JP7198320B2 - Vehicle diagnosis system and mobile terminal device and server device used therefor - Google Patents

Description

The present invention provides a vehicle diagnostic system that provides information for knowing the state of a vehicle, a portable terminal device that is carried by a passenger of the vehicle and used in the vehicle diagnostic system, and a vehicle diagnostic device that is arranged on the Internet and is used for the vehicle diagnostic system. The present invention relates to a server device used in a system.

BACKGROUND ART Conventionally, a vehicle diagnostic system described in Patent Document 1 is known. This vehicle diagnostic system exchanges information with various ECUs (control devices) installed in the vehicle, and can communicate with devices on the Internet. terminal, PDA, etc.) and an information server installed on the Internet. In this system, when a request (vehicle identification information such as manufacturer name, car name, model year, etc. for identifying a vehicle to be diagnosed) is sent from a mobile communication terminal to an information server device, the information server device sends a request to an OBD terminal. The request will be communicated. Then, in response to the request, the OBD terminal receives diagnostic result information indicating the results of diagnosing vehicle equipment from various ECUs of the vehicle, and transmits the diagnostic result information to the server device. The information server device that has received the diagnostic result information from the OBD terminal transmits the diagnostic result information to the mobile communication terminal, and the diagnostic result information is displayed on the display section of the mobile terminal device. As a result, the owner of the mobile terminal device, for example, the passenger of the vehicle can see the diagnosis result information of the vehicle.

JP 2009-264770 A

By the way, in the above-mentioned conventional vehicle diagnostic system, diagnostic result information from various ECUs of the vehicle collected by the OBD terminal is only displayed on the mobile communication terminal. It is difficult for a person who is poor in knowledge such as to understand the actual state of the vehicle just by looking at the diagnostic information displayed on the display unit of the mobile communication terminal. For example, even if battery voltage information representing the state of the vehicle is displayed, it is difficult to know when to replace the battery based on the voltage.

SUMMARY OF THE INVENTION The present invention has been made in view of such circumstances, and provides a vehicle diagnostic system that can appropriately assist in diagnosing a vehicle for a person who has little knowledge of the vehicle.

The present invention also provides a mobile terminal device and a server device used in the vehicle diagnosis system as described above.

A first vehicle diagnostic system according to the present invention comprises an adapter mounted on a vehicle for transmitting and receiving information to and from a control device of the vehicle, and communication enabling transmission and reception of information between the adapter and devices on the Internet. a system, a diagnostic terminal device capable of communicating with devices on the Internet, and a server device on the Internet capable of communicating with the adapter via the communication system and communicating with the diagnostic terminal device; a request command transmission system for sequentially transmitting an information request command transmitted from the diagnostic terminal device according to a predetermined operation to the server device on the Internet and from the server device to the adapter via the communication system; and transmitting the vehicle information representing the state of the vehicle, which the adapter has acquired from the control device of the vehicle in response to the information request command, to the server device on the Internet via the communication system; a request response transmission system for transmitting from the device to the diagnostic terminal device, wherein the diagnostic terminal device transmits information based on the vehicle information received after transmitting the information request command for diagnosing the vehicle. It is configured to include an information output unit for outputting as the information.

With such a configuration, an information request command transmitted from the diagnostic terminal device according to a predetermined operation is sequentially transmitted to the server device on the Internet and then from the server device to the adapter via the communication system. vehicle information representing the state of the vehicle, which the adapter acquires from the vehicle control device in response to the request, is sent from the adapter to the server device on the Internet via the communication system, and from the server device to the diagnostic terminal device. sequentially transmitted to Upon receiving the vehicle information after transmitting the information request command, the diagnosis terminal device outputs information based on the vehicle information as information for diagnosing the vehicle. Then, the state of the vehicle can be diagnosed based on the information output from the diagnosis terminal device.

In the first vehicle diagnostic system according to the present invention, the communication system includes a short-range wireless communication unit that is provided in the adapter and performs wireless communication according to a predetermined short-range wireless communication rule, and operates according to a predetermined application program, a mobile terminal device capable of communicating with the device on the Internet while performing wireless communication with the short-range wireless communication unit of the adapter according to the short-range wireless communication rule; The information request command transmitted from the device is transmitted to the server device on the Internet, from the server device to the mobile terminal device, and further from the mobile terminal device to wireless communication according to the short-range wireless communication rule. to the short-range wireless communication unit of the adapter, and the request response transmission system transmits the vehicle information acquired by the adapter from the control device of the vehicle from the short-range wireless communication unit to the short-range wireless communication unit. The data may be sequentially transmitted to the mobile terminal device, from the mobile terminal device to the server device, and further from the server device to the diagnosis terminal device by wireless communication according to communication rules.

With such a configuration, when a person who has a mobile terminal device gets into a vehicle, the mobile terminal device communicates wirelessly with the short-range wireless communication unit of the adapter mounted on the vehicle in accordance with the short-range wireless communication rules. In a possible state, an information request command transmitted from the diagnostic terminal device according to a predetermined operation is sent to the server device on the Internet, from the server device on the Internet to the mobile terminal device, and further from the mobile terminal device to the nearby device. Vehicle information representing the state of the vehicle, which is sequentially transmitted to the short-range wireless communication unit (adapter) by wireless communication according to the long-range wireless communication regulations, and which the adapter acquires from the vehicle control device in response to the information request command. , from the short-range wireless communication unit (adapter) to the mobile terminal device by wireless communication according to the short-range wireless communication rules, from the mobile terminal device to the server device on the Internet, and further from the server device to the They are sequentially transmitted to the diagnostic terminal.

In the first vehicle diagnostic system according to the present invention, the diagnostic terminal device uses the information generated according to a predetermined operation after the information output unit outputs the information as the diagnostic result information of the vehicle. It can be configured to have a diagnosis result transmission unit that transmits to the portable terminal device.

With such a configuration, information representing the result of diagnosing a vehicle (remote diagnosis) based on the information output by the information output unit of the diagnostic terminal device is generated by a predetermined operation, so that the information can be The diagnostic result of the vehicle is sent to the portable terminal device. As a result, the owner of the portable terminal device (for example, the driver of the vehicle) can know the state of the vehicle by checking the information as the diagnosis result on the portable terminal device.

In the first vehicle diagnostic system according to the present invention, the server device forms a communication path between the adapter and the portable terminal device connected in a state capable of wireless communication according to the short-range wireless communication rule. The configuration may include first communication path formation means and second communication path formation means for forming a communication path with the diagnostic terminal device.

With such a configuration, the server device forms a communication path between the server device and the portable terminal device, and also forms a communication path between the server device and the diagnostic terminal device. a request command transmission system for sequentially transmitting the information request command transmitted from a diagnostic terminal device to the short-range wireless communication unit of the adapter; A request-response transmission system can be constructed for sequentially transmitting from the communication unit to the diagnostic terminal device.

In the first vehicle diagnostic system according to the present invention, the mobile terminal device includes vehicle stop confirmation means for confirming that the vehicle is in a predetermined stopped state based on the vehicle information transmitted from the adapter; and communication connection control means for permitting communication with the server device after the vehicle stop confirmation means confirms that the vehicle is in the stopped state.

With such a configuration, when the vehicle is in a stopped state, communication between the mobile communication terminal and the server device on the Internet is permitted. validate. As a result, when the vehicle is not stationary, an information request command is transmitted to the adapter to prevent the adapter from retrieving vehicle information from the vehicle controller in response to the information request command. That is, while the vehicle is running, it is possible to prevent transmission and reception of information between the adapter and the controller that controls each part of the vehicle.

A second vehicle diagnostic system according to the present invention is mounted on a vehicle, transmits and receives information to and from a control device of the vehicle, and communicates with an adapter capable of wireless communication according to a predetermined short-range wireless communication rule and according to a predetermined application program. a mobile terminal device capable of communicating with a device on the Internet while performing wireless communication with the adapter according to the short-range wireless communication rules, a diagnostic terminal device capable of communicating with the device on the Internet, and the mobile terminal a server device on the Internet capable of communicating with each of the device and the terminal device for diagnosis; sending an information request command transmitted from the terminal device for diagnosis according to a predetermined operation to the server device on the Internet; a request command transmission system for sequentially transmitting from the server device to the mobile terminal device and further from the mobile terminal device to the adapter by wireless communication according to the short-range wireless communication rules; and in response to the information request command, the Vehicle information indicating the state of the vehicle acquired by the adapter from the control device of the vehicle is transmitted to the mobile terminal device by wireless communication according to the short-range wireless communication rule, and from the mobile terminal device to the server device. and a request response transmission system for sequentially transmitting from the server device to the diagnostic terminal device, wherein the diagnostic terminal device transmits information based on the vehicle information received after transmitting the information request command. and an information output unit for outputting information for diagnosing the vehicle.

With such a configuration, an information request command transmitted from the diagnostic terminal device according to a predetermined operation is transmitted to the server device on the Internet, from the server device to the mobile terminal device, and further from the mobile terminal device to the short-distance command. Vehicle information representing the state of the vehicle, which is sequentially transmitted to the adapter by wireless communication according to wireless communication regulations and obtained from the vehicle control device by the adapter in response to the information request command, is transmitted from the adapter to the short-range wireless communication. The information is sequentially transmitted to the mobile terminal device, from the mobile terminal device to the server device, and further from the server device to the diagnostic terminal device by wireless communication according to communication rules. Upon receiving the vehicle information after transmitting the information request command, the diagnosis terminal device outputs information based on the vehicle information as information for diagnosing the vehicle.

An adapter according to the present invention is the adapter used in each of the first vehicle diagnostic system and the second vehicle diagnostic system described above, and a diagnostic terminal device according to the present invention is the first vehicle diagnostic system described above. and a second vehicle diagnostic system, and a mobile terminal device according to the present invention is the mobile terminal device used in the second vehicle diagnostic system.

A first vehicle diagnostic method according to the present invention comprises an adapter mounted on a vehicle for transmitting and receiving information to and from a control device of the vehicle, and communication enabling transmission and reception of information between the adapter and devices on the Internet. a system, a diagnostic terminal device capable of communicating with devices on the Internet, and a server device on the Internet capable of communicating with the adapter via the communication system and with the diagnostic terminal device. In the vehicle diagnostic method used, an information request command transmitted from the diagnostic terminal device according to a predetermined operation is sent to the server device on the Internet, and from the server device to the adapter via the communication system a request command transmission step for sequentially transmitting to the Internet through the communication system the vehicle information representing the state of the vehicle acquired by the adapter from the control device of the vehicle in response to the information request command; a request response transmitting step for transmitting to the server device and from the server device to the diagnostic terminal device; and transmitting information based on the vehicle information received by the diagnostic terminal device after transmitting the information request command. and an information output step for outputting information for diagnosing the vehicle; and a diagnosis step for diagnosing the state of the vehicle based on the information provided by the information output step.

A second vehicle diagnostic method according to the present invention includes an adapter mounted on a vehicle, capable of transmitting and receiving information to and from a control device of the vehicle, and capable of communicating according to a predetermined short-range wireless communication rule, and a predetermined application program. a portable terminal device capable of communicating with a device on the Internet, a diagnostic terminal device capable of communicating with the device on the Internet, and the portable A vehicle diagnosis method using a terminal device and the server device on the Internet that can communicate with each of the diagnostic terminal device, wherein an information request command transmitted from the diagnostic terminal device according to a predetermined operation is transmitted from the diagnostic terminal device to the a request command transmission step for sequentially transmitting to the server device on the Internet, from the server device to the mobile terminal device, and further from the mobile terminal device to the adapter by wireless communication according to the short-range wireless communication rules; , vehicle information indicating the state of the vehicle, which the adapter has acquired from the control device of the vehicle in response to the information request command, to the portable terminal device by wireless communication according to the short-range wireless communication rules; a request response transmitting step of sequentially transmitting from the portable terminal device to the server device and further from the server device to the diagnostic terminal device; and an information output step of outputting information based on vehicle information as information for diagnosing the vehicle; and a diagnosis step of diagnosing the state of the vehicle based on the information provided by the information output step. configuration.

Further, a third vehicle diagnostic system according to the present invention is mounted on a vehicle, transmits and receives information to and from a control device of the vehicle, and is capable of wireless communication according to a predetermined short-range wireless communication rule. a mobile terminal device that operates according to a program and performs wireless communication with the adapter according to the short-range wireless communication rules and can communicate with a device on the Internet; and a server device on the Internet that can communicate with the mobile terminal device. The mobile terminal device acquires the vehicle information from the adapter that collects vehicle information representing the state of the vehicle from the control device of the vehicle, through wireless communication according to the short-range wireless communication rules. and vehicle information transmission means for transmitting the vehicle information acquired by the vehicle information acquisition means to the server device on the Internet, wherein the server device receives the information transmitted from the portable terminal device. Vehicle information totalization processing means for totalizing vehicle information according to a predetermined algorithm; and diagnosis information of a predetermined type based on the totalization processing results obtained by the vehicle information totalization processing means in response to a request from the portable terminal device. It becomes the structure which has a means to transmit to the said portable terminal device.

With such a configuration, the vehicle information representing the state of the vehicle collected from the control device of the vehicle by the adapter is transmitted from the adapter to the portable terminal device by wireless communication according to the short-range wireless communication regulations. It is transmitted from the mobile terminal device to the server device on the Internet. In the server device, the vehicle information transmitted from the mobile terminal device is tabulated according to a predetermined algorithm. Then, in response to a request from the mobile terminal device, a predetermined type of diagnostic information based on the result of the tallying process is transmitted from the server device to the mobile terminal device.

In the third vehicle diagnosis system according to the present invention, the server device includes stop confirmation means for confirming that the vehicle is stopped based on the vehicle information, and the stop confirmation means confirms that the vehicle is stopped. and vehicle information processing control means for causing the vehicle information totalization processing means to totalize the vehicle information.

According to such a configuration, even if there is a request from the portable terminal device while the vehicle is running, the vehicle information representing the state of the vehicle during the running is not reflected in the diagnostic information. By informing the user of the mobile terminal of this fact, it is possible to prevent the user from performing the requested operation on the mobile terminal while the vehicle is running.

In the third vehicle diagnosis system according to the present invention, when it is determined that the vehicle information supplied to the vehicle information totalization processing means indicates that the vehicle is in an abnormal condition based on a predetermined standard. Furthermore, it is possible to have a notification means for push-transmitting predetermined notification information to the portable terminal device.

With such a configuration, when it is determined that the collected vehicle information indicates that the vehicle is in an abnormal condition based on the predetermined criteria, the notification information is forcibly pushed to the mobile terminal device. After the vehicle is stopped, the user of the portable terminal device is relatively early to know that the vehicle is in a state judged to be abnormal based on a predetermined criterion. be able to.

In the third vehicle diagnostic system according to the present invention, the mobile terminal device includes control means for starting up the application program when wirelessly connected to the adapter according to the short-range wireless communication regulations. It can be configured to have.

According to such a configuration, when a person who has a mobile terminal device gets into a vehicle, the mobile terminal device can be connected to the adapter by short-range wireless communication without performing an operation to start up the application program of the mobile terminal device. When the wireless connection is established according to the communication rules, the application program is automatically started, and the mobile terminal device acquires the vehicle information from the adapter through wireless communication according to the short-range wireless communication rules; Transmission of the acquired vehicle information to the server device on the Internet can be automatically started.

A mobile terminal device according to the present invention is the mobile terminal device used in the third vehicle diagnostic system, and a server device according to the present invention is the server device used in the third vehicle diagnostic system.

According to the first and second vehicle diagnostic systems of the present invention and the first and second vehicle diagnostic methods of the present invention, the vehicle is detected based on the vehicle information output from the diagnostic terminal device. The vehicle can be diagnosed (remote diagnosis) by a person who is knowledgeable about the vehicle (for example, a vehicle mechanic). Therefore, it is possible to appropriately assist in diagnosing the vehicle for a person who has little knowledge of the vehicle based on the obtained diagnosis result.

Further, according to the third vehicle diagnostic system of the present invention, the vehicle information collected by the adapter from the vehicle control device is aggregated in the server device according to a predetermined algorithm, and is processed in response to a request from the portable terminal device. Since the predetermined type of diagnostic information based on the result of the aggregation process is transmitted from the server device to the mobile terminal device, the diagnostic information based on the result of the aggregation process of the vehicle information is transmitted to the mobile terminal instead of simply the vehicle information. It can be confirmed in the device. Therefore, even if the owner of the portable terminal has little knowledge about vehicles, it is possible to provide more appropriate vehicle diagnosis support to the person.

FIG. 1 is a diagram showing the basic configuration of a vehicle diagnostic system according to an embodiment of the invention. FIG. 2 is a block diagram showing a specific configuration example of an adapter in the vehicle diagnostic system shown in FIG. FIG. 3 is a block diagram showing a specific configuration example of a mobile terminal device (smartphone) in the vehicle diagnosis system shown in FIG. FIG. 4 is a block diagram showing a specific configuration example of a diagnosis terminal device (tablet) in the vehicle diagnosis system shown in FIG. FIG. 5 is a block diagram showing a specific configuration example of the server device in the vehicle diagnostic system shown in FIG. FIG. 6 is a sequence diagram showing an example of a communication procedure performed by the adapter, the mobile terminal device, and the server device when vehicle information is collected from the ECU of the vehicle in the vehicle diagnosis system shown in FIG. 7A is a block diagram showing processing functions in each of the adapter, mobile terminal device, and server device that perform communication according to the procedure shown in FIG. 6. FIG. FIG. 7B is a block diagram showing processing functions in the server device. FIG. 7C is a block diagram showing processing functions in each of the server device and the mobile terminal device that perform communication. FIG. 8A is a diagram showing a display example of alert information on a mobile terminal device. FIG. 8B is a diagram showing another display example of alert information on the mobile terminal device. FIG. 9A is a diagram showing a display example of diagnostic information on the mobile terminal device. FIG. 9B is a diagram showing another display example of diagnostic information on the mobile terminal device. FIG. 9C is a diagram showing still another display example of diagnostic information on the mobile terminal device. FIG. 10A shows a communication procedure (Part 1) and the mobile terminal device performed by the adapter, the mobile terminal device, the server device, and the diagnostic terminal device when performing remote diagnosis of the vehicle in the vehicle diagnostic system shown in FIG. 2 is a sequence diagram showing an example of the procedure of the process of . FIG. 10B shows a procedure (part 2) of communication performed in the adapter, the mobile terminal, the management server, and the diagnostic terminal device when performing remote diagnosis of the vehicle in the vehicle diagnostic system shown in FIG. FIG. 4 is a sequence diagram showing an example of a procedure of processing in each diagnostic terminal device; FIG. 11A is a diagram showing an example of display on the diagnosis terminal device at the start of remote diagnosis. FIG. 11B is a diagram showing a display example on the diagnosis terminal device in remote diagnosis. FIG. 12 is a diagram showing an example of a diagnostic report input screen in the diagnostic terminal device. FIG. 13 is a diagram showing a display example of a diagnostic report on the mobile terminal device.

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings.

A vehicle diagnostic system according to an embodiment of the present invention is configured as shown in FIG.

In FIG. 1, the vehicle diagnosis system includes an adapter 10 mounted on a vehicle 50, a mobile terminal device 20 carried by a passenger (for example, a driver) of the vehicle 50, a server device 30 on the Internet 100, and, for example, , and a diagnosis terminal device 40 possessed by a mechanic or the like of a vehicle maintenance shop. The adapter 10 is, for example, an OBD (On-board diagnostics) adapter, and is connected to a connector 15 (see FIG. 2) provided in the vehicle 50 as described later to enable various ECUs (Electronic Control Units) of the vehicle 50. Unit: control device) and information is sent and received. Also, the adapter 10 is capable of wireless communication in accordance with the short-range wireless communication rules, for example, the rules of Bluetooth (registered trademark) Low Energy (hereinafter simply referred to as BLE). The mobile terminal device 20 is, for example, a smartphone, operates according to a predetermined application program (hereinafter simply referred to as an application), performs wireless communication with the adapter 10 according to BLE rules, and communicates with a predetermined mobile communication network (not shown). ) to devices on the Internet 100 . The diagnosis terminal device 40 is, for example, a tablet PC terminal, and can communicate with devices on the Internet 100 via a predetermined mobile communication network (not shown). As will be described later, the server device 30 on the Internet 100 has various information processing functions, an information storage function, and the like, and functions with the mobile terminal device 20 (smartphone) and the diagnostic terminal device 40 (tablet PC terminal). Communication according to a predetermined communication protocol is possible.

The adapter 10 has, for example, a processing unit 11, a BLE communication unit 12, a memory 13, and a communication interface 14, as shown in FIG. Under the control of the processing unit 11, the BLE communication unit 12 performs wireless communication according to BLE rules. Under the control of the processing unit 11, the communication interface 14 is connected to the in-vehicle network system of the vehicle 50 to control various parts of the vehicle 50 and collect information from various sensors. send and receive The processing unit 11 collects vehicle information (ECU logs) representing the state of the vehicle 50 from various ECUs via the communication interface 14 and the connector 15 and stores the information in the memory 13 . The processing unit 11 also performs processing for causing the BLE communication unit 12 to transmit the vehicle information (ECU log) stored in the memory 13 by wireless communication according to the BLE regulations.

The mobile terminal device 20 has, for example, a processing unit 21, a mobile communication unit 22, a BLE communication unit 23, an operation unit 24, a display unit 25, and a memory 26, as shown in FIG. Under the control of the processing unit 21, the mobile communication unit 22 communicates with devices on the Internet 100 via a mobile communication network (such as a mobile telephone communication network). Under the control of the processing unit 21, the BLE communication unit 23 performs wireless communication according to BLE rules. The processing unit 21 operates according to the application stored in the memory 26, controls each part (the mobile communication unit 22, the BLE communication unit 23, the display unit 25, the memory 26), and operates according to the operation on the operation unit 24. Various processing is performed. When the BLE communication unit 23 receives the vehicle information (ECU log) transmitted from the BLE communication unit 12 of the adapter 10 by wireless communication according to the BLE rules as described above, the processing unit 21 stores the vehicle information in the memory. 26, and furthermore, a series of processing for causing the mobile communication unit 22 to transmit the vehicle information (log information) stored in the memory 26 to the server 30 is performed. Under the control of the processing unit 21, the display unit 25 displays various information.

The diagnostic terminal device 40 has, for example, a processing unit 41, a mobile communication unit 42, an operation unit 43, a display unit 44 and a memory 45, as shown in FIG. Under the control of the processing unit 41, the mobile communication unit 42 communicates with devices on the Internet 100 via a mobile communication network (such as a mobile telephone communication network). The processing unit 41 controls each section (the mobile communication unit 42, the display unit 44, and the memory 45), and performs various processes according to the operation of the operation unit 43. FIG. When the mobile communication unit 42 receives the vehicle information transmitted from the server device 30 on the Internet 100, the processing unit 41 stores the vehicle information in the memory 45, and generates information based on the stored vehicle information. Processing for displaying on the display unit 44 is performed. Under the control of the processing unit 41, the display unit 44 displays various information in addition to the information based on the vehicle information.

The server device 30 has, for example, a processing unit 31, a communication unit 32, and a storage section 33, as shown in FIG. Under the control of the processing unit 31, the communication unit 32 is connected to the mobile communication unit 22 of the portable terminal device 20 and the mobile communication unit 42 of the diagnostic terminal device 40 (see FIG. 5) via the Internet 100. Information communication is performed with each according to a predetermined communication protocol. Various information is accumulated in the storage unit 33 under the control of the processing unit 31 . The processing unit 31 that performs various information processing stores the vehicle information (log information) received from the mobile terminal device 20 by the communication unit 32 in the storage section 33, and processes the vehicle information stored in the storage section 32 with a predetermined algorithm. Aggregate according to Predetermined types of diagnostic information based on the results of this tallying process are stored in the storage unit 33 . In addition, the processing unit 31 transmits diagnostic information stored in the storage unit 33 from the communication unit 32 to the mobile terminal device 20 (mobile communication unit) in response to a request from the mobile terminal device 20 received by the communication unit 32 . 22).

In the vehicle diagnostic system configured as described above, routine vehicle diagnostic processing is performed according to the procedures shown in FIGS. 6, 7A, 7B, and 7C.

As shown in FIG. 6, when the accessory switch Acc is turned on when the engine of the vehicle 50 is started, power is supplied to the adapter 10 connected to the connector 15 provided inside the vehicle 50, and the adapter 10 becomes effective. . Then, the BLE communication unit 12 of the adapter 10 repeatedly broadcasts the search signal according to the BLE rules. In this state, a person (for example, a driver) carrying the mobile terminal device 20 whose BLE communication unit 23 performs a search operation according to the BLE rules gets into the vehicle 50 , and the mobile terminal device 20 (BLE communication unit 23 ) is connected to the adapter 10 . When the search signal is received from the adapter 10 (BLE communication unit 12) and the mobile communication terminal 20 (BLE communication terminal 23), the connection procedure is executed according to the BLE rule. The connection procedure establishes a BLE connection between the adapter 10 (BLE communication unit 12) and the mobile terminal device 20 (BLE communication unit 23).

When the BLE connection between the adapter 10 (BLE communication unit 12) and the mobile communication terminal device 20 (BLE communication unit 23) is established and they are in a wireless connection state, the mobile terminal device 20 performs processing on this occasion. A unit 21 (control means) launches an application for routine vehicle diagnostics and executes the application in the background. As a result, in the portable terminal device 20, routine vehicle diagnosis processing is performed without displaying the home screen for vehicle diagnosis and other screens for diagnosis.

In routine vehicle diagnosis, as shown in FIG. 6, the adapter 10 receives various vehicle information representing the state of the vehicle 50 from various ECUs of the vehicle 50 (e.g., battery voltage, engine speed, vehicle speed, coolant level, etc.). temperature, instantaneous fuel consumption, fuel consumption, remaining amount of gasoline, air pressure, sensor values related to tire wear, etc.) are collected. Various vehicle information (ECU log) collected by the adapter 10 is transmitted from the adapter 10 (BLE communication unit 12) to the mobile terminal device 20 by wireless communication according to BLE regulations. When various vehicle information transmitted from the adapter 10 is received by the mobile terminal device 20 (BLE communication unit 23), the vehicle information (log information) is further transmitted from the mobile terminal device 20 (mobile communication unit 22). It is transmitted to the server device 30 (communication unit 32) on the Internet 100. FIG. Then, in the server device 30, the received vehicle information is tabulated according to a predetermined algorithm.

Further, more specifically, processing is performed as shown in FIGS. 7A to 7C.

First, as shown in FIG. 7A, the adapter 10 acquires various vehicle information from various ECUs of the vehicle 50 (F11), and sequentially stores the vehicle information (ECU log) in the memory 13. FIG. Then, the vehicle information is sequentially read out from the memory 13, and the vehicle information is transmitted to the mobile terminal device 20 by wireless communication according to the BLE rule at a predetermined cycle (for example, a cycle of 1 second) (F12). When the mobile terminal device 20 receives the vehicle information (ECU log) transmitted from the adapter 10, the mobile terminal device 20 adds the position information (F22) detected by the GPS unit mounted on the mobile terminal device to the vehicle information and generates the log information. are sequentially stored in the memory 26 as . Then, the log information (vehicle information+position information) accumulated in the memory 26 for a predetermined period (for example, 5 minutes) is transmitted to the server device 30 on the Internet 100 at once (F23).

In the server device 30, when the log information is received from the mobile terminal device 20 (F31), the log information is sequentially stored in the storage unit 33 as shown in FIG. 7B together with FIG. 7A. Then, it is determined whether or not the vehicle 50 has stopped (end of driving) (F32). Specifically, as described above, since power is supplied to the adapter 10 when the engine is started, whether the engine is stopped, that is, whether the vehicle is stopped can be determined, for example, from the log information. It can be determined by whether or not it has not been received for a period of time or longer.

In the server device 30, when it is confirmed that the vehicle 50 is stopped, the log information (vehicle information + position information) accumulated in the storage unit 33 is tallied according to a predetermined algorithm (F33). In the course of this aggregation process, the acquired vehicle information is based on a predetermined standard and indicates a situation in which there is a possibility that the vehicle 50 may interfere with running, for example, a situation in which the vehicle 50 may stall, overheating, etc. If it is determined that it represents a situation in which there is a possibility that an error may occur, a preventive diagnosis alert process (F34) is performed. As a result, predetermined alert information (notification information) is push-transmitted from the server device 30 to the mobile terminal device 20 as preventive diagnosis result information. In the mobile terminal device 20 that receives the push-transmitted alert information, the alert information is displayed as preventive diagnosis result information, for example, as shown in FIG. 8A. As a result, the driver can recognize that the vehicle 50 is in a situation that impedes the running of the vehicle 50 based on the alert information, and the vehicle 50 can be serviced more quickly.

In FIG. 7B , by the aggregation process, preventive maintenance-related aggregated data representing battery charging status, engine oil amount, tire wear, etc., aggregated data related to stress driving due to repeated sudden starts and sudden braking, and included in log information Travel history data aggregated from position information is obtained sequentially and accumulated in the storage unit 33 . Further, aggregated data (preventive diagnostic alert detection aggregated data) relating to the generation of alert information described above is also accumulated in the storage unit 33 .

In the server device 30, preventive maintenance alert processing (F35) is performed based on the preventive maintenance-related tabulated data (data representing battery charge status, engine oil amount, tire wear, etc.). Specifically, processing such as determination of whether the battery should be replaced based on the state of charge of the battery, determination of whether the engine oil should be replaced based on the amount of engine oil, and the like are performed. As a result, when it is determined that an alert is required, for example, the battery should be replaced, predetermined alert information (notification information) is sent from the server device 30 to the mobile terminal device 20 as a result of the determination of preventive maintenance. Push sent. In the portable terminal device 20 that receives the push-transmitted alert information, the alert information is displayed as a determination result of preventive maintenance, for example, as shown in FIG. 8B. As a result, the driver can recognize that parts such as the battery need to be replaced based on the alert information, and can replace the part (for example, the battery) related to the alert before a problem occurs. can be done.

In FIG. 7B, the server 30 performs a determination process (F36) to determine whether or not the vehicle 50 is stressed based on aggregated data relating to stress driving. In this determination process, it is determined whether or not the vehicle 50 is stressed based on sudden start, sudden braking, tire wear, and the like. Also, the alert information about consumables obtained by the preventive maintenance alert process (F35) is accumulated in the storage unit 33. FIG.

As shown in FIG. 7C together with FIG. 7B, when a request operation related to personal car information reference (F24) is performed in the mobile terminal device 20, in response to the request, the server device 30 sends the private car information interface (F37). It provides (transmits) preventive diagnostic information and preventive maintenance alert information to the mobile terminal device 20 via the mobile terminal device 20 . As a result, on the mobile terminal device 20, for example, as shown in FIGS. 9A and 9B, preventive maintenance information such as necessity of replacement of maintenance items (battery, engine oil) is displayed. As a result, the driver can know not only the charging voltage of the battery, the usage period of the oil, etc., but also the necessity of replacement.

In addition, when a request operation related to drive information reference (F25) is performed in the mobile terminal device 20, the server device 30, in response to the request, transmits the drive history and car stress situation via the drive information interface (F38). is provided (transmitted) to the mobile terminal device 20 . As a result, in the mobile terminal device 20, for example, as shown in FIG. Stress assessment information expressed in stages is displayed. This allows the driver to determine whether his driving is stressing the vehicle.

In the vehicle diagnosis system according to the present embodiment, in addition to the routine vehicle diagnosis processing as described above, the vehicle 50 can be diagnosed at a remote location by a mechanic without actually delivering the vehicle 50 to the maintenance shop. Processing related to remote diagnosis is performed. Processing related to this remote diagnosis is performed according to the procedure shown in FIGS. 10A and 10B. Regarding the remote diagnosis, an agreement has been reached between the owner of the vehicle 50 and the person who performs the maintenance (maintenance staff at the maintenance shop). In addition, the maintenance staff is on standby with the diagnostic terminal device 40 in hand. For example, as shown in FIG. 11A, the diagnosis terminal device 40 displays a diagnosis start screen showing the reservation status of remote diagnosis. is operated, remote diagnosis processing for the selected vehicle is started.

In FIG. 10A, as in the case of routine vehicle diagnosis described above, the mobile terminal device 20 (BLE communication unit 23) performing a search operation in accordance with the BLE rule is connected to the adapter 10 (BLE communication unit 12) via BLE. When a search signal broadcast according to the rules is received, a BLE connection is established between the adapter 10 (BLE communication unit 12) and the mobile terminal device 20 (BLE communication unit 23), and wireless communication according to the BLE standard is established. becomes possible. In this state, various vehicle information is collected from various ECUs of the vehicle 50 by the adapter 10, and the vehicle information is sent from the adapter 10 (BLE communication unit 12) to the mobile terminal device 20 by wireless communication according to BLE rules. sent.

When the portable terminal device 20 that receives the vehicle information from the adapter 10 confirms (S21) that the vehicle 50 is in a stopped state lower than a predetermined speed (for example, 5 km/h) based on the received vehicle information, A diagnosis start button on the screen is activated (S22). Then, when the diagnosis start button is operated (S23), the display screen switches to the diagnosis standby screen.

Subsequently, when a connection request is transmitted from the mobile terminal device 20 (mobile communication unit 22) to the server device 30, the server device 30 responds (confirms the connection), and the communication unit 32 and the mobile terminal device 20 are connected. (mobile communication unit 23). Further, when a connection request is transmitted from the diagnostic terminal device 40 (mobile communication unit 42) to the server device 30, the server device 30 responds (connection confirmation) to the diagnostic terminal device 40 (mobile communication unit 42). A communication path is formed between the communication unit 42). As a result, the portable terminal device 20 (mobile communication unit 23 ) and the diagnosis terminal device (mobile communication unit 42 ) become communicable with each other via the server device 30 .

In this state, as shown in FIG. 10B, when an information request operation (S41) is performed on the diagnostic terminal device 40, an information request command is sent from the diagnostic terminal device 40 (mobile communication unit 42) over the Internet 10. to the server device 30, from the server device 30 (communication unit 32) to the mobile terminal device 20 (mobile communication unit 22), and further from the mobile terminal device 20 (BLE communication unit 23) according to the BLE rules It is sequentially transmitted to the adapter 10 (BLE communication unit 12) by communication. In this way, when the adapter 10 receives the information request command transmitted from the diagnostic terminal device 40 through the request command transmission system from the diagnostic terminal device 40 to the adapter 10, the adapter 10 transmits the information request. In response to the command, various vehicle information (for example, a failure code specifying the failure status, engine cooling water temperature, engine speed, vehicle speed, etc.) is collected from various ECUs of the vehicle 50 .

Vehicle information collected by the adapter 10 is sent from the adapter 10 (BLE communication unit 12) to the mobile terminal device 20 (BLE communication unit 23) by wireless communication according to BLE rules, and then to the mobile terminal device 20 (mobile communication unit 22) to the server device 30 on the Internet 100, and further from the server device 30 to the diagnostic terminal device 40 (mobile communication unit 42). In this way, the request-response transmission system from the adapter 10 to the diagnostic terminal 40 provides the remote diagnostic terminal 40 with the vehicle information of the vehicle 50 collected by the adapter 10 .

When the diagnostic terminal device 40 receives the vehicle information after the information request command is transmitted, a remote diagnostic screen based on the vehicle information, for example, as shown in FIG. 11B, diagnoses the vehicle 50. It is displayed (output) as information (S42). The remote diagnosis screen shown in FIG. 11B displays information about items such as a fault code, engine cooling water temperature, fuel pressure sensor value, engine speed, and vehicle speed.

The mechanic looks at the remote diagnosis screen (see FIG. 11B) of the diagnosis terminal device 40 and diagnoses what state the vehicle 50 is in. Then, when the diagnosis is completed and a predetermined termination operation is performed (S43), a termination notification is transmitted from the diagnostic terminal device 40 to the server device 30, and as a response, the server device 30 sends an end confirmation to the diagnostic terminal device. It is sent to device 40 . As a result, the communication path between the server device 30 and the diagnostic terminal device 40 is eliminated. In addition, the server device 30 that has received the termination notification disconnects the communication path with the mobile terminal device 20 after transmitting the termination notification to the mobile terminal device 20 . Then, in the mobile terminal device 20 that has received the end notification, a remote diagnosis end screen is displayed on the display unit 25 . From this remote diagnosis end screen, the owner of the vehicle 50 who owns the mobile terminal device 20 can know that the remote diagnosis has ended.

When the state of the vehicle 50 is diagnosed by looking at the remote diagnosis screen (see FIG. 11B) of the diagnostic terminal device 40, the diagnostic result is displayed on the diagnostic report screen of the diagnostic terminal device 40 as shown in FIG. can be entered. After inputting the diagnostic result, when a predetermined transmission operation is performed, the diagnostic report is transmitted from the diagnostic terminal device 40 to the mobile terminal device 20 . This diagnostic report is transmitted to the mobile terminal device 20 via the Internet 100 without via the server device 30, for example. In the mobile terminal device 20 that has received such a diagnostic report, for example, a diagnostic report as shown in FIG. 13 is displayed. As a result, even if the owner of the vehicle 50 has little knowledge of the structure of the vehicle, the owner of the vehicle 50 can obtain the results of diagnosis by a professional mechanic who is familiar with the structure of the vehicle. As a result, an accurate determination of the state of vehicle 50 can be made.

In the above example, the adapter 10 and the server device 30 exchange information via the mobile terminal device 20. However, the present invention is not limited to this. , other communication systems may allow information to be sent and received between the adapter 10 and the server device 30 on the Internet 100 .

As described above, the embodiment of the present invention and the modification of each part have been described, but the embodiment and the modification of each part are presented as an example, and are not intended to limit the scope of the invention. These novel embodiments described above can be implemented in various other forms, and various omissions, replacements, and modifications can be made without departing from the scope of the invention. These embodiments and their modifications are included in the scope and gist of the invention, and are included in the invention described in the claims.

10 adapter 11 processing unit 12 BLE communication unit 13 memory 14 communication interface 15 connector 20 mobile communication terminal (smartphone)
21 processing unit 22 mobile communication unit 23 BLE communication unit 24 operation unit 25 display unit 26 memory 30 server device 31 processing unit 32 communication unit 33 storage unit 40 diagnostic terminal device (tablet PC terminal)
41 processing unit 42 mobile communication unit 43 operation unit 44 display unit 50 vehicle 100 Internet

Claims (4)

an adapter mounted on a vehicle for transmitting and receiving information to and from a control device of the vehicle and capable of wireless communication according to a predetermined short-range wireless communication rule;
a mobile terminal device that operates according to a predetermined application program, performs wireless communication with the adapter according to the short-range wireless communication rules, and is capable of communicating with devices on the Internet;
A server device on the Internet capable of communicating with the mobile terminal device,
The mobile terminal device
vehicle information acquisition means for acquiring the vehicle information from the adapter that collects vehicle information representing the state of the vehicle from the control device of the vehicle that is running, by wireless communication according to the short-range wireless communication rules;
vehicle information transmission means for transmitting the vehicle information acquired by the vehicle information acquisition means to the server device on the Internet;
The server device
vehicle information aggregation processing means for aggregating the vehicle information transmitted from the mobile terminal device according to a predetermined algorithm;
A vehicle diagnostic system comprising means for transmitting predetermined types of diagnostic information based on a total processing result obtained by said vehicle information total processing means to said portable terminal device in response to a request from said portable terminal device. 2. The vehicle diagnosis system according to claim 1, wherein said portable terminal device has control means for starting up said application program when said portable terminal device is wirelessly connected to said adapter according to said short-distance wireless communication regulation. A portable terminal device used in the vehicle diagnosis system according to claim 1 or 2. A server device used in the vehicle diagnostic system according to claim 1 or 2.

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