CN113726854A

CN113726854A - Information processing method and device, storage medium, debugging equipment and vehicle

Info

Publication number: CN113726854A
Application number: CN202110870851.1A
Authority: CN
Inventors: 朱泽伟; 欧阳康; 张光辉; 高力
Original assignee: United Automotive Electronic Systems Co Ltd
Current assignee: United Automotive Electronic Systems Co Ltd
Priority date: 2021-07-30
Filing date: 2021-07-30
Publication date: 2021-11-30

Abstract

The invention belongs to the technical field of intelligent vehicles, and particularly relates to an information processing method, an information processing device, a storage medium, debugging equipment and a vehicle. The core method of the invention realizes the matching between the remote test and the real-time test instruction, so that the execution efficiency of the remote task and the data quality are improved; based on the task queue, the task management under the conditions of multiple persons, multiple projects, multiple vehicles, multiple software and multiple tasks is realized, so that large-scale remote matching application is orderly and effectively executed; the matching state information is used as a judgment condition, a verification safety mechanism of remote data modification is realized by combining a preset algorithm, and the data modification safety is ensured; data fusion is realized through information matching, and vehicle-end testing and remote cooperation are achieved by combining a preset algorithm.

Description

Information processing method and device, storage medium, debugging equipment and vehicle

Technical Field

The invention belongs to the technical field of intelligent vehicles, and particularly relates to an information processing method and device, a storage medium, debugging equipment and a vehicle.

Background

The development of the internet of vehicles makes the vehicles become a part of an intelligent interconnection system, and the informatization level of the vehicles is remarkably improved.

The inventor finds that: the vehicle research and development process and means also face upgrading challenges, wherein in the whole vehicle matching development stage, in order to meet emission regulations, dynamic characteristics, control performance and other whole vehicle indexes, a large number of tests are required to be carried out on actual roads, particularly extreme environments such as high temperature, plateau and high cold, and the whole vehicle parameters are adjusted and optimized by carrying out various processing, statistics and analysis on test data, so that on-road verification tests are completed; the cyclic reciprocating and iterative optimization has huge cost investment in manpower, time, resources and the like.

Disclosure of Invention

The invention discloses an information processing method suitable for a whole vehicle development whole-process multi-scene, and particularly realizes the cooperative action of a vehicle end and a remote engineer end by adopting a matching information processing method, so that the operation efficiency can be effectively improved, and the research, development and maintenance operation cost can be reduced. More particularly, the present invention relates to the following.

The scheme obtains the first part of reference information matched by the system by receiving the first matching information generated by the first matching end provided with the first information storage unit, the first microprocessor unit and the first human-computer interaction unit according to the preset rule.

If the second matching end sends out the matching invitation, the first matching information is sent to the second matching end; the second matching end is also provided with a storage, processing and interaction unit; namely a second information storage unit, a second microprocessor unit and a second human-computer interaction unit.

And comparing the received matching state information from the first matching end and/or the second matching end according to a preset rule so as to realize matching and switching of the information processing function.

Specifically, if the matching state information conforms to a preset rule, executing a first matching operation; the first matching operation sends third matching information of a preset data structure to a third matching end; the third matching end comprises a third information storage unit and a third microprocessor unit; the third matching information is used for starting a preset process, and the matching process can be operated without a human-computer interaction unit under the condition of no human intervention; but the present solution is equally applicable to systems involving human-computer interaction.

And if the matching state information does not accord with the preset rule, receiving the matching state information again according to the preset time interval or finishing the information processing process.

Further, the first mating end is part of or carried on the vehicle; the first matching end obtains first matching information through detection or measurement of a preset device or an electronic circuit.

As mentioned above, the third matching terminal may further include a third human-computer interaction unit for receiving manual intervention information or sending prompt information at any time; the first matching information at least comprises one of the following information so as to meet the application requirements of the full-flow multi-scenario, and specifically comprises the following steps: test task information of the vehicle, information collected by driving tests, information readable by a vehicle control unit, operating condition information related to vehicle operation, measurement, modification and/or flashing information received via a communication port.

Further, the third matching terminal may further include one of the following units: the system comprises an information recorder, an Internet of things server, a message processing device, a big data processing device, a server, mobile electronic equipment and a data storage device; the information recorder is located at a remote recorder end, the Internet of things server is located at an Internet of things server end, the message processing device is located at a message end, the big data processing device is located at a big data processing end, the server is located at the server end, the data storage device is located at a data storage end, and the mobile electronic equipment is located at an APP application end.

Further, the information recorder is developed based on a special gateway and also comprises a public network communication module; the public network communication module comprises GSM, 3G, 4G, 5G, 6G and/or any communication network meeting communication throughput and real-time requirements; the information recorder is communicated with the vehicle controller through a communication bus; wherein the communication bus comprises a CAN bus and adopts XCP/CCP protocol to communicate with the vehicle controller.

Further, the information recorder and the internet of things server side transmit messages with the cloud side through an MQTT protocol to control the information recorder; the information recorder sends data to the cloud in real time; the data sent in real time comprises the collected data, equipment running state information and test key parameter information.

Further, executing a remote data modification safety verification mechanism; the mechanism comprises a first check-up procedure and a second check-up procedure; wherein, the first verification process comprises: before sending a modified data updating task, acquiring check values of a vehicle code area and a data area from a cloud end, and comparing the check values with a calculation check value result of a software data version of data to be modified at the cloud end; if the verification is passed, executing data modification operation; the second inspection process carries out on-site working condition inspection, and comprises the following steps: checking whether the vehicle is in one of power-on, parking and idling modes; and if the working condition check meets the preset condition, enabling the data to trigger the condition.

Further, executing a decoupled task queue; if the equipment to be processed is on-line and available, a task validation instruction or information is sent immediately; if the equipment is unavailable on site, pushing the tasks into a queue, wherein each equipment has an exclusive use of a sub-partition, and the remote tasks are in first-out according to a first-in-last sequence; if the remote task needs the intervention of a tester, receiving confirmation information sent by the APP application terminal equipment; and if the remote task does not need to intervene, entering a waiting state.

Further, the above method is applied to related products: the system comprises a field service unit, a backup support unit and an interactive matching unit; the system comprises a field service unit, a first information storage unit, a first microprocessor unit and a first human-computer interaction unit, wherein the field service unit generates first matching information according to a preset rule and comprises the first information storage unit, the first microprocessor unit and the first human-computer interaction unit; the backup support unit sends a matching invitation according to a preset rule, and if the backup support unit sends the matching invitation, first matching information is sent to the backup support unit; the backup support unit comprises a second information storage unit, a second microprocessor unit and a second human-computer interaction unit; the interactive matching unit receives matching state information; wherein the matching state information is from the field service unit and the backup support unit.

Further, if the matching state information meets the preset rule, executing a first matching operation; the first matching operation sends third matching information of a preset data structure to a third matching end; the third matching end comprises a third information storage unit and a third microprocessor unit; the third matching information is used for starting a preset process; and if the matching state information does not accord with the preset rule, receiving the matching state information again according to the preset time interval or finishing the information processing process.

Further, the first mating end is part of or carried on a vehicle; the first matching end obtains the first matching information through detection or measurement of a preset device or an electronic circuit; the third matching end also comprises a third human-computer interaction unit; the first matching information at least comprises one of the following information processing used for adapting to the whole vehicle development whole-process multi-scenario, and specifically comprises the following steps: test task information of the vehicle, information collected by driving tests, information readable by a vehicle control unit, operating condition information related to vehicle operation, measurement, modification and/or flashing information received via a communication port, etc.

Further, the third matching end further includes one of the following units, which is also used for adapting to the application of the whole vehicle development full-process multi-scenario, and specifically includes: the system comprises an information recorder, an Internet of things server, a message processing device, a big data processing device, a server, mobile electronic equipment and a data storage device; the information recorder is located at a remote recorder end, the Internet of things server is located at an Internet of things server end, the message processing device is located at a message end, the big data processing device is located at a big data processing end, the server is located at the server end, the data storage device is located at a data storage end, and the mobile electronic equipment is located at an APP application end.

Further, the information recorder is developed based on a special gateway and also comprises a public network communication module; the public network communication module comprises GSM, 3G, 4G, 5G and/or any communication network meeting communication throughput and real-time requirements; the information recorder is communicated with the vehicle controller through a communication bus; wherein the communication bus comprises a CAN bus, adopts XCP/CCP protocol and communicates with the vehicle controller.

Further, the apparatus executes a remote data modification security check mechanism, including a first check process and a second check process; wherein, the first verification process comprises: before sending a modified data updating task, acquiring check values of a vehicle code area and a data area from a cloud end, and comparing the check values with a calculation check value result of a software data version of data to be modified at the cloud end; if the verification is passed, executing data modification operation; the second inspection process carries out on-site working condition inspection, and comprises the following steps: checking whether the vehicle is in one of power-on, parking and idling modes; and if the working condition check meets the preset condition, enabling the data to trigger the condition.

Further, the device also comprises a decoupled task queue; if the equipment to be processed is on-line and available, the task is sent to take effect immediately; if the equipment is unavailable on site, a preset task enters a task queue, each equipment monopolizes a sub-partition, and the remote tasks are in first-out according to the sequence of first-in first-out; if the remote task needs the intervention of a tester, receiving confirmation information sent by the APP application terminal equipment; and if the remote task does not need to intervene, entering a waiting state.

By integrating aspects of the present invention, the above-described methods may be implemented in a computer-readable storage medium, comprising a storage medium body for storing a computer program and, when executed by a microprocessor, implementing any of the above-described methods of the present invention.

It should be noted that the terms "first", "second", and the like used in the present invention are only used for describing each constituent element in the technical solution, and do not constitute a limitation on the technical solution, and cannot be understood as an indication or suggestion of the importance of the corresponding element; an element in the similar language "first", "second", etc. means that in the corresponding embodiment, the element includes at least one.

Also, the related method of the present invention can be applied to the related test device or vehicle, if the above-described storage medium and apparatus are applied thereto.

Based on the scheme, the invention has the beneficial effects that:

1. data fusion of at least two matching ends is realized through information matching, and cooperative action and/or real-time information reading and writing are realized by combining a preset algorithm; the method is favorable for solving the problem that the vehicle end testing personnel and the remote end engineer develop remote cooperation under the condition of insufficient experience and knowledge.

2. The matching state information is used as a judgment condition, a verification safety mechanism of remote data modification is realized by combining a preset algorithm, and the data modification safety is ensured.

3. Based on the task queue, the task management under the conditions of multiple persons, multiple projects, multiple vehicles, multiple software and multiple tasks is realized, so that the large-scale remote matching application is orderly and effectively executed.

4. The core method realizes the matching between the remote testing and the real-time testing guidance, so that the execution efficiency of remote tasks and the data quality are improved.

Drawings

To more clearly illustrate the technical solutions of the present invention and to facilitate further understanding of the technical effects, technical features and objects of the present invention, the present invention will be described in detail with reference to the accompanying drawings, which form an essential part of the specification, and which are used together with the embodiments of the present invention to illustrate the technical solutions of the present invention, but do not limit the present invention.

The same reference numerals in the drawings denote the same elements, and in particular:

FIG. 1 is a block diagram of a matching process according to a first embodiment of the present invention;

FIG. 2 is a block diagram of a system according to a second embodiment of the present invention;

FIG. 3 is a schematic diagram of a system configuration of a third apparatus according to an embodiment of the present invention;

FIG. 4 is a schematic information flow diagram according to a second embodiment of the present invention;

FIG. 5 is a flow chart of remote measurement according to a fourth embodiment of the present invention;

FIG. 6 is a flow chart of data modification according to a fourth embodiment of the present invention

FIG. 7 is a flowchart illustrating a security check according to a fourth embodiment of the present invention;

FIG. 8 is a diagram illustrating an information processing task queue according to a fourth embodiment of the present invention;

fig. 9 is a schematic diagram of real-time cooperative information processing according to a fourth embodiment of the present invention.

Wherein:

the method comprises the following steps of 1-a remote recorder terminal, 2-an APP terminal, 3-an Internet of things server terminal, 4-a big data processing terminal, 5-a message terminal, 6-a data storage terminal, 7-a server terminal, 8-a matching engineer remote terminal and 9-a vehicle terminal.

100-first matching terminal, 200-second matching terminal, 300-third matching terminal.

1000-obtaining matching information, 2000-implementing a matching algorithm, 3000-making a matching decision, and 4000-circularly matching.

It should be noted that reference numeral 9 and reference numeral 100 belong to the same content and different numbers in different embodiments, but the functional division is the same, and the case of reference numeral 8 and reference numeral 200 is similar.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. Of course, the following specific examples are provided only for explaining the technical solutions of the present invention and are not to be construed as limiting the present invention. In addition, the parts shown in the embodiments or the drawings are only illustrations of the relevant parts of the present invention, and are not all of the technical solutions of the present invention.

As shown in fig. 1 and 2, by receiving the first matching information, the first matching information is generated at the first matching

terminal

100 or 9 according to a preset rule; the first matching

end

100 or 9 is provided with a first information storage unit 101, a first microprocessor unit 102 and a first human-computer interaction unit 103; if the

second matching terminal

200 or 8 sends out the matching invitation, the first matching information is sent to the

second matching terminal

200 or 8; the

second matching terminal

200 or 8 includes a second information storage unit 201, a second microprocessor unit 202, and a second human-computer interaction unit 203.

By receiving matching status information; wherein, the matching state information comes from the first matching terminal 100 (or 9) and/or the second matching terminal 200 (or 8); if the matching state information accords with a preset rule, executing a first matching operation; wherein, the first matching operation sends third matching information of a preset data structure to the third matching terminal 300; the third matching terminal 300 comprises a third information storage unit and a third microprocessor unit; and the third matching information is used for starting a preset process.

Further, the first mating end is part of or carried on a vehicle; the first matching end obtains first matching information through detection or measurement of a preset device or an electronic circuit; the third matching terminal 300 further comprises a third human-computer interaction unit.

Further, as shown in fig. 2, the first matching information includes at least one of the following: test task information of the vehicle, information collected by driving tests, information readable by a vehicle control unit, operating condition information related to vehicle operation, measurement, modification and/or flashing information received via a communication port.

Further, as shown in fig. 3 and 4, the third mating end 300 includes one of the following elements: the system comprises an information recorder, an Internet of things server, a message processing device, a big data processing device, a server, mobile electronic equipment and a data storage device; the information recorder is located at a remote recorder end 1, the Internet of things server is located at an Internet of things server end 3, the message processing device is located at a message end 5, the big data processing device is located at a big data processing end 4, the server is located at a server end 7, the data storage device is located at a data storage end 6, and the mobile electronic equipment is located at an APP application end 2.

Further, as shown in fig. 4, 5 and 6, the information recorder is developed based on a dedicated gateway, and further includes a public network communication module; the special gateway comprises a UAES-GAW3.1 gateway, and the public network communication module comprises GSM, 3G, 4G, 5G, 6G and/or any communication network meeting communication throughput and real-time requirements; the information recorder is communicated with the vehicle controller through a communication bus; wherein the communication bus comprises a CAN bus, adopts XCP/CCP protocol and communicates with the vehicle controller.

Further, as shown in fig. 4, the information recorder and the internet of things server 3 perform message transmission with the cloud through MQTT protocol to control the information recorder; the information recorder sends data to the cloud in real time; the data sent in real time comprises the collected data, equipment running state information and test key parameter information.

Further, as shown in fig. 7, the remote data modification security verification mechanism is executed and divided into a first verification process and a second verification process; wherein, the first verification process comprises: before sending a data modification update task, acquiring check values of a code area and a data area of a vehicle end 9 from a cloud end, and comparing the check values with a calculation check value result of a software data version of data to be modified at the cloud end; if the verification is passed, executing data modification operation; the second checking process is used for checking the on-site working condition, and comprises the steps of checking whether the vehicles are in one of power-on, parking and idling modes; and if the working condition check meets the preset condition, enabling the data to trigger the condition.

Further, as shown in FIG. 8, a decoupled task queue is executed; if the equipment to be processed is on-line and available, a task validation instruction or information is sent immediately; if the equipment is unavailable on site, a preset task enters a task queue, each equipment monopolizes a sub-partition, and the remote tasks are in first-out according to the sequence of first-in first-out; if the remote task needs the intervention of a tester, receiving confirmation information sent by the APP application end 2 equipment; and if the remote task does not need to intervene, entering a waiting state.

As shown in fig. 2 and 3, the information processing apparatus according to the information processing method of the present invention includes: the system comprises a field service unit, a backup support unit and an interactive matching unit; the field service unit generates first matching information according to a preset rule, and the first matching information comprises a first information storage unit 101, a first microprocessor unit 102 and a first human-computer interaction unit 103; the backup support unit sends a matching invitation according to a preset rule, and if the backup support unit sends the matching invitation, first matching information is sent to the backup support unit; the backup support unit comprises a second information storage unit 201, a second microprocessor unit 202 and a second human-computer interaction unit 203.

The interactive matching unit receives matching state information; the matching state information comes from a field service unit and a backup support unit; if the matching state information accords with a preset rule, executing a first matching operation; wherein, the first matching operation sends third matching information of a preset data structure to the third matching terminal 300; the third matching terminal 300 comprises a third information storage unit and a third microprocessor unit; the third matching information is used for starting a preset process; and if the matching state information does not accord with the preset rule, receiving the matching state information again according to the preset time interval or finishing the information processing process.

Further, as shown in fig. 2, the first mating end is part of or carried on the vehicle; the first matching end obtains first matching information through detection or measurement of a preset device or an electronic circuit; the third matching terminal 300 further comprises a third human-computer interaction unit.

Further, the first matching information includes at least one of: test task information of the vehicle, information collected by driving tests, information readable by a vehicle control unit, operating condition information related to vehicle operation, measurement, modification and/or flashing information received via a communication port.

Further, as shown in fig. 2, the third mating end 300 includes one of the following elements: the system comprises an information recorder, an Internet of things server, a message processing device, a big data processing device, a server, mobile electronic equipment and a data storage device.

The information recorder is located at a remote recorder end 1, the Internet of things server is located at an Internet of things server end 3, the message processing device is located at a message end 5, the big data processing device is located at a big data processing end 4, the server is located at a server end 7, the data storage device is located at a data storage end 6, and the mobile electronic equipment is located at an APP application end 2.

Further, as shown in fig. 2-6, the information recorder is developed based on a dedicated gateway, and further includes a public network communication module; wherein, the gateway adopts UAES-GAW3.1, and the public communication module adopts 4G module; the information recorder communicates with the vehicle controller through a communication bus.

The communication bus adopts a CAN bus and an XCP/CCP protocol to communicate with the vehicle controller; the information recorder and the internet of things server 3 transmit messages with the cloud end through an MQTT protocol to control the information recorder; the information recorder sends data to the cloud in real time; the data sent in real time comprises collected data, equipment running state information, test key parameter information and the like.

Further, as shown in fig. 4-7, the mechanism for remote data modification security checking includes a first checking process and a second checking process; wherein, the first verification process comprises: before sending the data modification update task, the check values of the code area and the data area of the vehicle end 9 are obtained from the cloud end, and the check values are compared with the calculation check value result of the software data version of the data to be modified at the cloud end.

If the verification is passed, executing data modification operation; the second checking process is used for checking the on-site working condition, and comprises the steps of checking whether the vehicles are in one of power-on, parking and idling modes; and if the working condition check meets the preset condition, enabling the data to trigger the condition.

Further, as shown in fig. 8, a decoupled task queue; if the equipment to be processed is on-line and available, a task validation instruction or information is sent immediately; if the equipment is unavailable on site, a preset task enters a task queue, each equipment monopolizes a sub-partition, and the remote tasks are in first-out according to the sequence of first-in first-out; if the remote task needs the intervention of a tester, receiving confirmation information sent by the APP application end 2; and if the remote task does not need to intervene, entering a waiting state.

Obviously, if a computer readable storage medium is used for storing an algorithm capable of implementing the method, the method falls into the scope of the technical solution of the present invention, and likewise, if the method and apparatus of the present invention are used in the related debugging equipment, vehicle, etc., the technical solution related to the present invention is also implemented.

For the above embodiment, the remote recorder end adopts GAW3.1 smart matching version of UAES (united automobile electronics limited), but is not limited to this device; any other device capable of full vehicle networking including the easy automobile technology (shanghai) limited ES820 may be substituted.

The service end of the internet of things comprises but is not limited to business components Aliyun-iot/EMQTT or a service cluster constructed by an open source MQTT protocol, and related components are optional.

The message side comprises a business component Aliyun-kafka or a service cluster constructed by an open source kafka, and is also an optional component.

The big data platform comprises a business component Aliyun-emr or a service cluster constructed by open source hadoop, and can be replaced by other non-hadoop general data processing server nodes.

The server side comprises a commercial container service component Aliyun-kubernets or a container service built by open-source kubernets/docker, and can be replaced by other non-containerized general server nodes.

It should be noted that the above examples are only for clearly illustrating the technical solutions of the present invention, and those skilled in the art will understand that the embodiments of the present invention are not limited to the above contents, and obvious changes, substitutions or replacements can be made based on the above contents without departing from the scope covered by the technical solutions of the present invention; other embodiments will fall within the scope of the invention without departing from the inventive concept.

Claims

1. An information processing method characterized by comprising:

receiving first matching information, wherein the first matching information is generated at a first matching end (100, 9) according to a preset rule; the first matching ends (100 and 9) are provided with a first information storage unit (101), a first microprocessor unit (102) and a first human-computer interaction unit (103);

if the second matching end (200, 8) sends out the matching invitation, the first matching information is sent to the second matching end (200, 8); the second matching ends (200, 8) comprise a second information storage unit (201), a second microprocessor unit (202) and a second human-computer interaction unit (203);

receiving matching state information; wherein the matching state information is from a first matching terminal (100, 9) and/or a second matching terminal (200, 8);

if the matching state information accords with a preset rule, executing a first matching operation; wherein the first matching operation sends third matching information of a preset data structure to a third matching terminal (300); the third matching terminal (300) comprises a third information storage unit and a third microprocessor unit; the third matching information is used for starting a preset process;

and if the matching state information does not accord with the preset rule, receiving the matching state information again according to a preset time interval or finishing the information processing process.

2. The method of claim 1, wherein:

the first mating end is part of or carried on a vehicle; the first matching end obtains the first matching information through detection or measurement of a preset device or an electronic circuit;

the third matching end (300) further comprises a third human-computer interaction unit.

3. The method of claim 1, wherein:

the first matching information includes at least one of: test task information of the vehicle, information collected by driving tests, information readable by a vehicle control unit, operating condition information related to vehicle operation, measurement, modification and/or flashing information received via a communication port.

4. A method according to any of claims 1-3, characterized by:

the third mating end (300) comprises one of the following elements: the system comprises an information recorder, an Internet of things server, a message processing device, a big data processing device, a server, mobile electronic equipment and a data storage device;

wherein, the information recorder is located remote data recorder end (1), the thing networking server is located thing networking server end (3), message processing apparatus is located message end (5), big data processing apparatus is located big data processing end (4), the server is located server end (7), data storage apparatus is located data storage end (6), mobile electronic equipment is located APP application end (2).

5. The method of claim 4, wherein:

the information recorder is developed based on a special gateway and also comprises a public network communication module; the public network communication module comprises a 4G communication network, a 5G communication network and/or any communication network meeting communication throughput and real-time requirements;

the information recorder is communicated with the vehicle controller through a communication bus; wherein the communication bus comprises a CAN bus; the CAN bus adopts XCP/CCP protocol and communicates with the vehicle controller.

6. The method of claim 5, wherein:

the information recorder and the Internet of things server (3) carry out message transmission with the cloud through an MQTT protocol to control the information recorder;

the information recorder sends data to the cloud in real time; the data sent in real time comprise collected data, equipment running state information and test key parameter information.

7. The method of claim 5 or 6, wherein:

executing a remote data modification security verification mechanism;

the security check mechanism comprises a first check process and a second check process;

wherein the first verification process comprises: before sending a data modification update task, acquiring check values of a code area and a data area of a vehicle end (9) from a cloud end, and comparing the check values with a calculation check value result of a software data version of data to be modified at the cloud end; if the verification is passed, executing data modification operation;

the second inspection process carries out on-site working condition inspection, and comprises the following steps: checking whether the vehicle is in one of power-on, parking and idling modes; and enabling the data triggering condition if the working condition check meets the preset condition.

8. The method of claim 7, wherein:

executing a decoupled task queue;

if the equipment to be processed is on-line and available, the task is sent to take effect immediately;

if the equipment is unavailable on site, a preset task enters a task queue, each equipment has an exclusive sub-partition, and the remote tasks are in first-out according to the sequence of first-in first-out;

if the remote task needs the intervention of a tester, receiving confirmation information sent by the APP application terminal (2) equipment;

and if the remote task does not need to intervene, entering a waiting state.

9. The method of claim 8, wherein:

the dedicated gateway comprises a UAES series gateway comprising a GAW3.1 gateway.

10. An information processing apparatus comprising:

the system comprises a field service unit, a backup support unit and an interactive matching unit;

the field service unit generates first matching information according to a preset rule, and comprises a first information storage unit (101), a first microprocessor unit (102) and a first human-computer interaction unit (103);

the backup support unit sends a matching invitation according to a preset rule, and if the backup support unit sends the matching invitation, the backup support unit sends the first matching information to the backup support unit; the backup support unit comprises a second information storage unit (201), a second microprocessor unit (202) and a second human-computer interaction unit (203);

the interactive matching unit receives matching state information; wherein the matching state information is from the field service unit and the backup support unit;

11. The apparatus of claim 10, wherein:

the first mating end is part of or carried on a vehicle; the first matching end obtains the first matching information through detection or measurement of a preset device or an electronic circuit; the third matching end (300) further comprises a third human-computer interaction unit;

12. The apparatus of claim 10 or 11, wherein:

13. The apparatus of claim 12, wherein:

the information recorder is communicated with the vehicle controller through a communication bus; wherein the communication bus comprises a CAN bus; the CAN bus adopts XCP/CCP protocol and communicates with the vehicle controller;

14. The apparatus of claim 13, further comprising:

a mechanism to perform remote data modification security checks;

the mechanism comprises a first check-up procedure and a second check-up procedure;

15. The apparatus of claim 14, further comprising:

a decoupled task queue;

and if the remote task does not need to intervene, entering a waiting state.

16. The apparatus of claim 14, wherein:

17. A computer-readable storage medium, comprising:

a storage medium body for storing a computer program;

the computer program, when executed by a microprocessor, implements the method of any of claims 1-9.

18. A commissioning device comprising:

an apparatus according to any of claims 10-16 and/or a storage medium according to claim 17.

19. A vehicle, comprising:

the commissioning device of claim 18.