WO2012043167A1 - 情報処理システム、車両のチェック方法、及び、車両のチェックプログラム - Google Patents
情報処理システム、車両のチェック方法、及び、車両のチェックプログラム Download PDFInfo
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- WO2012043167A1 WO2012043167A1 PCT/JP2011/070246 JP2011070246W WO2012043167A1 WO 2012043167 A1 WO2012043167 A1 WO 2012043167A1 JP 2011070246 W JP2011070246 W JP 2011070246W WO 2012043167 A1 WO2012043167 A1 WO 2012043167A1
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60R—VEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
- B60R16/00—Electric or fluid circuits specially adapted for vehicles and not otherwise provided for; Arrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for
- B60R16/02—Electric or fluid circuits specially adapted for vehicles and not otherwise provided for; Arrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric constitutive elements
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F17/00—Digital computing or data processing equipment or methods, specially adapted for specific functions
Definitions
- the present invention relates to a technique for checking the configuration of a vehicle.
- Patent Document 1 discloses a mechanism in which each module authenticates using an encryption key when modules form a network in a vehicle.
- Patent Document 2 discloses a mechanism for eliminating unauthorized parts by mutually authenticating control devices on a network.
- the technical document 3 discloses a technique for controlling the functions of each module so that there is no overlapping function
- the technical document 4 discloses the certification authority's authentication for each module (software vehicle part). The required technology is disclosed.
- modules that are not authenticated or cannot be authenticated are excluded, and the user cannot use modules other than the authenticated modules, and the degree of freedom of module selection is very narrow. It was. For example, when the user wants to realize his / her favorite ride quality, it may not be realized by a combination of authentication modules.
- the problem to be solved by the present invention is to provide a technique for solving the above-mentioned problems, and to increase the degree of freedom of module selection.
- the present invention for solving the above-mentioned problems is an information processing system for checking a vehicle composed of a combination of a plurality of vehicle modules, and first determination means for determining whether or not each vehicle module has been authenticated. And a second determination means for determining whether or not the combination of the plurality of vehicle modules can be authenticated, and a determination means for determining a condition necessary for receiving the authentication for the combination of the plurality of vehicle modules. It is characterized by.
- a vehicle according to the present invention includes the above system.
- the present invention for solving the above-described problems is a vehicle check method constituted by a combination of a plurality of vehicle modules, a determination step for determining whether or not each vehicle module has been authenticated, It has the determination step which determines whether it can authenticate about a combination, and the determination step which determines conditions required in order to receive authentication about the combination of the said several vehicle module, It is characterized by the above-mentioned.
- a program according to the present invention is a vehicle check program configured by a combination of a plurality of vehicle modules, wherein a determination step for determining whether or not each vehicle module has been authenticated, A determination step for determining whether or not authentication is possible for a combination of vehicle modules, and a determination step for determining a condition necessary for receiving authentication for the combination of the plurality of vehicle modules, To do.
- vehicle is a concept including all moving devices regardless of the number of wheels.
- FIG. 1 is a block diagram illustrating a configuration of the information processing system 100.
- the information processing system 100 includes a module determination unit 110, a combination determination unit 120, and a condition determination unit 130.
- the module determination unit 110 determines whether or not each vehicle module constituting the vehicle 150 has been authenticated. Moreover, the combination determination part 120 determines whether it can authenticate about the combination of a several vehicle module. Furthermore, the condition determination part 130 determines conditions required in order to acquire authentication about the combination of a several vehicle module.
- a vehicle constituted by a combination of a plurality of vehicle modules and a check system as an example of an information processing system for performing the check will be described with reference to FIGS.
- the vehicle module include a drive system module, a brake system module, a vehicle body system module, an electrical system module, and a cooling system module.
- the vehicle module is not limited to these, and a component unit composed of one or more parts. As long as it is separated, it may be modularized.
- FIG. 2 shows the internal configuration of the check system 200 and the internal configuration of the vehicle drive system 250 that drives the vehicle.
- the check system 200 is connected to the vehicle drive system 250 inside or outside the vehicle.
- a general-purpose computer can be used as the check system 200.
- the check system 200 includes a CPU 201, a ROM 202, a communication control unit 203, a RAM 204, and a large-capacity storage unit 205 as shown in the figure.
- the CPU 201 is a central processing unit and controls the entire check system 200 by executing various programs.
- the ROM 202 is a read-only memory, and stores various parameters and the like in addition to a boot program to be executed first by the CPU 201.
- the RAM 204 is a random access memory, such as a program development area read from the large-capacity storage unit 205, data used by the program, derived data, or data input via the communication control unit 203. Has a temporary storage area.
- the large-capacity storage unit 205 stores various databases and program modules.
- the communication control unit 203 controls communication with the vehicle drive system 250 and communication with the vehicle authentication engine 260 and the vehicle module data center 270 via the network.
- the vehicle drive system 250 includes a control chip 251 and a plurality of vehicle modules 252.
- Each of these vehicle modules 252 includes an ECU (Electrical Control Unit).
- Each ECU is connected to a network and can communicate with each other, and can also communicate with the control chip 251.
- Each vehicle module is embedded with a tamper-resistant authentication chip, and the control chip 251 can determine whether or not each vehicle module has been authenticated.
- the ECU of the vehicle module may have a uniquely authenticated ID such as a MAC address. By doing so, the traceability of parts can be realized, and theft of parts can be suppressed.
- the check system 200 works with the vehicle drive system 250 to control the vehicle module 252 via the control chip 251. In particular, it is determined whether each of the vehicle modules 252 is an authenticated vehicle module and whether there is no problem in performance, and checks whether there is a problem in the interlocking of a plurality of vehicle modules. Furthermore, it is checked whether or not appropriate performance is exhibited as a vehicle configured in combination. In addition, if a problem is found, the check system 200 provides the user with countermeasures (vehicle module replacement, driver software installation, update, control setting change, etc.) that the user can take to solve the problem. Inform.
- countermeasures vehicle module replacement, driver software installation, update, control setting change, etc.
- FIG. 3 is a diagram showing an internal configuration of the large-capacity storage unit 205 in the check system 200 of FIG.
- the large-capacity storage unit 205 stores a vehicle authentication program 300, a vehicle authentication database 310, and vehicle authentication result data 320 regarding vehicle authentication. Furthermore, the large-capacity storage unit 205 stores an authentication acquisition method determination program 330, a vehicle module database 340, a suggestion presentation program 350, and a software patch download program 360.
- FIG. 4 is a diagram showing the configuration of the control chip 251.
- the control chip 251 includes a CPU 401, a ROM 402, and a storage unit 403.
- the storage unit 403 stores vehicle module information 432 in addition to the integrated control program 431.
- vehicle module information 432 manufacturing information such as a manufacturing date and a manufacturer is registered in addition to a flag indicating whether or not the vehicle module has been authenticated (whether the corresponding ECU has an authentication code).
- dimensional information, performance information, driver programs, control parameters, and the like of each vehicle module are stored.
- the CPU 401 uses the vehicle module information 432 to control a plurality of vehicle modules in an integrated manner.
- FIG. 5 is a diagram showing the configuration of the control setting change table 313 in the vehicle authentication database 310.
- the control of the brake or the motor is changed. For example, it is conceivable to limit the motor output or speed up the brake response.
- the software patch is downloaded from the vehicle module data center 270 via the communication control unit 203, and the driver program for the motor and brake itself is updated or the setting value of the driver program is changed. it can.
- both the braking distance and the heat generation amount deviate from a reference value by a certain value or more, it is not possible to cope with the software update or the control setting change.
- FIG. 6 is a diagram for explaining the flow of processing in the entire system when the vehicle module is changed.
- the ECU of the vehicle module that has changed transmits vehicle module information to the control chip 251 (S602).
- the control chip 251 monitors all vehicle modules, and requests and acquires vehicle module information from a new vehicle module when there is a vehicle module change.
- the control chip 251 registers the acquired vehicle module information in the storage unit 403 (S603), and requests the check system 200 to check for a new vehicle module (S604).
- the check system 200 appropriately requests an authentication standard from the vehicle authentication authority 260 (S605), downloads the authentication standard from the vehicle authentication authority 260 (S606), and registers it in the vehicle authentication reference database 312.
- S605 an authentication standard from the vehicle authentication authority 260
- S606 downloads the authentication standard from the vehicle authentication authority 260
- vehicle authentication reference database 312 the vehicle authentication standard database 312 in the large-capacity storage unit 205 may be referred to.
- step S607 the CPU 201 of the check system 200 executes a simulation subroutine 301 of the vehicle authentication program 300, thereby performing a simulation for a new vehicle module combination.
- a vehicle simulation parameter 311 stored in the vehicle authentication database 310 is used.
- the new vehicle module is a battery
- the motor is actually rotated at a predetermined rotational speed, and its output, heat generation, generated noise, etc. are checked.
- the tire may or may not be rotated.
- the new vehicle module is an audio
- the audio is activated to check power consumption, heat generation, generated noise, and the like. All of these check items are prepared in the vehicle authentication standard database 312.
- step S603 If the vehicle module information registered in step S603 is highly reliable and sufficient data is available for the newly introduced vehicle module, software using the operation model prepared for each vehicle module alone is used. Alternatively, a simulation may be performed. In addition, if the newly introduced vehicle module has been certified and it has been confirmed that there is no problem in its operation and interoperability with other vehicle modules, the use can be permitted without performing a simulation. good. In this case, a plurality of authenticated vehicle module combinations are registered in the vehicle authentication reference database 312 in FIG. 3, and if the combination matches any of the combinations, the result of vehicle authentication is possible without performing simulation. Reply to 251.
- the CPU 201 of the check system 200 executes the authentication subroutine 302
- the numerical value as the simulation result is compared with the reference value stored in the vehicle authentication reference 312. And the result is memorize
- the braking distance, the heat generation amount, the power consumption amount, and the electrical noise are listed as check items.
- the present invention is not limited to these items, and other items may be checked.
- step S608 the simulation result is presented to the user.
- the authentication acquisition method determination program determines what solution is available by referring to the control setting change table 313 shown in FIG. Presents the proposal. If the problem can be solved by downloading a software patch (for example, the latest driver), the software patch down doro program 360 downloads the software patch from the vehicle module data center 270 or the like in accordance with an instruction from the user. On the other hand, when it is necessary to replace the vehicle module itself, in accordance with a user instruction, the vehicle module database 340 owned by the check system 200 is searched for an alternative vehicle module to be replaced in order to receive authentication. Provide that list.
- the communication control unit 203 downloads a list of alternative vehicle modules that meet the criteria from the vehicle module data center 270.
- the check system 200 may propose different alternative vehicle modules depending on what kind of running and what kind of vehicle the user is seeking.
- “presentation” is a concept including all aspects of providing information to the user, such as display on the in-vehicle monitor and notification by voice.
- step S609 the authentication result is stored in the large-capacity storage unit 205 as the vehicle authentication availability data 322, and further transmitted to the control chip 251. If there is a downloaded software patch, the software patch is transmitted to the control chip 251. The control chip 251 updates the integrated control program 431 and the driver of each vehicle module with the transmitted software patch. Or in the case of authentication OK, an authentication code is transmitted to the newly introduced vehicle module (S610).
- FIG. 7 is a flowchart for explaining the flow of processing performed by the CPU 201 of the check system 200.
- step S701 vehicle module information 432 is acquired for a vehicle module via the control chip 251. In addition to newly introduced vehicle modules, information about all vehicle modules may be acquired.
- step S703 authentication of each vehicle module is checked to determine whether there is an unauthenticated vehicle module. If there is no unauthenticated vehicle module, it is determined whether or not the combination of a plurality of vehicle modules constituting the vehicle has been authenticated (S717). If it is already confirmed that the vehicle module combination can travel without any problem, such as when a vehicle module recommended by the vehicle manufacturer is introduced, the process proceeds to step S719, and that fact is reported to the control chip 251.
- step S705 If there is an unauthenticated vehicle module, or even if it has been authenticated as a single vehicle module but has not been authenticated for a combination with other vehicle modules, the process proceeds to step S705, where simulation is performed and vehicle simulation result 321 is obtained. accumulate.
- step S707 the vehicle simulation result 321 is compared with the vehicle authentication reference database 312 to determine whether the reference is satisfied.
- step S709 it is determined whether the comparison between the vehicle simulation result 321 and all the authentication standards is completed. Step S707 is repeated until the comparison with all the authentication standards is completed.
- step S711 determine whether the vehicle as a whole is OK. As a result, if the vehicle as a whole is authenticated, the process proceeds from step S711 to step S719, and that fact is reported to the control chip 251.
- the result is presented to the user in step S713, and further the control setting, the alternative vehicle module, the presence of the software patch, etc. for clearing the authentication are notified. To do. If it is possible to cope with the change of the setting or the software, the control setting is changed and the software is updated based on an instruction from the user in step S715.
- the check result display screen 901 of FIG. 9 the amount of heat generated by the motor, the amount of heat generated by the battery, the capacity of the cooler, etc. are indicated by numerical values, and a message is displayed indicating that there is no problem as a whole.
- the power consumption of the motor, the maximum continuous running time, and the like are displayed as indexes for evaluating the check result of the battery performance.
- the maximum continuous running time is as short as 30 minutes and does not satisfy the reference value.
- replacement of the battery or motor is proposed as a solution.
- the check system 200 searches for and displays alternative batteries and motors from the internal vehicle module database 340 or the external vehicle module data center 270. Specifically, in this case, a motor with low power consumption or a battery with large capacity is searched and displayed.
- the check result display screen 1101 in FIG. 11 displays the check result of the brake performance.
- the vehicle weight and the braking distance are shown as elements related to the brake performance, and since the braking distance does not satisfy the standard, a message prompting to update the brake control program is displayed. If an update button 1102 is clicked, a brake control program update process is started. In addition, a message for prompting replacement of the vehicle module may be displayed so that the vehicle weight is reduced. Furthermore, a message that prompts the user to download software that limits the running performance (for example, limits the maximum speed) may be displayed.
- the check result display screen 1201 of FIG. 12 the check result of the noise generated from the vehicle module is displayed.
- a message indicating that there is no problem with the generated noise is displayed.
- FIG. 8 is a flowchart for explaining the flow of processing performed by the CPU 401 of the control chip 251 executing the integrated control program 431 when the vehicle starts to travel.
- step S801 when key information (for example, information stored in an electronic license) is received, it is determined in step S803 whether authentication by the check system 200 is completed for the entire vehicle.
- step S809 it is determined whether or not the driver should be allowed to drive the vehicle against the contents such as an electronic license. For example, it is determined whether the motor output and the like are within the range of the driving qualification of the user. If it is determined that the driving can be permitted, the process proceeds to step S811, and the traveling is started. If the driving cannot be permitted, the process proceeds to step S813 to prohibit the vehicle from traveling and present the reason to the user.
- key information for example, information stored in an electronic license
- the authentication of each vehicle module is determined, and further, the appropriateness of the combination is determined, and further, the conditions necessary for obtaining the authentication are determined. It becomes possible to easily select a vehicle module constituting the vehicle.
- FIG. 13 is a diagram showing a combination table 1300 of module combinations and customization data.
- the range of customization of the seat position when riding, the interior color, the driving operation sound, the driving mode, and the like are preset for each vehicle module combination. ing. Therefore, when the vehicle module is changed and the vehicle module combination is changed, the seat position that can be adjusted in the vehicle, the interior color, the driving operation sound, the traveling mode, and the like are changed.
- Other configurations and operations are the same as those of the second embodiment described above, and thus description thereof is omitted here.
- the seat position in the vehicle module combination 1, can be moved between aaa and bbb. In the vehicle module combination 2, the seat position can be moved between ccc and ddd. The seat position can be moved between eee and fff. In the case of a vehicle module combination including a hard suspension, a customized width is prepared so that the seat position can be adjusted lower to reduce the roll. Similarly, interior colors and vehicle driving sounds are also prepared for each vehicle module combination. Furthermore, in the vehicle module combination 1, either the fuel consumption priority mode or the travel priority mode can be selected, but the vehicle module combinations 2 and 3 are set so that such selection cannot be performed.
- the user can select the vehicle module combination and thus the vehicle module itself based on such customized width.
- FIG. 14 is a flowchart for explaining the flow of processing in the information processing system according to this embodiment. Since some processes are the same as those in the flowchart of FIG. 8, the same processes are denoted by the same reference numerals and description thereof is omitted.
- step S803 when the vehicle is authenticated in step S803 and the vehicle starts traveling in step S1400, the process proceeds to step S1401 to accumulate a travel log. Next, an elapsed time from the start of travel is measured, and if a predetermined time has elapsed, the process proceeds from step S1402 to step S1403, and it is determined whether the predetermined number of authentication processes have been completed. For example, if the vehicle module combination has already been authenticated five times, the processing is terminated assuming that there is no problem with the vehicle module combination. At this time, the vehicle module combination 340 or the like may be registered as a vehicle module combination that does not cause a problem in traveling. As such, it can be introduced to other drivers who subsequently select the same combination as a combination for which a considerable number of post-run authentications have been completed.
- step S1403 the process proceeds to step S1404, where the authentication process is performed using the travel log. It returns to step S809 and it determines again whether driving
- the operation of the module is controlled so that the current operation status falls within a predetermined range (for example, a 10% drop in initial performance).
- Control by bi-wire is a prerequisite.
- control is performed to keep the pedaling force and braking distance of the brake pedal constant.
- the present embodiment is composed of a brake pedal, a device that converts pedal force into an electric signal, a device that changes the electric signal to the tightening strength of the brake pad, a brake body, and a vehicle speed detection system (general speed detection may be used). Can be implemented in the system.
- the braking distance will increase if the brake deteriorates. However, by adjusting the strength of the brake against the pedal force, the change in the braking distance due to the deterioration is offset.
- the braking distance is adjusted to be constant by changing the conversion coefficient of the brake pad tightening strength with respect to the pedal force. Be within the range of.
- the braking distance is calculated from the vehicle speed and braking time from the time of brake operation. As described above, by performing authentication again or changing the control using the running log, a vehicle that satisfies the conditions can be driven more reliably.
- the communication control unit 203 of the check system 200 directly communicates with the vehicle authentication organization 260 and the vehicle module data center 270.
- the communication control unit 203 communicates with the outside via a communication device 1501 such as a mobile phone.
- the check system 1500 includes a portable communication device such as a mobile phone or a PDA, and the communication device and the vehicle are connected wirelessly or by wire to realize communication between the two.
- the check system 1500 can be realized using the portable communication device even when the communication function with the external device does not exist in the vehicle.
- the present invention may be applied to a system composed of a plurality of devices, or may be applied to a single device. Furthermore, the present invention can also be applied to a case where a vehicle check program that implements the functions of the embodiments is supplied directly or remotely to a system or apparatus. Therefore, in order to realize the functions of the present invention on a computer, a program installed in the computer, a medium storing the program, and a WWW server that downloads the program are also included in the scope of the present invention.
Abstract
Description
上記目的を達成するため、本発明に係る車両は、上記システムを備えたことを特徴とする。
本発明の第1実施形態として、複数の車両モジュールの組合せで構成される車両をチェックするための情報処理システム100について図1を用いて説明する。図1は、情報処理システム100の構成を示すブロック図である。図1において、情報処理システム100は、モジュール判定部110と組合せ判定部120と条件決定部130とを備えている。
本発明の第2実施形態として、複数車両モジュールの組合せで構成される車両、及びそのチェックを行なう情報処理システムの一例としてのチェックシステムについて図2乃至図11を用いて説明する。本実施形態では、一例として、電気自動車をモジュール化して、ユーザが各車両モジュールを入手して組み立てたり、改造したりする場合を想定している。車両モジュールとしては、駆動系モジュール、制動系モジュール、車体系モジュール、電装系モジュール、冷却系モジュールなどが挙げられるが、これらに限定されるものではなく、1つ以上の部品によって構成される部品ユニットであればどのような切り分けでモジュール化しても良い。
図2は、チェックシステム200の内部構成及び、車両を駆動する車両駆動システム250の内部構成について示している。
図6は、車両モジュール変更時のシステム全体における処理の流れを説明する図である。車両モジュール変更が行なわれると(S601)、変更があった車両モジュールのECUは、車両モジュール情報をコントロールチップ251に送信する(S602)。あるいは、コントロールチップ251は、全車両モジュールを監視しており、車両モジュール変更があった場合に新しい車両モジュールに対して車両モジュール情報を要求し、取得する。
本発明の第3実施形態について、図13を用いて説明する。図13は、モジュール組合せと、カスタマイズデータとの組合せテーブル1300を示す図である。本実施形態に係る情報処理システムでは、乗ったときのシートの位置の移動範囲や、内装色や、運転動作音や、走行モードなど、ユーザによるカスタマイズの幅が、車両モジュール組合せ毎に予め設定されている。従って、車両モジュールを変更して、車両モジュール組合せが変わると、その車両において調整できるシート位置や、内装色や運転動作音や走行モードなどが変わることになる。その他の構成及び動作については上述の第2実施形態と同様であるため、ここでは説明を省略する。
同様に、内装色や、車両運転音なども車両モジュール組合せごとに用意されている。更に、車両モジュール組合せ1では、燃費重視モード、走り重視モードの何れかの走行モードを選択可能であるが、車両モジュール組合せ2、3では、そのような選択はできないように設定されている。
本発明の第4実施形態について、図14を用いて説明する。本実施形態では、部品の動作状況をモニタリングして劣化のトレンドを検出する。図14は、本実施形態に係る情報処理システムでの処理の流れを説明するためのフローチャートである。一部の処理は図8のフローチャートを同様であるため、同じ処理については同じ符号を付してその説明を省略する。
また、経年劣化はシミュレーションに用いた動作モデル(初期性能)と実際の動作状況を比較して差異の大きさにより検出することも可能である。短期的には動作環境の変化によって動作状況に差異が生じることはありうるが、長期間の動作をモニタリングして2乗平均などの計算手法により全体的な傾向を導出すればより正確な劣化の程度を測定することができる。
以上のように、走行中のログを用いて再度認証を行なったり制御を変化させたりすることにより、より確実に条件を満たした車両を走行させることができる。
本発明の第5実施形態について、図15を用いて説明する。図2に示した第2実施形態では、チェックシステム200の通信制御部203が、直接、車両認証機関260や車両モジュールデータセンタ270と通信をしている形態となっていたが、本実施形態に係るチェックシステム1500では、通信制御部203が携帯電話などの通信機1501を介して外部と通信する。すなわち、本実施形態のチェックシステム1500は、携帯電話やPDAなどの可搬型通信機を含み、その通信機と車両とが無線あるいは有線にて接続されることにより両者間の通信を実現する。
以上の構成により、車両内に外部装置との通信機能が存在しない場合にでも、可搬型通信機を用いて、チェックシステム1500を実現することができる。
以上、本発明の実施形態について詳述したが、それぞれの実施形態に含まれる別々の特徴を如何様に組み合わせたシステム又は装置も、本発明の範疇に含まれる。
Claims (10)
- 複数車両モジュールの組合せで構成される車両をチェックするための情報処理システムであって、
各車両モジュールが認証済のものか否か判定する第1判定手段と、
前記複数車両モジュールの組合せについて、認証可能か否かを判定する第2判定手段と、
前記複数車両モジュールの組合せについて、認証を受けるために必要な条件を決定する決定手段と、
を備えたことを特徴とする情報処理システム。 - 前記第2判定手段は、複数車両モジュールを組み合わせた場合の動作をシミュレートし、シミュレーション結果が所定の基準を満たすか否かを判定することを特徴とする請求項1に記載の情報処理システム。
- 前記決定手段は、前記認証を受けるために必要なプログラムをダウンロードする手段を含むことを特徴とする請求項1又は2に記載の情報処理システム。
- 前記決定手段は、前記認証を受けるための代替車両モジュールを提示する提示手段を含むことを特徴とする請求項1乃至3のいずれか1項に記載の情報処理システム。
- 前記提示手段は、代替となる車両モジュールを記憶した車両モジュールデータベースをさらに備え、該車両モジュールデータベースから、前記認証の基準を満たした代替車両モジュールを検索して、その検索結果を用いて交換対象となる代替車両モジュールを提示することを特徴とする請求項4に記載の情報処理システム。
- 前記複数車両モジュールの組合せについて、認証を受けることのできる範囲内で、いずれかの車両モジュールの制御設定の変更オプションを提示する提示手段をさらに備えたことを特徴とする請求項1乃至5のいずれか1項に記載の情報処理システム。
- 可搬型通信機を更に含み、該可搬型通信機の通信機能を用いて、前記車両モジュールとの通信を行なうことを特徴とする請求項1乃至6のいずれか1項に記載の情報処理システム。
- 請求項1乃至7のいずれか1項に記載の情報処理システムを備えたことを特徴とする車
両。 - 複数車両モジュールの組合せで構成される車両のチェック方法であって、
各車両モジュールが認証済のものか否か判定する判定ステップと、
前記複数車両モジュールの組合せについて、認証可能か否かを判定する判定ステップと、
前記複数車両モジュールの組合せについて、認証を受けるために必要な条件を決定する決定ステップと、
を含むことを特徴とする車両のチェック方法。 - 複数車両モジュールの組合せで構成される車両のチェックプログラムであって、
各車両モジュールが認証済のものか否か判定する判定ステップと、
前記複数車両モジュールの組合せについて、認証可能か否かを判定する判定ステップと、
前記複数車両モジュールの組合せについて、認証を受けるために必要な条件を決定する決定ステップと、
をコンピュータに実行させることを特徴とする車両のチェックプログラム。
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