 31, the message display column 811 displays "Starting transmission of setting data" as a message. Thus, it is understood that the user can start transmitting the setting data from the camera-equipped digital mobile phone 31 to the setting device 101 by the subsequent processing.
[0240]
The command display column 812 displays an icon of a command “OK”. The user can instruct the start of setting data transmission by selecting the “OK” command icon in the command display field 812.
[0241]
The main control unit 250 determines in step S406 whether transmission of setting data has been instructed. If the user does not select the “OK” command icon in the command display field 812, the main control unit 250 determines in step S407 that the instruction to transmit the setting data has not been given, and the processing is executed by the user. It waits until the icon of the “OK” command in the column 812 is selected.
[0242]
When the user selects the “OK” command icon in the command display field 812, the main control unit 250 determines in step S407 that an instruction to transmit the setting data has been given, and the setting data (FIG. The setting data stored in the camera-equipped digital mobile phone 31 is read out by the processing in step S269, and is supplied to the modulation / demodulation circuit unit 258. The modulation / demodulation circuit unit 258 performs a spread spectrum process on the setting data supplied from the main control unit 250 and supplies the setting data to the transmission / reception circuit unit 262.
[0243]
In step S409, the transmission / reception circuit unit 262 performs digital-analog conversion processing and frequency conversion processing on the setting data supplied from the modulation / demodulation circuit unit 258, and then starts transmission of the setting data to the setting device 101 via the connection unit.
[0244]
In step S410, the main control unit 250 determines whether the transmission / reception circuit unit 262 has completed the transmission of the setting data. If it is determined in step S410 that the transmission of the setting data has not been completed, the process waits until the transmission of the setting data is completed.
[0245]
If it is determined in step S410 that the transmission of the setting data has been completed, the main control unit 250 transmits a setting data transmission completion control signal (a control signal indicating that the transmission of the setting data from the camera-equipped digital mobile phone 31 has been completed). Is generated and supplied to the modulation / demodulation circuit unit 258. The modulation / demodulation circuit unit 258 performs a spread spectrum process on the setting data transmission completion control signal supplied from the main control unit 250, and supplies the result to the transmission / reception circuit unit 262.
[0246]
In step S411, the transmission / reception circuit unit 262 performs a digital-to-analog conversion process and a frequency conversion process on the setting data transmission completion control signal supplied from the modulation / demodulation circuit unit 258, and then transmits the signal to the setting device 101 via the connection unit.
[0247]
In step S412, the main control unit 250 controls the LCD control unit 255 to cause the liquid crystal display 218 to display a setting data transmission completion message 841 as shown in FIG.
[0248]
The setting data transmission completion message 841 in FIG. 32 has a message display column 851 and a command display column 852 for displaying a command.
[0249]
In the example of FIG. 32, the message display column 851 displays "Setting data transmission completed" as a message. This allows the user to know that the transmission of the setting data to the setting device 101 has been completed.
[0250]
The command display column 852 displays an icon of a command “OK”. The user can instruct the completion of the transmission of the setting data by selecting the “OK” command icon in the command display field 852.
[0251]
When the user selects the “OK” command icon in the command display field 852, the setting data transmission processing ends.
[0252]
On the other hand, when it is determined in step S405 that the setting data receivable control signal (the control signal generated in the setting device 101 by the process of step S453 in FIG. 34) has not been received from the setting device 101, that is, When receiving a setting data non-reception control signal (a control signal generated by the setting device 101 in the process of step S458 in FIG. 34 and indicating that the setting device 101 cannot receive setting data), the main control is performed. The unit 250 controls the LCD control unit 255 to cause the liquid crystal display 218 to display a setting data transmission impossible message 871 as shown in FIG.
[0253]
33 has a message display column 881 and a command display column 882 for displaying a command.
[0254]
In the case of the example of FIG. 33, the message “Setting data cannot be transmitted” is displayed in the message display column 881 as a message. As a result, the user can understand that the setting data cannot be transmitted to the setting device 101 by the subsequent processing.
[0255]
The command display column 882 displays an icon of a command “return”. The user can cancel the transmission of the setting data to the setting device 101 by selecting the icon of the “return” command in the command display column 882.
[0256]
When the user selects the “return” command icon in the command display field 882, the setting data transmission processing is canceled and the setting data transmission processing ends.
[0257]
Next, the setting data reception processing (the processing of steps S361 to S367 in FIG. 28) in the setting device 101 corresponding to the setting data transmission processing in FIG. 29 will be described with reference to the flowchart in FIG.
[0258]
In step S451, the control unit 132 of the setting device 101 transmits the authentication start control signal from the digital mobile phone 31 with camera to the transmission / reception unit 131 of the setting device 101 via the connection unit (the digital mobile phone with camera by the process of step S404 in FIG. 29). It is determined whether or not the control signal (generated by the telephone 31) has been received. As described above, the authentication start control signal includes data of the telephone number (for example, a unique telephone number of the digital cellular phone 31 such as “09072398119”) in the digital cellular phone 31 with a camera. I have.
[0259]
If it is determined in step S451 that the authentication start control signal has not been received from the camera-equipped digital mobile phone 31, the process waits until an authentication start control signal is received from the camera-equipped digital mobile phone 31.
[0260]
If it is determined in step S451 that the authentication start control signal has been received from the camera-equipped digital mobile phone 31, the control unit 132 determines in step S452 that the telephone number of the camera-equipped digital mobile phone 31 included in the received authentication start control signal has been received. For example, the phone number of the camera-equipped digital mobile phone 31 such as “09072398119” or the like is stored in the storage unit 133 (for example, stored in advance by the user. The authentication unit 133 authenticates whether or not it matches (registered) with the camera-equipped digital mobile phone 31 (such as “09072398119”).
[0261]
If it is determined in step S452 that the telephone number of the camera-equipped digital mobile phone 31 included in the authentication start control signal has been registered, the control unit 132 determines in step S453 that the setting data receivable control signal (the setting device 101 A control signal indicating that the setting data can be received) is generated and supplied to the transmission / reception unit 131. The transmission / reception unit 131 transmits the setting data receivable control signal supplied from the control unit 132 to the camera-equipped digital mobile phone 31 via the connection unit.
[0262]
In step 454, the transmission / reception unit 131 receives the setting data from the camera-equipped digital mobile phone 31 via the connection unit.
[0263]
In step S455, the main control unit 250 transmits the setting data transmission completion control signal from the digital cellular phone 31 with camera via the connection unit to the transmission / reception unit 131 (generated in the digital cellular phone 31 with camera by the process of step S411 in FIG. 29). Control signal) is received. If it is determined in step S455 that the setting data transmission completion control signal has not been received from the camera-equipped digital mobile phone 31, the process waits until the setting data transmission completion control signal is received from the camera-equipped digital mobile phone 31.
[0264]
If it is determined in step S455 that the setting data transmission completion control signal has been received from the camera-equipped digital mobile phone 31, the control unit 132 stores the received setting data in the storage unit 134 in step S456 (the setting data has already been stored). If so, update its configuration data). In step S457, the control unit 132 controls the LCD control unit 135 of the setting device 101 to cause the liquid crystal display 52 to display a setting data reception completion message 911 as shown in FIG.
[0265]
The setting data reception completion message 911 in FIG. 35 has a message display column 921 and a command display column 922 for displaying a command.
[0266]
In the example of FIG. 35, the message display field 921 displays a message “Setting data reception completed” as a message. This allows the user to know that the reception of the setting data from the camera-equipped digital mobile phone 31 has been completed.
[0267]
The command display field 922 displays an icon of a command “OK”. The user can instruct the completion of the reception of the setting data from the camera-equipped digital mobile phone 31 by selecting the “OK” command icon in the command display field 922.
[0268]
When the user selects the “OK” command icon in the command display field 922, the setting data receiving process ends.
[0269]
If it is verified in step S452 that the telephone number of the camera-equipped digital mobile phone 31 included in the authentication start control signal is not registered, the control unit 132 determines in step S458 that the setting data cannot be received control signal (in the setting device 101). A control signal indicating that the setting data cannot be received) is generated and supplied to the transmission / reception unit 131. The transmission / reception unit 131 transmits the setting data non-reception control signal supplied from the control unit 132 to the camera-equipped digital mobile phone 31 via the connection unit.
[0270]
As described above, the user automatically sets the setting data (FIG. 20) of each part of the automobile 11 to the setting device 101 by simply performing the simple operation of mounting the camera-equipped digital mobile phone 31 in the holder 56. You can transfer and set. At this time, since the telephone number is used for the authentication, the user does not need to input the user ID, and the setting of the setting data can be completed easily and quickly. As a result, the vehicle 11 can be immediately set to a desired state.
[0271]
In the embodiment of the present invention, transmission and reception between the camera-equipped digital mobile phone 31 and the setting device 101 are performed through the connection portion provided in the holder 56. For example, an adapter is used. The communication may be performed via various wired connections, or may be performed via a wireless connection using Bluetooth or the like.
[0272]
As described above, when the camera-equipped digital mobile phone 31 is mounted on the holder 56 and the setting data is transferred, the setting device 101 executes the setting process of FIG.
[0273]
In step S531, the control unit 132 of the setting device 101 supplies the values of the spring constant, the damping characteristic, and the vehicle height in the setting data to the suspension control unit 102. The suspension control unit 102 generates a spring constant control signal, a damping characteristic control signal, and a vehicle height control signal based on the suspension control signal (value) supplied from the setting device 101, and supplies the generated signal to the suspension 103. The suspension 103 sets the state of each part of the suspension 103 based on the spring constant control signal, the damping characteristic control signal, and the vehicle height control signal supplied from the suspension control unit 102. Thus, in the case of the example in the second row of FIG. 20, the “spring constant” is “9.5”, the “damping characteristic” is “type A2”, and the “vehicle height” is “10.0”. Then, the suspension 103 is set.
[0274]
When the setting of the suspension 103 is completed, the suspension control unit 102 generates a suspension setting completion control signal and supplies it to the setting device 101. In step S532, the control unit 132 receives the information and confirms the setting.
[0275]
In step S533, the control unit 132 supplies the horn control unit 104 with the type and volume of the sound in the setting data. The horn control unit 104 generates a sound type control signal and a volume control signal based on the horn control signal (value) supplied from the setting device 101, and supplies them to the horn 105. The horn 105 sets the state of each part of the horn 105 based on the sound type control signal and the volume control signal supplied from the horn control unit 104. Thus, in the case of the example in the second row of FIG. 20, the horn 103 is set such that the “type of sound” is “type B3” and the “volume” is “5.0”.
[0276]
When the setting of the horn 105 is completed, the horn control unit 104 generates a horn setting completion control signal and supplies it to the setting device 101. The control unit 132 receives this and confirms the setting in step S534.
[0277]
In step S535, the control unit 132 supplies the values of the temperature, the humidity, and the air volume of the setting data to the air conditioner control unit 106. The air conditioner control unit 106 generates a temperature control signal, a humidity control signal, and an air volume control signal based on the air conditioner control signal (value) supplied from the setting device 101, and supplies the generated signal to the air conditioner 107. The air conditioner 107 sets each part of the air conditioner 107 based on the temperature control signal, the humidity control signal, and the air volume control signal supplied from the air conditioner control unit 106. Thus, in the case of the example in the second row of FIG. 20, the “temperature” is “7.0”, the “humidity” is “9.0”, and the “air volume” is “7.5”. The air conditioner 104 is set.
[0278]
When the setting of the air conditioner 107 is completed, the air conditioner control unit 106 generates an air conditioner setting completion control signal and supplies it to the setting device 101. The control unit 132 receives this in step S536, and confirms the setting.
[0279]
As described above, the user can update the settings of the vehicle 11 based on the setting data created in advance. Thereby, even if the car 11 is shared by a plurality of users, the user simply mounts his / her camera-equipped digital mobile phone 31 on the holder 56 and, based on the setting data created in advance, The state of the car 11 can be set and updated to suit his / her preference. Further, the user only needs to create the setting data of the car 11 once, and even if the car is changed to another car thereafter, the other car changed based on the created setting data also matches the user's preference. Can be set. Therefore, the operability of the vehicle 11 can be improved.
[0280]
The order of the processes of steps S531 to S536 may be changed, or the processes may be executed in parallel.
[0281]
In the above description, the setting data for setting the state of each part of the vehicle 11 is created as update information. However, personal information of the user (for example, music to be played when riding the vehicle 11, a telephone directory, an address book, A favorite store, schedule book, etc.) may be created as setting data (update information) to update the settings.
[0282]
In this case, the control unit 132 controls the LCD control unit 135 to cause the liquid crystal display 52 to display a display screen 981 based on the setting data regarding the personal information, as shown in FIG.
[0283]
The display screen 981 in FIG. 37 has display columns 991 to 994, and displays “phone book”, “favorite store list”, “address book”, and “schedule book”, respectively.
[0284]
Thereby, even if the car 11 is shared by a plurality of users, the user simply mounts his / her camera-equipped digital mobile phone 31 on the holder 56 and, based on the setting data created in advance, You can set and update your personal information.
[0285]
In the above description, the camera-equipped digital mobile phone 31 is used to receive the setting data from the setting data management server 16. However, the digital mobile phone 31 is provided in the automobile 11 and can be transmitted and received with the setting data management server 16. As long as it is possible, for example, an ETC on-vehicle device mounted on the vehicle 11 may be used, or a transceiver provided in the setting device 101 of the vehicle 11 itself may be used. Also, when receiving the setting data from the setting data management server 16, VICS (Vehicle Information and Communication System) or ATIS (Advanced Traffic Information) is used.
An existing communication system such as Service) may be used.
[0286]
In the setting data management server 16, one update information is managed for one user, but a plurality of update information may be managed for one user. Thus, when the setting device 101 updates the setting of the vehicle 11 based on the setting data, the user selectively selects the vehicle 11 based on any one of the plurality of setting data (for example, three setting data). Can be set.
[0287]
Further, in the above description, the present invention is applied to the setting of the state of each part of the vehicle, but may be applied to the setting of the state of various electronic devices.
[0288]
Further, between the personal computer 17 and the setting data management server, user authentication is performed by allowing the user to input a password, and the user is authenticated between the camera-equipped digital mobile phone 31 and the setting data management server 16 or the camera-equipped digital mobile phone 31. The user is authenticated by the telephone number of the camera-equipped digital mobile phone 31 owned by the user between the and the setting device 101. However, it is possible to authenticate whether or not the user is a legitimate user. For example, biometric authentication such as fingerprint authentication may be used.
[0289]
Further, user authentication may be performed using an IC card, or setting data created in advance in an IC card or the like may be written in advance, and the IC card may be directly mounted on the setting device 101 so that the setting device 101 The setting data may be transmitted to 101.
[0290]
FIG. 38 shows the internal configuration of an IC card 1001 used in such a case. The IC card 1001 includes a communication unit 1011, a control unit 1012, and a storage unit 1013.
[0291]
The communication unit 1011 communicates with an IC card R / W unit (not shown) provided in the setting device 101. The communication unit 131 receives the data transmitted from the IC card R / W unit, and when the received data is modulated using, for example, ASK (Amplitude Shift Keying) or BPSK (Binary Phase Shift Keying), Based on the method, the received data is demodulated and supplied to the control unit 1012, and the data supplied from the control unit 1012 is modulated by the ASK or BPSK method and transmitted to the IC card R / W unit.
[0292]
The control unit 1012 controls various processes according to the command supplied from the communication unit 1011, reads data (including setting data and telephone number) recorded in the storage unit 1013 as necessary, and The data is transmitted to the IC card R / W unit via the communication unit 131, or conversely, the transmitted setting data is written.
[0293]
The storage unit 1013 has a memory area in which an IC card number, setting data, and the like are recorded.
[0294]
When setting data is previously written in the IC card, a USB (Universal Serial Bus) terminal of an IC card R / W unit (not shown) is connected to the camera-equipped digital mobile phone 31 in which the setting data is stored in advance by the setting data storing process of FIG. By connecting, the setting data can be stored in the IC card 1001. In this case, in order to be able to identify which user the setting data stored in the IC card 1001 is, the camera-equipped digital mobile phone 31 is executed by the setting data storing process of FIG. The "telephone number" in the second column shown in FIG. 20 is stored in advance, and the "telephone number" is stored in the IC card 1001 together with the setting data.
[0295]
When updating the setting of each part of the automobile 11 based on the setting data written in the IC card, the user attaches the IC card to an IC card R / W part (not shown) provided in the setting device 101 of FIG. Thus, the setting data written in the IC card is read out and stored in the setting device 101.
[0296]
The flowchart in FIG. 38 illustrates another setting data reception process in the setting device 101 when the IC card 1001 is attached to the setting device 101. This process is started when the user mounts the IC card 1001 on an IC card R / W unit (not shown) provided in the setting device 101.
[0297]
In step S <b> 601, the control unit 132 of the setting device 101 uses the IC card 1001 communication unit 1011 to record data (“telephone number” data) in the IC card R / W unit of the setting device 101. Is read. That is, the IC card R / W unit transmits a read instruction to the control unit 1012 of the IC card 1001 via the communication unit 1011 of the IC card 1001. The control unit 1012 of the IC card 1001 reads out the data (data of “telephone number”) recorded in the storage unit 1013 based on this instruction, and reads out the IC card R / W via the communication unit 1011 of the IC card 1001. Supply to the department. In step S602, the control unit 132 of the setting device 101 acquires data (data of “telephone number”) from the IC card R / W unit.
[0298]
In step S603, the control unit 132 determines that the “telephone number” included in the acquired data is a telephone number stored in the storage unit 134 (for example, a unique number of the camera-equipped digital mobile phone 31 such as “09072398119” or the like). (Authentication unit 133).
[0299]
If the “telephone number” included in the data acquired in step S603 matches the telephone number stored in storage unit 134 (for example, a unique telephone number of camera-equipped digital mobile phone 31 such as “09072398119”). If the authentication is successful, the control unit 132 causes the IC card R / W unit to read the setting data recorded in the storage unit 1013 via the communication unit 1011 of the IC card 1001 in step S604.
[0300]
In step S605, the control unit 132 acquires setting data from the IC card R / W unit. In step S606, the control unit 132 causes the storage unit 134 to store the acquired setting data. In step S607, the control unit 132 controls the LCD control unit 135 to cause the liquid crystal display 52 to display a setting data acquisition completion message 1051 as shown in FIG.
[0301]
The setting data acquisition completion message 1051 in FIG. 39 has a message display column 1061 and a command display column 1062 for displaying a command.
[0302]
In the case of the example of FIG. 39, the message “Setting data acquisition is completed” is displayed in the message display column 1051 as a message. This allows the user to know that the acquisition of the setting data from the IC card 1001 has been completed.
[0303]
The command display column 1062 displays an icon of a command “OK”. The user can instruct the completion of the acquisition of the setting data by selecting the “OK” command icon in the command display field 1062.
[0304]
When the user selects the “OK” command icon in the command display field 1062, the setting data receiving process ends.
[0305]
If it is determined in step S603 that the “telephone number” included in the acquired data does not match the registered one, the control unit 132 executes an error process in step S608, and executes the LCD control in step S609. The unit 135 is controlled to display a setting data acquisition impossible message 1101 on the liquid crystal display 52.
[0306]
The setting data acquisition impossible message 1101 in FIG. 41 has a message display column 1111 and a command display column 1112 for displaying a command.
[0307]
In the case of the example in FIG. 41, the message “Setting data cannot be obtained” is displayed in the message display field 1101 as a message. Thus, the user can understand that the setting data cannot be obtained from the IC card 1001 by the subsequent processing.
[0308]
The command display column 1112 displays an icon of a command “return”. The user can cancel the acquisition of the setting data by selecting the icon of the “return” command in the command display column 1112.
[0309]
If the user selects the “return” command icon in the command display column 1112, the setting data receiving process is canceled and the setting data receiving process ends.
[0310]
As described above, the user can cause the setting device 101 to set the setting data created in advance from the IC card 1001.
[0311]
Thereafter, the setting data receiving process and the setting process described with reference to FIGS. 34 and 36 are executed. Thereby, the settings of the car 11 are updated.
[0312]
The series of processes described above can be executed by hardware having the respective functions, or can be executed by software. When a series of processing is executed by software, it is possible to execute various functions by installing a computer in which the programs constituting the software are embedded in dedicated hardware, or by installing various programs For example, it is installed from a recording medium to a general-purpose personal computer or the like.
[0313]
As shown in FIG. 9, the recording medium is a magnetic disk 371 (including a floppy disk) on which the program is recorded and an optical disk 372 (CD) which are distributed to provide the program to the user separately from the personal computer. A package medium including a ROM (Compact Disk-Read Only Memory), a DVD (including a Digital Versatile Disk), a magneto-optical disk 373 (including an MD (Mini-Disk)), a semiconductor memory 374, or the like; It is configured by a ROM 352 that is temporarily or permanently stored, a hard disk that forms a storage unit 358, and the like. The storage of the program in the program storage medium is performed using a wired or wireless communication medium such as a local area network, the Internet, or digital satellite broadcasting via an interface such as a router or a modem as necessary.
[0314]
In this specification, the steps of describing a program stored in a program storage medium may be performed in chronological order according to the described order, or may be performed in parallel, even if not necessarily performed in chronological order. Alternatively, it also includes individually executed processing.
[0315]
【The invention's effect】
As described above, according to the present invention, necessary update information can be provided to each user. In particular, it is possible to provide update information while maintaining confidentiality to other users. Thereby, operability can be improved.
[Brief description of the drawings]
FIG. 1 is a diagram showing an overall configuration of a network system to which the present invention is applied.
FIG. 2 is a schematic sectional view of the automobile taken along line XX of FIG. 1;
FIG. 3 is a diagram showing a schematic configuration inside the automobile of FIG. 1;
FIG. 4 is a diagram showing an internal configuration of the setting device of FIG. 3;
FIG. 5 is a perspective view showing a configuration of an external appearance of the digital mobile phone with camera in FIG. 2;
6 is a perspective view illustrating a configuration of a display unit when the camera unit of FIG. 2 is rotated.
FIG. 7 is a block diagram showing an internal configuration of the digital mobile phone with a camera shown in FIG. 2;
FIG. 8 is a block diagram showing an internal configuration of a setting data management server of FIG. 1;
FIG. 9 is a block diagram showing an internal configuration of the personal computer of FIG.
FIG. 10 is a flowchart illustrating an outline of processing in the network system of FIG. 1;
FIG. 11 is a flowchart illustrating a setting data creation process in the personal computer of FIG. 1;
12 is a diagram showing a display example of an authentication start message displayed on the output unit of the personal computer of FIG.
13 is a diagram illustrating a display example of a password input dialog displayed on the output unit of the personal computer in FIG.
14 is a diagram showing a display example of a setting data creation start message displayed on the output unit of the personal computer of FIG. 1;
FIG. 15 is a diagram showing a display example of a setting data creation screen displayed on the output unit of the personal computer of FIG. 1;
FIG. 16 is a flowchart illustrating a setting data acquisition process in the personal computer of FIG. 1;
FIG. 17 is a diagram showing a display example of a setting data reception message displayed on an output unit of the personal computer of FIG. 1;
18 is a diagram showing a display example of a setting data creation impossible message displayed on the output unit of the personal computer of FIG. 1;
FIG. 19 is a flowchart illustrating a setting data receiving process in the setting data management server of FIG. 1;
FIG. 20 is a diagram illustrating an example of a database managed by the setting data management server in FIG. 1;
FIG. 21 is a flowchart illustrating an outline of processing in the network system of FIG. 1;
FIG. 22 is a flowchart illustrating a setting data storage process in the digital mobile phone with a camera in FIG. 2;
23 is a diagram showing a display example of an authentication start message displayed on the liquid crystal display of the digital mobile phone with camera in FIG. 2. FIG.
24 is a diagram showing a display example of a setting data download start message displayed on the liquid crystal display of the digital mobile phone with a camera in FIG. 2;
FIG. 25 is a diagram showing a display example of a setting data download completion message displayed on the liquid crystal display of the digital mobile phone with camera in FIG. 2;
26 is a diagram showing a display example of a setting data download impossible message displayed on the liquid crystal display of the digital mobile phone with camera in FIG. 2. FIG.
FIG. 27 is a flowchart illustrating a setting data distribution process in the setting data management server of FIG. 1;
FIG. 28 is a flowchart illustrating an outline of a process in the network system of FIG. 1;
FIG. 29 is a flowchart illustrating a setting data transmission process in the digital mobile phone with a camera in FIG. 2;
30 is a diagram showing a display example of an authentication start message displayed on the liquid crystal display of the digital mobile phone with camera in FIG. 2. FIG.
31 is a diagram showing a display example of a setting data transmission start message displayed on the liquid crystal display of the digital mobile phone with camera in FIG. 2;
FIG. 32 is a diagram showing a display example of a setting data download completion message displayed on the liquid crystal display of the digital mobile phone with camera in FIG. 2;
FIG. 33 is a diagram showing a display example of a setting data download impossible message displayed on the liquid crystal display of the camera-equipped digital mobile phone shown in FIG. 2;
FIG. 34 is a flowchart illustrating a setting data reception process in the setting device of FIG. 3;
FIG. 35 is a diagram showing a display example of a setting data reception completion message displayed on the liquid crystal display of the setting device in FIG. 3;
FIG. 36 is a flowchart illustrating a setting process in the automobile of FIG. 2;
FIG. 37 is a diagram showing a display example of personal information displayed on the liquid crystal display of the setting device in FIG. 3;
FIG. 38 is a block diagram showing an internal configuration of an IC card mounted on the setting device.
FIG. 39 is a flowchart illustrating another setting data receiving process in the setting device of FIG. 3;
40 is a diagram illustrating a display example of a setting data acquisition completion message displayed on the liquid crystal display of the setting device in FIG. 3;
FIG. 41 is a diagram showing a display example of a setting data acquisition impossible message displayed on the liquid crystal display of the setting device in FIG. 3;
[Explanation of symbols]
1 network system, 11 automobiles, 12-1 to 12-4 base stations, 13 public line network, 14 access server, 15 networks, 16 setting data management server, 17 personal computer, 31 digital mobile phone with camera, 51 operation unit, 52 liquid crystal display, 53 operation input / output unit, 56 holder, 101 setting device, 102 suspension control unit, 103 suspension, 104 horn control unit, 105 horn, 106 air conditioner control unit, 107 air conditioner, 131 transmitting / receiving unit, 132 control unit , 133 authentication unit, 134 storage unit, 135 LCD control unit, 250 main control unit, 264 storage unit, 218 liquid crystal display, 301 transmission / reception unit, 302 control unit, 303 storage unit, 304 database, 351 PU, 356 input unit, 357 output unit, 358 storage unit, 359 communication unit

Claims (20)

Electronic equipment,
The electronic device and an information management device connected via a network,
The electronic device,
Transmitting identification information to the information management device,
Receiving update information from the information management device,
Performing an update process based on the received update information;
The information management device,
Perform an authentication process based on the identification information,
An information management system, wherein the update information is transmitted to the electronic device based on the authentication processing. Electronic equipment,
In an information management method for an information management system including the electronic device and an information management device connected via a network,
The electronic device,
Transmitting identification information to the information management device,
Receiving update information from the information management device,
Performing an update process based on the received update information;
The information management device,
Perform an authentication process based on the identification information,
An information management method, wherein the update information is transmitted to the electronic device based on the authentication processing. An electronic device including a transmitting / receiving unit and a setting unit, connected to the information management device via a network,
The transmitting and receiving unit includes:
First transmission means for transmitting identification information to the information management device;
First receiving means for receiving update information from the information management device;
A first supply unit that supplies the update information received by the first reception unit to the setting unit,
The setting unit includes:
An electronic device, comprising: updating means for performing an updating process based on the update information supplied by the first supplying means. The transmitting and receiving unit includes:
A second supply unit that supplies the identification information to the setting unit,
The setting unit includes:
An authentication unit for authenticating the identification information supplied by the second supply unit,
4. The electronic device according to claim 3, wherein the first supply unit supplies the update information to the setting unit when the identification information is authenticated by the authentication unit as being correct. The electronic device according to claim 3, wherein the transmission / reception unit is a mobile phone terminal or an on-board ETC device. The electronic device according to claim 3, wherein the update information is information on a state of a vehicle or personal information. A method for controlling an electronic device including a transmitting / receiving unit and a setting unit and connected to the information management device via a network,
The transmitting and receiving unit includes:
A first transmission step of transmitting identification information to the information management device;
A receiving step of receiving update information from the information management device;
Supplying the update information received by the processing of the receiver step to the setting unit,
The setting unit includes:
An update step of performing an update process based on the update information supplied by the process of the supply step. An electronic device program comprising a transmitting / receiving unit and a setting unit, connected to the information management device via a network,
The transmitting and receiving unit includes:
A first transmission step of transmitting identification information to the information management device;
A receiving step of receiving update information from the information management device;
Supplying the update information received by the processing of the receiver step to the setting unit,
The setting unit includes:
An update step of performing an update process based on the update information supplied by the supply step. First receiving means for receiving identification information for identifying update information from the information storage device;
Authentication means for authenticating the identification information received by the first receiving means;
A second receiving unit that receives the update information from the information storage device when the identification information is authenticated as being correct by the authentication unit;
An electronic device, comprising: updating means for performing an updating process based on the update information received by the second receiving means. The electronic device according to claim 9, wherein the information storage device is an IC card. The electronic device according to claim 9, wherein the update information is information on a state of a vehicle or personal information. In the electronic device control method,
A first receiving step of receiving identification information for identifying update information from the information storage device;
An authentication step of authenticating the identification information received by the processing of the first receiving step;
A second receiving step of receiving the update information from the information storage device when the identification information is authenticated as being correct by the processing of the authentication step;
An update step of performing an update process based on the update information received by the process of the second reception step. An electronic device program,
A first receiving step of receiving identification information for identifying update information from the information storage device;
An authentication step of authenticating the identification information received by the processing of the first receiving step;
A second receiving step of receiving the update information from the information storage device when the identification information is authenticated as being correct by the processing of the authentication step;
An update step of performing an update process based on the update information received by the process of the second reception step. In an information management device connected to an electronic device via a network,
First receiving means for receiving, from the electronic device, first identification information for identifying update information;
First authentication means for authenticating the first identification information received by the first reception means,
An information management apparatus, comprising: a first transmission unit that transmits the update information to the electronic device when the first identification information is authenticated as being correct by the first authentication unit. 15. The information processing apparatus according to claim 14, further comprising a second transmission unit configured to transmit GUI image data for inputting the update information to an information processing apparatus connected to the information management apparatus via a network. Information management device. Second receiving means for receiving second identification information for identifying the information processing device from the information processing device;
Second authentication means for authenticating the second identification information received by the second reception means,
16. The image processing apparatus according to claim 15, wherein the second transmission unit transmits the image data to the information processing apparatus when the second identification information is authenticated as being correct by the second authentication unit. Information management device. Second receiving means for receiving the update information input in the information processing device;
The information management apparatus according to claim 15, further comprising: a storage unit configured to store the update information received by the second reception unit. The first transmitting means transmits setting information for setting a state of a vehicle on which the electronic device is mounted, or personal information corresponding to the first identification information, as the update information. The information management device according to claim 14, which performs the operation. In an information management method of an information management device connected to an electronic device via a network,
A first receiving step of receiving first identification information for identifying update information from the electronic device;
A first authentication step of authenticating the first identification information received by the processing of the first receiving step;
A first transmission step of transmitting the update information to the electronic device when the first identification information is authenticated as being correct by the processing of the first authentication step. An information management device program connected to an electronic device via a network,
A first receiving step of receiving first identification information for identifying update information from the electronic device;
A first authentication step of authenticating the first identification information received by the processing of the first receiving step;
When the first identification information is authenticated as correct by the processing of the first authentication step, a first transmission step of transmitting the update information to the electronic device is performed by a computer. .

Images