Classifications

• • G—PHYSICS
  • G08—SIGNALLING
  • G08G—TRAFFIC CONTROL SYSTEMS
  • G08G1/00—Traffic control systems for road vehicles
• • G—PHYSICS
  • G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
  • G16Y—INFORMATION AND COMMUNICATION TECHNOLOGY SPECIALLY ADAPTED FOR THE INTERNET OF THINGS [IoT]
  • G16Y10/00—Economic sectors
  • G16Y10/40—Transportation
• • G—PHYSICS
  • G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
  • G16Y—INFORMATION AND COMMUNICATION TECHNOLOGY SPECIALLY ADAPTED FOR THE INTERNET OF THINGS [IoT]
  • G16Y20/00—Information sensed or collected by the things
  • G16Y20/20—Information sensed or collected by the things relating to the thing itself
• • G—PHYSICS
  • G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
  • G16Y—INFORMATION AND COMMUNICATION TECHNOLOGY SPECIALLY ADAPTED FOR THE INTERNET OF THINGS [IoT]
  • G16Y40/00—IoT characterised by the purpose of the information processing
  • G16Y40/20—Analytics; Diagnosis

Definitions

• This disclosure relates to a management device, an in-vehicle device, a management method, and a management program.
• the information collection device is an information collection device that constitutes a train equipment management system that manages the usage history of equipment installed on a train together with a ground system, and is characterized in that it includes a vehicle information collection unit that collects individual identification numbers that identify each managed equipment installed on the train and first operation information that indicates the operation status of each equipment, and a train integrated management device that collects second operation information that indicates the operation status when controlling each equipment, the individual identification numbers of each equipment, operation information including the first operation information and the second operation information, a car number that identifies the vehicle to which each equipment is installed, and a train formation number that identifies the train, and controls the collection and transmission to the ground system via a communication device.
• the management device disclosed herein includes a receiving unit that receives vehicle identification information for identifying a vehicle from an on-board device mounted on the vehicle, a setting unit that performs setting processing to set a computer program corresponding to the vehicle identification information received by the receiving unit to a first computer program for processing vehicle information related to the vehicle in the management device, and an update request unit that performs update request processing to transmit to the on-board device update request information for requesting an update to a second computer program corresponding to the vehicle identification information received by the receiving unit, so that the on-board device acquires the vehicle information and performs transmission processing to transmit the acquired vehicle information to the management device to provide it to the first computer program set by the setting unit.
• FIG. 1 is a diagram illustrating a configuration of a communication system according to an embodiment of the present disclosure.
• FIG. 2 is a diagram illustrating a configuration of an in-vehicle device according to an embodiment of the present disclosure.
• FIG. 3 is a diagram illustrating a configuration of a server according to an embodiment of the present disclosure.
• FIG. 4 is a diagram illustrating an example of a setting status table stored by the server according to the embodiment of the present disclosure.
• FIG. 5 is a diagram illustrating an example of a contact table stored by the server according to the embodiment of the present disclosure.
• FIG. 6 is a diagram illustrating an example of a management table stored by the server according to the embodiment of the present disclosure.
• FIG. 1 is a diagram illustrating a configuration of a communication system according to an embodiment of the present disclosure.
• FIG. 2 is a diagram illustrating a configuration of an in-vehicle device according to an embodiment of the present disclosure.
• FIG. 3 is a diagram illustrating a configuration of
• FIG. 7 is a diagram illustrating an example of a contact table after being updated by the server according to an embodiment of the present disclosure.
• FIG. 8 is a diagram illustrating an example of a setting status table after updating by the server according to the embodiment of the present disclosure.
• FIG. 9 is a diagram illustrating another example of the setting status table after updating by the server according to the embodiment of the present disclosure.
• FIG. 10 is a flowchart defining an operation procedure of the setting process and update process by the server according to the embodiment of the present disclosure.
• FIG. 11 is a flowchart defining an operation procedure of processing by the in-vehicle device according to the embodiment of the present disclosure.
• FIG. 12 is a diagram illustrating an example of a processing sequence of a server, an in-vehicle device, and a terminal device in a communication system according to an embodiment of the present disclosure.
• FIG. 13 is a diagram illustrating another example of a sequence of processes performed by the server, the in-vehicle device, and the terminal device in the communication system according to the embodiment of the present disclosure.
• on-board devices can be retrofitted and vehicles that can newly install on-board devices, it is not easy to maintain compatibility as a system so that vehicle information can be collected.
• on-board devices can be attached to various vehicles, management becomes complicated, for example, associating on-board devices, vehicles, and vehicle users.
• the present disclosure has been made to solve the above-mentioned problems, and its purpose is to provide a management device, an on-board device, a management method, and a management program that can more reliably collect vehicle information about the vehicle in which it is installed from the on-board device.
• vehicle information on the vehicle in which the in-vehicle device is installed can be collected more reliably from the in-vehicle device.
• a management device includes a receiving unit that receives vehicle identification information for identifying a vehicle from an on-board device mounted on the vehicle, a setting unit that performs setting processing to set a computer program corresponding to the vehicle identification information received by the receiving unit to a first computer program for processing vehicle information related to the vehicle in the management device, and an update request unit that performs update request processing to transmit to the on-board device update request information for requesting an update to a second computer program corresponding to the vehicle identification information received by the receiving unit, so that the on-board device acquires the vehicle information and performs transmission processing to transmit the acquired vehicle information to the management device to provide it to the first computer program set by the setting unit.
• the management device by configuring the management device to set a first computer program corresponding to vehicle identification information from a vehicle and transmitting update request information to the in-vehicle device to request an update to a second computer program corresponding to the vehicle identification information, even if the in-vehicle device is installed after the vehicle is shipped or if the location where the in-vehicle device is installed is changed, the in-vehicle device can acquire and transmit vehicle information, and the management device can process the vehicle information received from the in-vehicle device. Therefore, vehicle information about the location where the in-vehicle device is installed can be collected more reliably from the in-vehicle device.
• the receiving unit may receive change identification information, which is the vehicle identification information for identifying the vehicle in which the on-board device is installed, transmitted from the on-board device whose installation location has been changed, the setting unit may set a computer program corresponding to the change identification information in a third computer program for processing vehicle information related to the vehicle in which the on-board device is installed in the management device, and the update request unit may transmit to the on-board device the update request information for requesting an update to a fourth computer program corresponding to the change identification information, for the on-board device to perform a transmission process in which the on-board device acquires the vehicle information and transmits the acquired vehicle information to the management device to provide it to the third computer program set by the setting unit.
• change identification information which is the vehicle identification information for identifying the vehicle in which the on-board device is installed, transmitted from the on-board device whose installation location has been changed
• the setting unit may set a computer program corresponding to the change identification information in a third computer program for processing vehicle information related to the vehicle in which the on-board device is
• the setting unit may set a computer program corresponding to the change identification information in the third computer program, and when a configuration of the pre-change network differs from a configuration of the post-change network, the update request unit may transmit the update request information to the in-vehicle device to request an update to the fourth computer program corresponding to the change identification information.
• the management device may further include a transmission unit that transmits permission information to the in-vehicle device indicating that the in-vehicle device is permitted to execute the transmission process when the receiving unit receives update completion information from the in-vehicle device indicating that the setting process by the setting unit has been completed and that the update to the second computer program has been completed.
• the desired vehicle information can be reliably sent from the in-vehicle device to the management device, and the appropriate vehicle information can be processed in the management device.
• the receiving unit may further receive device identification information for identifying the vehicle-mounted device from the vehicle-mounted device
• the management device may further include a storage unit that stores user correspondence information indicating a correspondence between user identification information for identifying a user of the vehicle and the vehicle identification information, and device correspondence information indicating a correspondence between the device identification information and the vehicle identification information, and a transmission unit that, when the receiving identification information, which is the device identification information received by the receiving unit, is not registered in the device correspondence information, transmits installation information indicating that the vehicle-mounted device having the receiving identification information is installed in the vehicle to the user identified by the user identification information corresponding to the vehicle identification information received by the receiving unit, based on the user correspondence information in the storage unit.
• This configuration allows the user of the vehicle in which the on-board device is installed to confirm the installation of the on-board device indicated by the installation information from the management device, thereby improving security.
• the setting unit may perform the setting process when the receiving unit receives approval information indicating approval of the connection between the in-vehicle device having the reception identification information and the vehicle as response information from the user to the on-board information, and the update request unit may perform the update request process when the receiving unit receives the approval information.
• the first program can be set and the second program can be updated for an in-vehicle device approved by the vehicle user, and vehicle information about the vehicle can be collected, further improving security.
• the receiving unit may further receive device identification information for identifying the vehicle-mounted device from the vehicle-mounted device
• the management device further includes a storage unit for storing device correspondence information indicating a correspondence relationship between the device identification information and the vehicle identification information
• the setting unit may perform the setting process when the receiving identification information, which is the device identification information received by the receiving unit, is not registered in the device correspondence information
• the update request unit may perform the update request process when the receiving identification information is not registered in the device correspondence information.
• This configuration makes it possible to prevent redundant setting of the first computer program and updating of the second computer program for an in-vehicle device that was previously installed in a vehicle and for which an update of the second computer program has been completed.
• An in-vehicle device is an in-vehicle device that transmits and receives information to and from the management device in any one of (1) to (7) above, and includes an acquisition unit that acquires the vehicle identification information for identifying the vehicle in which the in-vehicle device is mounted, an update unit that performs an update process to update a computer program for performing the transmission process, which is stored in the in-vehicle device and corresponds to the vehicle identification information acquired by the acquisition unit, based on the update request information received from the management device, to the second computer program, which corresponds to the vehicle identification information acquired by the acquisition unit, and a transmission processing unit that performs the transmission process by executing the second computer program, and when the update unit completes the update process, it transmits update completion information to the management device.
• the on-board device can acquire and transmit vehicle information. Therefore, vehicle information about the location where the on-board device is installed can be collected more reliably from the on-board device.
• the management device can easily confirm that the update of the second computer program has been completed.
• An in-vehicle device is an in-vehicle device that is mounted on a vehicle and transmits and receives information to and from a management device, and includes an acquisition unit that acquires vehicle identification information for identifying the vehicle in which the in-vehicle device is mounted, an update unit that performs an update process to update the computer program stored in the in-vehicle device to a new computer program for performing the transmission process that corresponds to the vehicle identification information acquired by the acquisition unit, based on update request information received from the management device, the update request information requesting an update of a computer program for performing a transmission process in which the in-vehicle device acquires vehicle information related to the vehicle and transmits it to the management device, and a transmission processing unit that performs the transmission process by executing the updated computer program, and when the update unit completes the update process, transmits update completion information to the management device.
• the on-board device can acquire and transmit vehicle information. Therefore, vehicle information about the location where the on-board device is installed can be collected more reliably from the on-board device.
• the management device can easily confirm that the computer program update has been completed.
• a management method is a management method in a management device, and includes the steps of receiving vehicle identification information for identifying a vehicle from an on-board device mounted on the vehicle, performing a setting process for setting a computer program corresponding to the received vehicle identification information in a first computer program for processing vehicle information related to the vehicle in the management device, and performing an update request process for transmitting update request information to the on-board device for requesting an update to a second computer program corresponding to the received vehicle identification information, so that the on-board device acquires the vehicle information and performs a transmission process for transmitting the acquired vehicle information to the management device to provide it to the first computer program set in the management device.
• the management device by configuring the management device to set a first computer program corresponding to vehicle identification information from a vehicle and transmitting update request information to the in-vehicle device to request an update to a second computer program corresponding to the vehicle identification information, even if the in-vehicle device is installed after the vehicle is shipped or if the location where the in-vehicle device is installed is changed, the in-vehicle device can acquire and transmit vehicle information, and the management device can process the vehicle information received from the in-vehicle device. Therefore, vehicle information about the location where the in-vehicle device is installed can be collected more reliably from the in-vehicle device.
• a management program is a management program used in a management device, and causes a computer to function as a receiving unit that receives vehicle identification information for identifying a vehicle from an in-vehicle device mounted on the vehicle, a setting unit that performs setting processing to set a computer program corresponding to the vehicle identification information received by the receiving unit to a first computer program for processing vehicle information related to the vehicle in the management device, and an update request unit that performs update request processing to transmit to the in-vehicle device update request information for requesting an update to a second computer program corresponding to the vehicle identification information received by the receiving unit, so that the in-vehicle device acquires the vehicle information and performs transmission processing to transmit the acquired vehicle information to the management device to provide it to the first computer program set by the setting unit.
• the management device by configuring the management device to set a first computer program corresponding to vehicle identification information from a vehicle and transmitting update request information to the in-vehicle device to request an update to a second computer program corresponding to the vehicle identification information, even if the in-vehicle device is installed after the vehicle is shipped or if the location where the in-vehicle device is installed is changed, the in-vehicle device can acquire and transmit vehicle information, and the management device can process the vehicle information received from the in-vehicle device. Therefore, vehicle information about the location where the in-vehicle device is installed can be collected more reliably from the in-vehicle device.
• One aspect of the present disclosure can be realized not only as a management device equipped with such a characteristic processing unit, but also as a semiconductor integrated circuit that realizes part or all of the management device, or as a system that includes the management device.
• Fig. 1 is a diagram showing a configuration of a communication system according to an embodiment of the present disclosure.
• a communication system 501 includes a server 101, one or more in-vehicle devices 201, and one or more terminal devices 301.
• the server 101 and each in-vehicle device 201 transmit and receive information via an external network 151 such as the Internet, for example.
• the server 101 and each terminal device 301 transmit and receive information via the external network 151, for example.
• the in-vehicle device 201 is mounted on a vehicle 1.
• the server 101 is an example of a management device.
• the server 101 and the terminal device 301 are used, for example, by a business operator that manages the operation of the vehicle 1, or by an individual.
• the terminal device 301 is, for example, a communication terminal device such as a smartphone or tablet.
• the server 101 receives vehicle information about the corresponding vehicle 1 from one or more in-vehicle devices 201.
• the server 101 performs an analysis process to analyze the vehicle information received from the in-vehicle device 201. Specifically, the server 101 performs the analysis process by executing a server-side program for processing the vehicle information.
• the terminal device 301 accepts various information input by the user of the vehicle 1 and transmits the accepted various information to the in-vehicle device 201.
• the terminal device 301 may transmit the various information accepted from the user of the vehicle 1 to the server 101 via the external network 151.
• FIG. 2 is a diagram showing a configuration of an in-vehicle device according to an embodiment of the present disclosure.
• an in-vehicle device 201 is connected to a plurality of in-vehicle devices 211 via a CAN bus 51 that conforms to the CAN (Controller Area Network) (registered trademark) standard, for example.
• CAN Controller Area Network
• the in-vehicle devices 211 are, for example, an autonomous driving ECU (Electronic Control Unit), an engine ECU, a door lock ECU, a TCU (Telematics Communication Unit), a sensor, a navigation device, a human-machine interface, and a camera.
• ECU Electronic Control Unit
• engine ECU Engine ECU
• door lock ECU door lock ECU
• TCU Telematics Communication Unit
• the in-vehicle device 201 is connected to multiple in-vehicle devices 211, 211A and 211B.
• the in-vehicle device 201 includes a first communication unit 11, a setting processing unit 12, a second communication unit 13, an acquisition unit 14, and a storage unit 15.
• the first communication unit 11 includes a receiving unit 21, a transmission processing unit 22, and an update unit 23.
• Some or all of the first communication unit 11, the setting processing unit 12, the second communication unit 13, and the acquisition unit 14 are realized, for example, by a processing circuit including one or more processors.
• the storage unit 15 is, for example, a non-volatile memory included in the processing circuit.
• the first communication unit 11 communicates with the server 101 via the external network 151 by performing wireless communication with a wireless base station (not shown) according to a communication method such as WiFi (registered trademark), LTE (Long Term Evolution) (registered trademark), or 5G.
• the first communication unit 11 is not limited to a configuration in which it communicates with the server 101 via a wireless base station and the external network 151, but may be a configuration in which it communicates with the server 101 via a wired line.
• the first communication unit 11 may also be a configuration in which it communicates with the server 101 further via another in-vehicle device.
• the transmission processing unit 22 in the first communication unit 11 performs a transmission process to acquire vehicle information about the vehicle 1 and transmit it to the server 101.
• vehicle information includes, for example, information about the traveling of the vehicle 1.
• the transmission processing unit 22 acquires, for example, position information and vehicle speed information of the vehicle 1.
• vehicle information is not limited to position information and vehicle speed information, but may also be driving control information such as braking and steering operations in the vehicle 1.
• vehicle information is not limited to information related to the traveling of the vehicle 1, but may also be information showing images captured by a camera mounted on the vehicle 1 and information showing the measurement results of a sensor mounted on the vehicle 1.
• the transmission processing unit 22 communicates with one or more in-vehicle devices 211 in accordance with the CAN standard.
• the transmission processing unit 22 is connected to the in-vehicle devices 211A and 211B via two CAN buses 51, CAN buses 51A and 51B, respectively.
• the in-vehicle device 201 is not limited to a configuration in which two CAN buses 51 are connected to the transmission processing unit 22, but may be configured to connect one or more CAN buses 51.
• the in-vehicle device 201 and each in-vehicle device 211 may be configured to communicate in accordance with standards other than CAN, such as CAN FD (CAN with Flexible Data Rate), Ethernet (registered trademark), FlexRay (registered trademark), MOST (Media Oriented System Transport) (registered trademark), and LIN (Local Interconnect Network).
• CAN FD CAN with Flexible Data Rate
• Ethernet registered trademark
• FlexRay registered trademark
• MOST Media Oriented System Transport
• LIN Local Interconnect Network
• the in-vehicle devices 211 transmit their own vehicle information to the in-vehicle device 201.
• the vehicle information transmitted from each in-vehicle device 211 via the CAN bus 51 is stored in a CAN frame with a CAN-ID (Identifier) that indicates the type of data, etc.
• the storage unit 15 stores a vehicle-side program for the vehicle-mounted device 201 to perform transmission processing.
• the transmission processing unit 22 executes the vehicle-side program stored in the storage unit 15 to perform transmission processing.
• the setting processing unit 12 performs data setting processing related to the transmission of vehicle information. For example, the setting processing unit 12 sets the type of vehicle information to be transmitted to the server 101 as the data setting processing.
• the setting processing unit 12 sets the in-vehicle device 201 to transmit vehicle information of the in-vehicle device 211A to the server 101.
• the CAN-ID of the CAN frame in which the vehicle information of the in-vehicle device 211A is stored is "001".
• the setting processing unit 12 configures the transmission processing unit 22 to transmit the vehicle information contained in the CAN frame with CAN-ID "001" to the server 101.
• the setting processing unit 12 requests the in-vehicle device 211A to transmit vehicle information via the transmission processing unit 22 as a data setting process.
• the in-vehicle device 211A Upon receiving a request from the in-vehicle device 201, the in-vehicle device 211A transmits a CAN frame with CAN-ID "001" to the in-vehicle device 201 periodically or irregularly.
• the setting processing unit 12 also sets the transmission processing unit 22 to transmit the vehicle information contained in the CAN frame with CAN-ID "001" to the server 101.
• the second communication unit 13 communicates with the terminal device 301 according to a USB (Universal Serial Bus) communication method.
• the second communication unit 13 and the terminal device 301 may be configured to perform wireless communication according to a standard such as Bluetooth (registered trademark).
• the second communication unit 13 transmits the vehicle information to the terminal device 301. More specifically, as described above, the transmission processing unit 22 transmits the acquired vehicle information to the server 101 and outputs the vehicle information to the second communication unit 13. The second communication unit 13 transmits the vehicle information received from the transmission processing unit 22 to the terminal device 301.
• FIG. 3 is a diagram showing a configuration of a server according to an embodiment of the present disclosure.
• the server 101 includes a communication unit 31, an analysis unit 32, a processing unit 33, a setting unit 34, and a storage unit 35.
• the communication unit 31 includes a receiving unit 41, an update request unit 42, and a transmitting unit 43.
• a part or all of the communication unit 31, the analysis unit 32, the processing unit 33, and the setting unit 34 are realized, for example, by a processing circuit including one or more processors.
• the storage unit 35 is, for example, a non-volatile memory included in the processing circuit.
• the receiving unit 41 receives the vehicle information from the in-vehicle device 201.
• the receiving unit 41 stores the vehicle information received from the in-vehicle device 201 in the storage unit 35.
• the analysis unit 32 executes the server-side program to perform an analysis process of the vehicle information received from the in-vehicle device 201. For example, the analysis unit 32 performs various analyses, such as detecting abnormalities related to the vehicle 1, based on the vehicle information received from the in-vehicle device 201.
• the configuration of the on-board network may differ between vehicles.
• the type of on-board equipment installed and the type of communication standard by which the on-board equipment transmits and receives information to and from the on-board equipment may differ depending on the type of vehicle. Therefore, after being installed in a vehicle, the on-board device may not be able to obtain vehicle information even if it executes a vehicle-side program stored in itself. In this case, the server will not be able to collect vehicle information from the on-board device and will not be able to continue analyzing the vehicle information. In other words, it is not easy to maintain compatibility as a system so that vehicle information can be collected.
• the server since the in-vehicle device can be attached to various vehicles, the server must manage the in-vehicle device, the vehicle, and the vehicle's user, etc. in a complicated manner.
• the communication system 501 solves these problems through the following configuration and operation.
• the acquisition unit 14 in the in-vehicle device 201 periodically or irregularly acquires device identification information (hereinafter also referred to as "in-vehicle device ID") for identifying its own in-vehicle device 201.
• in-vehicle device ID device identification information
• the acquisition unit 14 acquires the in-vehicle device ID stored in the memory unit 15.
• the acquisition unit 14 outputs the acquired in-vehicle device ID to the transmission processing unit 22.
• the in-vehicle device ID is an ID unique to each in-vehicle device 201.
• the acquisition unit 14 also periodically or irregularly acquires vehicle identification information (hereinafter also referred to as "vehicle ID") for identifying the vehicle 1 in which the vehicle-mounted device 201 is mounted.
• vehicle ID is a unique ID for each vehicle 1.
• the vehicle 1 has a vehicle ID storage unit 212 that stores its own vehicle ID.
• the acquisition unit 14 acquires the vehicle ID stored in the vehicle ID storage unit 212.
• the acquisition unit 14 outputs the acquired vehicle ID to the transmission processing unit 22.
• the transmission processing unit 22 transmits ID acquisition information including the in-vehicle device ID and the vehicle ID received from the acquisition unit 14 to the server 101.
• the vehicle ID may be pre-registered in the storage unit 15 of the in-vehicle device 201 by, for example, a dealer.
• the acquisition unit 14 acquires the vehicle ID stored in the storage unit 15 when the in-vehicle device 201 starts up.
• the receiving unit 41 receives the ID acquisition information from the in-vehicle device 201. That is, the receiving unit 41 receives the in-vehicle device ID and the vehicle ID from the in-vehicle device 201. The receiving unit 41 stores the received ID acquisition information in the storage unit 35, and outputs a notification to the processing unit 33 that the ID acquisition information has been received.
• the storage unit 35 stores a setting status table Tb10 that includes device correspondence information that indicates the correspondence between the in-vehicle device ID and the vehicle ID.
• FIG. 4 shows an example of a setting status table stored by a server according to an embodiment of the present disclosure.
• the vehicle ID corresponding to the vehicle-mounted device ID "R1" is “V1”
• the vehicle ID corresponding to the vehicle-mounted device ID “R2” is “V2”
• the vehicle ID corresponding to the vehicle-mounted device ID “R3” is "V3”.
• the processing unit 33 When the processing unit 33 receives a notification from the receiving unit 41 that the ID acquisition information has been received, the processing unit 33 refers to the setting status table Tb10 and the ID acquisition information stored in the memory unit 35. Then, the processing unit 33 performs an ID confirmation process to confirm whether the vehicle device ID included in the ID acquisition information, i.e., the vehicle device ID received by the receiving unit 41 (hereinafter also referred to as "received identification information"), is registered in the setting status table Tb10.
• the processing unit 33 checks whether the correspondence between the received identification information and the vehicle ID (hereinafter also referred to as "ID correspondence") is registered in the setting status table Tb10. Then, the processing unit 33 notifies the transmission unit 43 of the confirmation result.
• the transmitter 43 transmits an information request notification to the in-vehicle device 201 to request user information related to the user of the vehicle 1.
• the user information includes, for example, user identification information (hereinafter also referred to as "user ID") for identifying the user of the vehicle 1, information indicating a contact method with the user, and contact information for the user.
• the receiver 21 transmits a notification that the information request notification has been received to the second communication unit 13.
• the second communication unit 13 When the second communication unit 13 receives a notification from the receiving unit 21 that an information request notification has been received, it transmits transmission request information to the terminal device 301 indicating a request to transmit user information to the in-vehicle device 201.
• the terminal device 301 When the terminal device 301 receives the transmission request information from the in-vehicle device 201, it transmits the user information to the in-vehicle device 201.
• the terminal device 301 when the terminal device 301 receives transmission request information from the in-vehicle device 201, it prompts the user of the vehicle 1 to input user information. Then, when the terminal device 301 accepts input of user information from the user of the vehicle 1, it transmits the accepted user information to the in-vehicle device 201.
• the second communication unit 13 outputs the received user information to the transmission processing unit 22. Then, the transmission processing unit 22 transmits the user information received from the second communication unit 13 to the server 101.
• the receiving unit 41 when the receiving unit 41 receives user information from the in-vehicle device 201, it stores the received user information in the memory unit 35 and outputs a notification to the processing unit 33 that the user information has been received.
• the processing unit 33 When the processing unit 33 receives a notification from the receiving unit 41 that the user information has been received, the processing unit 33 performs a user registration process based on the user information and ID acquisition information stored in the memory unit 35, in which the processing unit 33 associates the vehicle ID included in the ID acquisition information with the user ID included in the user information and registers them in the setting status table Tb10.
• the processing unit 33 When the processing unit 33 receives a notification from the receiving unit 41 that the user information has been received, the processing unit 33 performs a table update process to update the contact table Tb20 indicating the correspondence between the user information and the vehicle ID included in the ID acquisition information, based on the user information and the ID acquisition information stored in the storage unit 35.
• the contact table Tb20 includes user correspondence information indicating the correspondence between the user ID and the vehicle ID.
• FIG. 5 shows an example of a contact table stored by a server according to an embodiment of the present disclosure.
• the user information corresponding to the vehicle ID "V1" includes the user ID “U1", the contact method "email”, and the contact information.
• the user information corresponding to the vehicle ID “V2” includes the user ID “U2”, the contact method "telephone”, and the contact information.
• the user information corresponding to the vehicle ID “V3” includes the user ID "U3", the contact method "email", and the contact information.
• the contact table Tb20 may be registered in advance in the memory unit 35 by, for example, a dealer, etc.
• the processing unit 33 When the processing unit 33 completes the table update process, it outputs a notification to the sending unit 43 that the contact table Tb20 has been updated. On the other hand, when the ID correspondence is registered in the setting status table Tb10, the processing unit 33 does not perform the user registration process or the table update process.
• the transmitting unit 43 transmits, based on the user corresponding information in the memory unit 35, installation information indicating that the in-vehicle device 201 having the receiving identification information is installed in the vehicle 1 to the user identified by the user ID corresponding to the vehicle ID received by the receiving unit 41.
• the transmission unit 43 when the transmission unit 43 receives a notification from the processing unit 33 that the contact table Tb20 has been updated, the transmission unit 43 refers to the contact table Tb20 and the ID acquisition information stored in the memory unit 35, and identifies the user ID corresponding to the vehicle ID included in the ID acquisition information. In other words, if the ID correspondence is not registered in the setting status table Tb10, the transmission unit 43 refers to the contact table Tb20 and the ID acquisition information stored in the memory unit 35, and identifies the user ID corresponding to the vehicle ID included in the ID acquisition information. Then, the transmission unit 43 transmits the on-board information to the user having the identified user ID by the contact method corresponding to the user ID included in the contact table Tb20.
• the user When the user receives the on-board information from the server 101, the user decides whether or not to approve the connection between the on-board device 201 indicated in the on-board information and the vehicle 1. Then, when the terminal device 301 accepts input of approval information from the user, it transmits the accepted approval information to the on-board device 201.
• the second communication unit 13 when the second communication unit 13 receives approval information from the terminal device 301, it outputs the received approval information to the transmission processing unit 22.
• the transmission processing unit 22 transmits the approval information received from the second communication unit 13 to the server 101.
• the receiving unit 41 when the receiving unit 41 receives approval information from the user, as response information from the user to the onboard information, indicating approval of the connection between the onboard device 201 having the received identification information and the vehicle 1, the receiving unit 41 outputs a notification that the approval information has been received (hereinafter also referred to as an "approval reception notification") to the processing unit 33, the setting unit 34, and the update request unit 42.
• the processing unit 33 When the processing unit 33 receives an approval reception notification from the receiving unit 41, it refers to the setting status table Tb10 and the ID acquisition information stored in the memory unit 35. Then, the processing unit 33 checks whether the vehicle device ID included in the ID acquisition information, i.e., the reception identification information, is registered in the setting status table Tb10.
• the processing unit 33 determines that the installation location of the in-vehicle device 201 having the received identification information has been changed to the vehicle 1 having the vehicle ID received by the receiving unit 41. In other words, the processing unit 33 determines that the vehicle ID received by the receiving unit 41 is the vehicle ID of the vehicle 1 in which the in-vehicle device 201 is installed (hereinafter also referred to as "changed identification information"), transmitted from the in-vehicle device 201 whose installation location has been changed.
• the processing unit 33 determines that the in-vehicle device 201 having the receiving identification information has not been moved, but has been installed in the vehicle for the first time.
• the processing unit 33 has confirmed that the receiving identification information is not registered in the setting status table Tb10.
• the processing unit 33 notifies the setting unit 34 and the update request unit 42 of the confirmation result.
• the setting unit 34 When the setting unit 34 receives an approval reception notification from the receiving unit 41 and also receives a notification from the processing unit 33 that the reception identification information is not registered in the setting status table Tb10 (hereinafter also referred to as a "non-registration notification"), the setting unit 34 selects a server-side program to be executed that corresponds to the vehicle model identified by the vehicle ID received by the receiving unit 41 from among a plurality of types of server-side programs. That is, when the receiving unit 41 receives approval information and the reception identification information is not registered in the setting status table Tb10, the setting unit 34 performs setting processing to set the computer program that corresponds to the vehicle model identified by the vehicle ID received by the receiving unit 41 as the server-side program.
• the setting unit 34 uses a management table Tb30 that includes the correspondence between the vehicle ID and the server-side program.
• the management table Tb30 is stored in the memory unit 35.
• FIG. 6 shows an example of a management table stored by a server according to an embodiment of the present disclosure.
• the server-side program corresponding to the vehicle model "AAA” specified by the vehicle ID "V1” and the server-side program corresponding to the vehicle model "FFF” specified by the vehicle ID “V6” are “spg-1".
• the server-side program corresponding to the vehicle model "BBB” specified by the vehicle ID "V2” and the server-side program corresponding to the vehicle model "EEE” specified by the vehicle ID "V5" are “spg-2”.
• the server-side programs “spg-1", “spg-2", “spg-3", and “spg-4" are examples of a first computer program.
• the setting unit 34 when the setting unit 34 receives an approval reception notification from the receiving unit 41 and an unregistered notification from the processing unit 33, it refers to the management table Tb30 and the ID acquisition information stored in the memory unit 35, and identifies the server-side program corresponding to the vehicle ID included in the ID acquisition information.
• the setting unit 34 determines the identified server-side program as a computer program for processing vehicle information related to the vehicle type of vehicle 1 identified by the vehicle ID received by the receiving unit 41.
• the setting unit 34 then registers the identified server-side program in the setting status table Tb10 shown in FIG. 4 in association with the vehicle ID received by the receiving unit 41.
• server-side program “spg-1” is associated with vehicle ID “V1
• server-side program “spg-2” is associated with vehicle ID “V2”
• server-side program “spg-3” is associated with vehicle ID "V3.”
• the "vehicle-side programs” shown in FIG. 4 will be described later.
• the setting unit 34 When the setting process is completed, the setting unit 34 outputs setting completion information to the transmission unit 43.
• Update Request Unit When the receiving unit 41 receives approval information and the received identification information is not registered in the setting status table Tb10, the update request unit 42 performs update request processing to send update request information to the in-vehicle device 201 to request an update to the vehicle-side program that performs the transmission processing and is a computer program corresponding to the vehicle ID received by the receiving unit 41.
• the setting unit 34 when the setting unit 34 receives an approval reception notification from the receiving unit 41 and also receives a notification from the processing unit 33 that the reception identification information is not registered in the setting status table Tb10, the setting unit 34 performs an update request process.
• the management table Tb30 in the memory unit 35 contains the correspondence between the vehicle ID and the vehicle-side program.
• the vehicle side program corresponding to vehicle IDs "V1" and “V6” is “vpg-1”
• the vehicle side program corresponding to vehicle IDs "V2" and “V5" is “vpg-2”
• the vehicle side program corresponding to vehicle ID "V3” is “vpg-3”
• the vehicle side program corresponding to vehicle ID "V4" is “vpg-4”.
• the vehicle side programs "vpg-1”, “vpg-2", “vpg-3", and "vpg-4" are examples of the second computer program.
• the update request unit 42 When the update request unit 42 receives an approval reception notification from the receiving unit 41 and an unregistered notification from the processing unit 33, it refers to the management table Tb30 and the ID acquisition information stored in the memory unit 35, and identifies the vehicle-side program that corresponds to the vehicle ID included in the ID acquisition information.
• the update request unit 42 transmits update request information including, for example, a URL (Uniform Resource Locator) indicating the download source of the identified vehicle-side program to the in-vehicle device 201.
• the update request information may include the vehicle-side program corresponding to the vehicle ID received by the receiving unit 41 instead of the above URL.
• the update request unit 42 also registers the identified vehicle-side program in the setting status table Tb10 in association with the vehicle ID received by the receiving unit 41.
• vehicle ID "V1” is associated with vehicle side program “vpg-1”
• vehicle ID "V2” is associated with vehicle side program “vpg-2”
• vehicle ID "V3” is associated with vehicle side program “vpg-3.”
• the update unit 23 in the in-vehicle device 201 performs an update process to update the vehicle-side program stored in the in-vehicle device 201 to a new vehicle-side program (hereinafter also referred to as an "update program") corresponding to the vehicle ID acquired by the acquisition unit 14, based on the update request information received from the server 101.
• a new vehicle-side program hereinafter also referred to as an "update program”
• the receiving unit 21 receives update request information from the server 101, it outputs the received update request information to the update unit 23.
• the update unit 23 When the update unit 23 receives update request information from the receiving unit 21, it outputs download request information to the receiving unit 21 to request the download of the update program.
• the receiving unit 21 When the receiving unit 21 receives download request information from the update unit 23, it accesses the URL included in the update request information received from the server 101 and downloads the update program.
• the update unit 23 transmits update completion information to the server 101. More specifically, the receiving unit 21 outputs a notification to the update unit 23 that the update program has been downloaded. When the update unit 23 receives the notification from the receiving unit 21, it transmits update completion information to the server 101. In addition, the receiving unit 21 stores the downloaded update program in the storage unit 15.
• the receiver 41 when the receiver 41 receives the update completion information from the in-vehicle device 201, it outputs a notification to the transmitter 43 that the update completion information has been received.
• the transmitting unit 43 When the transmitting unit 43 receives setting completion information from the setting unit 34 and receives a notification from the receiving unit 41 that the update completion information has been received, the transmitting unit 43 transmits permission information to the in-vehicle device 201 indicating that the in-vehicle device 201 is permitted to execute the transmission process. In other words, when the setting process by the setting unit 34 is completed and the receiving unit 41 receives update completion information from the in-vehicle device 201, the transmitting unit 43 transmits the permission information to the in-vehicle device 201.
• the receiving unit 21 when the receiving unit 21 receives the permission information from the server 101, it outputs a notification to the transmission processing unit 22 that the permission information has been received.
• the transmission processing unit 22 receives the notification from the receiving unit 21 that the permission information has been received, it reads out the updated vehicle-side program stored in the storage unit 15, i.e., the update program.
• the transmission processing unit 22 performs the transmission process by executing the read update program.
• the acquisition unit 14 in the in-vehicle device 201 periodically or irregularly acquires its own in-vehicle device ID and the vehicle ID of the new vehicle 1 (hereinafter also referred to as the "changed vehicle").
• the acquisition unit 14 outputs ID acquisition information including its own vehicle-mounted device ID and the vehicle ID of the changed vehicle to the transmission processing unit 22.
• the transmission processing unit 22 transmits the ID acquisition information received from the acquisition unit 14 to the server 101.
• the receiver 41 stores the ID acquisition information received from the in-vehicle device 201 in the memory 35, and outputs a notification to the processor 33 that the ID acquisition information has been received.
• the processing unit 33 When the processing unit 33 receives a notification from the receiving unit 41 that the ID acquisition information has been received, it performs the above-mentioned "ID confirmation process.”
• the processing unit 33 sends the above-mentioned "information request notification" to the in-vehicle device 201.
• the in-vehicle device 201 When the in-vehicle device 201 receives an information request notification from the server 101, it acquires the above-mentioned "user information" from the terminal device 301 and transmits it to the server 101.
• the processing unit 33 when the processing unit 33 receives a notification from the receiving unit 41 that user information has been received, the processing unit 33 performs a process of updating the above-mentioned "contact table Tb20.”
• the processing unit 33 when the processing unit 33 receives a notification from the receiving unit 41 that the user information has been received, it updates the contact table Tb20 based on the user information and ID acquisition information stored in the memory unit 35.
• FIG. 7 shows an example of a contact table after it has been updated by a server according to an embodiment of the present disclosure.
• the user information corresponding to the vehicle ID "V4" of the changed vehicle includes the user ID "U2", the contact method "telephone", and contact information. That is, in the example shown in FIG. 7, the user ID "U2" of the user of the changed vehicle is the same as the user of vehicle 1 with the vehicle ID "V2" before the installation location of the in-vehicle device 201 was changed.
• the processing unit 33 when the processing unit 33 receives a notification from the receiving unit 41 that the user information has been received, the processing unit 33 performs the above-mentioned "user registration process" to update the setting status table Tb10 stored in the storage unit 35.
• FIG. 8 shows an example of a setting status table after updating by a server according to an embodiment of the present disclosure.
• the processing unit 33 associates the user ID "U2" with the vehicle ID "V4.” That is, the processing unit 33 changes the vehicle ID corresponding to the user ID "U2" from “V2" to "V4" in the setting status table Tb10.
• the processing unit 33 may perform, in addition to the user registration process and the contact table update process, a transmission process by the in-vehicle device 201, i.e., a process of outputting invalid information to the transmission unit 43 requesting the invalidation of the function of acquiring and transmitting vehicle information.
• the transmission unit 43 transmits the invalid information received from the processing unit 33 to the in-vehicle device 201.
• the transmitting unit 43 when the transmitting unit 43 receives a notification from the processing unit 33 that the contact table Tb20 has been updated and that the ID correspondence is not registered in the setting status table Tb10, the transmitting unit 43 transmits mounting information indicating that the in-vehicle device 201 having the received identification information has been mounted in the changed vehicle to the user identified by the user ID corresponding to the vehicle ID received by the receiving unit 41.
• the receiving unit 41 When the receiving unit 41 receives the above-mentioned "approval information" from the user as response information from the user to the loading information, it outputs an approval reception notification to the processing unit 33, the setting unit 34, and the update request unit 42.
• the processing unit 33 When the processing unit 33 receives an approval reception notification from the receiving unit 41, it refers to the ID acquisition information stored in the memory unit 35 and checks whether the vehicle-mounted device ID included in the ID acquisition information, i.e., the receiving identification information, is registered in the setting status table Tb10. Here, it is assumed that the processing unit 33 has confirmed that the receiving identification information is registered in the setting status table Tb10.
• the processing unit 33 When the receiving identification information is registered in the setting status table Tb10, the processing unit 33 performs a network confirmation process to confirm whether the configuration of the in-vehicle network in the vehicle 1 before the installation location is changed (hereinafter also referred to as the "pre-change network”) is the same as the configuration of the in-vehicle network in the vehicle 1 after the installation location is changed (hereinafter also referred to as the "post-change network").
• the management table Tb30 in the memory unit 35 includes the correspondence between the configuration of the in-vehicle network in the vehicle 1 and the vehicle ID.
• the vehicle IDs corresponding to the in-vehicle network configuration "N1" are “V1” and “V6”
• the vehicle IDs corresponding to the in-vehicle network configuration "N2” are “V2" and "V5"
• the vehicle ID corresponding to the in-vehicle network configuration "N3” is “V3”
• the vehicle ID corresponding to the in-vehicle network configuration "N4" is "V4".
• the processing unit 33 refers to the setting status table Tb10 stored in the memory unit 35 and identifies the vehicle ID (hereinafter also referred to as the "registered vehicle ID") that corresponds to the received identification information.
• the processing unit 33 refers to the management table Tb30 stored in the memory unit 35 and checks whether the pre-change network configuration corresponding to the vehicle ID before the installation location of the in-vehicle device 201 was changed is the same as the post-change network configuration corresponding to the change identification information.
• the processing unit 33 notifies the setting unit 34 and the update request unit 42 of the check result.
• the setting unit 34 When the setting unit 34 receives a notification from the processing unit 33 that the pre-change network configuration is different from the post-change network configuration, the setting unit 34 performs a setting process. In other words, when the pre-change network configuration is different from the post-change network configuration, the setting unit 34 sets a computer program corresponding to the vehicle model identified by the change identification information in a server-side program for processing vehicle information related to the vehicle 1 in which the on-board device 201 is installed in the server 101.
• setting unit 34 refers to management table Tb30 stored in memory unit 35, and sets server-side program "spg-4" corresponding to vehicle model "DDD" identified by vehicle ID "V4" as the server-side program.
• Server-side program "spg-4" is an example of a third computer program.
• the setting unit 34 registers the identified server-side program in association with the change identification information in the setting status table Tb10. As shown in FIG. 8, the setting unit 34 registers the server-side program "spg-4" in association with the vehicle ID "V4".
• the setting unit 34 receives a notification from the processing unit 33 that the pre-change network configuration and the post-change network configuration are the same, the setting unit 34 does not perform the setting process.
• the update request unit 42 When the update request unit 42 receives a notification from the processing unit 33 that the pre-change network configuration and the post-change network configuration are different, the update request unit 42 performs update request processing. In other words, when the pre-change network configuration and the post-change network configuration are different, the update request unit 42 transmits update request information to the in-vehicle device 201 to request an update to a new vehicle-side program that corresponds to the change identification information.
• the update request unit 42 refers to the management table Tb30 stored in the memory unit 35, and sends to the in-vehicle device 201 update request information for requesting an update to the vehicle-side program "vpg-4" corresponding to the vehicle ID "V4". Then, as shown in FIG. 6, the update request unit 42 registers the vehicle-side program "vpg-4" in association with the vehicle ID "V4".
• the vehicle-side program "vpg-4" is an example of a fourth computer program.
• the update request unit 42 receives a notification from the processing unit 33 that the pre-change network configuration and the post-change network configuration are the same, the update request unit 42 does not perform the update request process.
• the server-side program corresponding to the vehicle model "BBB” identified by the vehicle ID "V2" and the server-side program corresponding to the vehicle model "FFF” identified by the vehicle ID "V5" are "spg-2".
• FIG. 9 shows another example of a setting status table after updating according to an embodiment of the present disclosure.
• the setting unit 34 maintains the server-side program "spg-2" corresponding to the vehicle ID "V5" as the server-side program corresponding to the vehicle ID "V2". In other words, even if the installation location of the in-vehicle device 201 with the in-vehicle device ID "R2" is changed, the setting unit 34 maintains the server-side program for processing the vehicle information received from the in-vehicle device 201 without changing it.
• the update request unit 42 receives a notification from the processing unit 33 that the pre-change network configuration and the post-change network configuration are the same, the update request unit 42 does not perform the update request process.
• the update request unit 42 maintains the server-side program corresponding to the vehicle ID "V5", "vpg-2", which is the same as the vehicle-side program corresponding to the vehicle ID "V2". In other words, even if the installation destination of the in-vehicle device 201 with the in-vehicle device ID "R2" is changed, the update request unit 42 maintains the vehicle-side program for processing the vehicle information received from the in-vehicle device 201 without changing it.
• FIG. 10 is a flowchart defining an operation procedure of processing by the in-vehicle device according to the embodiment of the present disclosure.
• the in-vehicle device 201 starts up when the ignition power of the vehicle 1 is switched from an off state to an on state (step S101).
• the in-vehicle device 201 acquires the vehicle ID from the vehicle 1 (step S102).
• the in-vehicle device 201 transmits ID acquisition information including its own in-vehicle device ID and the acquired vehicle ID to the server 101 (step S103).
• the in-vehicle device 201 receives update request information from the server 101 (YES in step S104), it performs an update process to update the vehicle-side program to a new vehicle-side program corresponding to the acquired vehicle ID based on the update request information (step S105).
• the in-vehicle device 201 transmits update completion information to the server 101 (step S106).
• the in-vehicle device 201 waits to execute the transmission process until it receives permission information from the server 101 that allows the execution of the transmission process (NO in step S107). If it receives the permission information (YES in step S107), it performs the transmission process until the ignition power is switched from the ON state to the OFF state (NO in step S109). For example, as described above, the in-vehicle device 201 executes the updated vehicle-side program to acquire vehicle information from the in-vehicle equipment 211 and transmits the acquired vehicle information to the server 101 (step S108).
• step S109 when the ignition power is switched from the OFF state to the ON state (YES in step S109), the in-vehicle device 201 stops the transmission process (step S110).
• FIG. 11 is a flowchart showing the operation procedure of the setting process and update request process by the server according to an embodiment of the present disclosure.
• the server 101 receives ID acquisition information including the in-vehicle device ID and the vehicle ID from the in-vehicle device 201 (step S201).
• the server 101 updates the contact table Tb20 indicating the correspondence between the vehicle ID and the user information. For example, as described above, the server 101 transmits an information request notification to the in-vehicle device 201 to request user information. The server 101 then updates the contact table Tb20 based on the user information received from the in-vehicle device 201 (step S203).
• the server 101 transmits to the user the on-board device ID included in the received ID acquisition information, i.e., mounting information indicating that the on-board device 201 having the received identification information has been mounted on the vehicle 1.
• the server 101 refers to the contact table Tb20 in the storage unit 35 and transmits the mounting information to the user identified by the user ID corresponding to the vehicle ID included in the received ID acquisition information (step S204).
• the server 101 receives approval information as a response from the user to the loading information (YES in step S205), it checks whether the received identification information is registered in the setting status table Tb10 (step S206).
• the server 101 checks whether the pre-change network configuration and the post-change network configuration are the same (step S207).
• the server 101 performs a setting process. For example, as described above, the server 101 sets the computer program corresponding to the vehicle model identified by the change identification information as the server-side program (step S208).
• the server 101 performs an update request process. For example, as described above, the server 101 transmits update request information to the in-vehicle device 201 requesting an update to a new vehicle-side program corresponding to the change identification information (step S209). Note that steps S208 and S209 may be executed in a reverse order, or may be executed in parallel.
• the server 101 receives update completion information from the in-vehicle device 201 (YES in step S210), it transmits permission information to the in-vehicle device 201 (step S211).
• the server 101 performs setting processing. For example, as described above, the server 101 sets the computer program corresponding to the vehicle model identified by the vehicle ID included in the received ID acquisition information as the server-side program (step S208).
• the server 101 performs an update request process. For example, as described above, the server 101 transmits to the in-vehicle device 201 update request information requesting an update to a new vehicle-side program corresponding to the vehicle ID included in the received ID acquisition information (step S209).
• step S202 if the ID correspondence is registered in the setting status table Tb10 (YES in step S202), if approval information cannot be received even after a certain period of time has elapsed (NO in step S205), or if the pre-change network configuration and the post-change network configuration are the same (YES in step S207), the server 101 will not perform setting processing or update request processing.
• FIG. 12 is a diagram showing an example of a processing sequence of a server, an in-vehicle device, and a terminal device in a communication system according to an embodiment of the present disclosure.
• the in-vehicle device 201 starts up and acquires the vehicle ID of the vehicle 1 in which the in-vehicle device 201 is mounted from the vehicle 1 (step S301).
• the in-vehicle device 201 transmits ID acquisition information including its own in-vehicle device ID and the acquired vehicle ID to the server 101 (step S302).
• the server 101 performs ID confirmation processing based on the ID acquisition information received from the in-vehicle device 201. For example, as described above, the server 101 checks whether the ID correspondence between the in-vehicle device ID and the vehicle ID contained in the received ID acquisition information is registered in the setting status table Tb10. Here, it is assumed that the ID correspondence is not registered in the setting status table Tb10 (step S303).
• the server 101 sends an information request notification to the in-vehicle device 201 to request user information about the user of the vehicle 1 (step S304).
• the in-vehicle device 201 transmits transmission request information to the terminal device 301 indicating a request to transmit user information to the in-vehicle device 201 (step S305).
• the terminal device 301 transmits the user information to the in-vehicle device 201 in response to the information request notification received from the in-vehicle device 201 (step S306).
• the in-vehicle device 201 transmits the user information received from the terminal device 301 to the server 101 (step S307).
• the server 101 updates the contact table Tb20 based on the user information and ID acquisition information received from the in-vehicle device 201 (step S308).
• the server 101 transmits the on-board device ID included in the received ID acquisition information, i.e., installation information indicating that the on-board device 201 having the received identification information is installed in the vehicle 1, to the user identified by the user ID corresponding to the vehicle ID included in the received ID acquisition information (step S309).
• the user transmits to the server 101, as response information corresponding to the onboard information received from the server 101, approval information indicating approval of the connection between the onboard device 201 having the received identification information and the vehicle 1 (step S310).
• the server 101 checks whether the received identification information is registered in the setting status table Tb10.
• the server 101 has confirmed that the vehicle-mounted device ID included in the ID acquisition information is not registered in the setting status table Tb10 (step S311).
• the server 101 performs a setting process to set the computer program corresponding to the vehicle model identified by the vehicle ID included in the received ID acquisition information as the server-side program (step S312).
• the server 101 performs an update request process to transmit update request information to the in-vehicle device 201 to request an update to a new vehicle-side program corresponding to the vehicle ID included in the received ID acquisition information (step S313).
• steps S312 and S313 may be executed in reverse order or in parallel.
• the in-vehicle device 201 performs an update process to update the vehicle-side program stored in itself to a new vehicle-side program corresponding to the acquired vehicle ID based on the update request information received from the server 101 (step S314).
• the in-vehicle device 201 transmits update completion information to the server 101 (step S315).
• the server 101 transmits permission information to the in-vehicle device 201 indicating that the in-vehicle device 201 is permitted to execute the transmission process (step S316).
• the in-vehicle device 201 executes the updated vehicle-side program to perform the transmission process (step S317).
• FIG. 13 is a diagram showing another example of the processing sequence of a server, an in-vehicle device, and a terminal device in a communication system according to an embodiment of the present disclosure.
• step S401 to step S410 shown in FIG. 13 are similar to the processes from step S301 to step S310 shown in FIG. 12.
• the server 101 checks whether the receiving identification information is registered in the setting status table Tb10. Here, it is assumed that the server 101 has confirmed that the receiving identification information is registered in the setting status table Tb10 (step S411).
• server 101 checks whether the pre-change network configuration and the post-change network configuration are the same. For example, as described above, server 101 refers to management table Tb30 and checks that the pre-change network configuration and the post-change network configuration are different (step S412).
• the server 101 performs a setting process to set the computer program corresponding to the vehicle type identified by the vehicle ID included in the received ID acquisition information as the server-side program (step S413).
• the server 101 performs an update request process to transmit update request information to the in-vehicle device 201 to request an update to a new vehicle-side program corresponding to the vehicle ID included in the received ID acquisition information (step S414).
• steps S413 and S414 may be executed in reverse order or in parallel.
• step S415 to step S418 shown in FIG. 13 are similar to the processes from step S314 to step S317 shown in FIG. 12.
• the transmission unit 43 is configured to transmit the on-board information to a user identified by a user ID corresponding to the vehicle ID included in the ID acquisition information, but this is not limited to the above.
• the transmission unit 43 may be configured not to transmit the on-board information to the user.
• the setting unit 34 receives a notification from the processing unit 33 that the ID correspondence is not registered in the setting status table Tb10
• the setting unit 34 performs setting processing.
• the update request unit 42 receives a notification from the processing unit 33 that the ID correspondence is not registered in the setting status table Tb10
• the update request unit 42 performs update request processing.
• the transmitting unit 43 is configured to transmit permission information to the in-vehicle device 201 when the setting process by the setting unit 34 is completed and the receiving unit 41 receives update completion information from the in-vehicle device 201, but this is not limited to the above.
• the transmitting unit 43 may be configured not to transmit permission information, and the in-vehicle device 201 may be configured to start the transmission process without transmitting update completion information when it completes updating the second computer program.
• the server 101 according to the embodiment of the present disclosure may be provided by cloud computing.
• the server 101 according to the embodiment of the present disclosure may be a cloud server composed of multiple servers.
• Each process (each function) in the above-mentioned embodiments is realized by a processing circuit including one or more processors.
• the processing circuit may be composed of an integrated circuit or the like that combines one or more memories, various analog circuits, and various digital circuits in addition to the one or more processors.
• the one or more memories store computer programs (instructions) that cause the one or more processors to execute each of the above processes.
• the one or more processors may execute each of the above processes according to the computer program read from the one or more memories, or may execute each of the above processes according to a logic circuit designed in advance to execute each of the above processes.
• the processor may be any of various processors suitable for computer control, such as a CPU (Central Processing Unit), a GPU (Graphics Processing Unit), a DSP (Digital Signal Processor), an FPGA (Field Programmable Gate Array), and an ASIC (Application Specific Integrated Circuit).
• the physically separated processors may cooperate with each other to execute the above processes.
• the processors mounted on each of the physically separated computers may cooperate with each other via a network such as a LAN (Local Area Network), a WAN (Wide Area Network), or the Internet to execute the above processes.
• the computer program may be installed into the memory from an external server device or the like via the network, or may be distributed in a state stored on a recording medium such as a CD-ROM (Compact Disc Read Only Memory), a DVD-ROM (Digital Versatile Disc Read Only Memory), or a semiconductor memory, and may be installed into the memory from the recording medium.
• a recording medium such as a CD-ROM (Compact Disc Read Only Memory), a DVD-ROM (Digital Versatile Disc Read Only Memory), or a semiconductor memory, and may be installed into the memory from the recording medium.
• a management device A processing circuit is provided, The processing circuitry includes: receiving vehicle identification information for identifying a vehicle from an on-board device mounted on the vehicle; performing a setting process of setting a computer program corresponding to the vehicle type identified by the received vehicle identification information as a first computer program for processing vehicle information related to the vehicle in the management device; A management device that performs update request processing to send update request information to the in-vehicle device to request an update to a second computer program, which is a computer program corresponding to the received vehicle identification information and which performs a transmission process in which the in-vehicle device acquires the vehicle information and transmits it to the management device.
• An in-vehicle device that is mounted on a vehicle and transmits and receives information to and from a management device, A processing circuit is provided, The processing circuitry includes: acquiring vehicle identification information for identifying the vehicle in which the in-vehicle device is installed; performing an update process for updating the computer program stored in the in-vehicle device to a new computer program that corresponds to the acquired vehicle identification information and that performs the transmission process, based on update request information received from the management device, the update request information requesting an update of a computer program that performs a transmission process in which the in-vehicle device acquires vehicle information related to the vehicle and transmits it to the management device; The transmission process is performed by executing the updated computer program; When the update process is completed, the in-vehicle device transmits update completion information to the management device.
• REFERENCE SIGNS LIST 1 vehicle 11 first communication unit 12 setting processing unit 13 second communication unit 14 acquisition unit 15, 35 storage unit 21 receiving unit 22 transmission processing unit 23 update unit 31 communication unit 32 analysis unit 33 processing unit 34 setting unit 41 receiving unit 42 update request unit 43 transmission unit 51, 51A, 51B CAN bus 101 server 151 external network 201 in-vehicle device 211, 211A, 211B in-vehicle equipment 212 vehicle ID storage unit 301 terminal device 501 communication system Tb10 setting status table Tb20 management table Tb30 contact table

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  • 2023-10-16 WO PCT/JP2023/037376 patent/WO2024116619A1/ja not_active Ceased
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