CN115794140A - Remote upgrading method and device and vehicle - Google Patents

Abstract

The embodiment of the application provides a method and a device for remote upgrading and a vehicle, aiming at remotely finishing upgrading management and control of the vehicle without being limited by indoor space, saving user time and optimizing user experience; meanwhile, in the remote upgrading mode, the environment of the vehicle is simple and controllable, the misoperation risk of a user is reduced, and the upgrading success rate is improved. The method comprises the following steps: receiving an upgrade task for a vehicle and determining a current state of the vehicle; when the vehicle is not started, sending the upgrading task to a mobile terminal corresponding to the vehicle, and responding to the triggering operation of the mobile terminal for the upgrading task to control the vehicle to execute the upgrading task; and when the vehicle is started, responding to a target upgrading process based on the upgrading task, and controlling the vehicle to execute the upgrading task.

Description

Remote upgrading method and device and vehicle

Technical Field

The scheme relates to the field of automobile engineering, in particular to a remote upgrading method, a remote upgrading device and a vehicle.

Background

The whole vehicle OTA (over the air technology) upgrading is a technology for carrying out full life cycle software management on an ECU (electronic control unit) in a vehicle based on a vehicle end main control upgrading module and an OTA platform.

However, in the prior art, for the OTA upgrade of the whole vehicle, the user needs to complete the operations of upgrade detection triggering, upgrade download confirmation, upgrade installation authorization, upgrade precondition setting and the like in the vehicle, the whole upgrade takes 30 minutes to 1 hour (depending on the network environment and the number of ECUs to be upgraded), and the user needs to park and wait in the whole process, thereby reducing the user experience and greatly reducing the upgrade willingness of the user. Meanwhile, the requirement of the upgrading precondition is harsh (parking flameout and the like), and if the upgrading precondition is forcedly damaged by a user in the upgrading process, the risk of failure of part of functions of the vehicle caused by upgrading failure of the ECU exists.

Disclosure of Invention

In view of the above problems, embodiments of the present application provide a method, an apparatus, and a vehicle for remote upgrade, which aim to remotely complete upgrade management and control of a vehicle, are not limited to indoor space, save user time, and optimize user experience; meanwhile, in the remote upgrading mode, the environment of the vehicle is simple and controllable, the misoperation risk of a user is reduced, and the upgrading success rate is improved.

A first aspect of the embodiments of the present application provides a method for remote upgrade, where the method is applied to a TSP platform, and includes:

receiving an upgrading task aiming at a vehicle, and determining the current state of the vehicle, wherein the current state is a state representing whether the vehicle is started or not;

when the vehicle is not started, sending the upgrading task to a mobile terminal corresponding to the vehicle, and responding to the triggering operation of the mobile terminal for the upgrading task to control the vehicle to execute the upgrading task;

and when the vehicle is started, responding to a target upgrading process based on the upgrading task, and controlling the vehicle to execute the upgrading task.

Optionally, in the process of executing the upgrade task by the vehicle, obtaining an execution result of executing the upgrade task by the vehicle;

feeding the execution result back to an OTA platform to inform the OTA platform to analyze the execution result and obtain the latest state of the upgrading task;

and controlling the vehicle to execute the rest tasks in the upgrading task according to the latest state of the upgrading task and the current state of the vehicle.

Optionally, controlling the vehicle to execute the remaining tasks of the upgrade task according to the latest state of the upgrade task and the current state of the vehicle, including:

when the current state of the vehicle is not started and the latest state shows that the upgrading task is not completed, sending the latest state to the mobile terminal;

and controlling the vehicle to continuously execute the incomplete upgrading task in response to the triggering operation of the mobile terminal for the latest state.

Optionally, a silent upgrade task for the vehicle is received, and a current state of the vehicle is determined, wherein the current state is a state representing whether the vehicle is online or not;

when the vehicle is not on-line, the silence upgrading task is sent to the vehicle, and the vehicle is controlled to execute the silence upgrading task;

and when the vehicle is on line, stopping sending the silent upgrade task to the vehicle.

Optionally, the silent upgrade task includes a to-be-pushed vehicle list, an upgrade task ID, a task issuing time, a task starting time, and a task terminating time.

Optionally, the method further comprises:

determining the current state of the vehicle when the task starting time is earlier than the task issuing time;

and when the task starting time is later than the task issuing time, determining the current state of the vehicle when the task starting time is reached.

A second aspect of the embodiments of the present application provides a device for remote upgrade, which is applied to a TSP platform, and the device includes:

the system comprises a determining module, a judging module and a judging module, wherein the determining module is used for receiving an upgrading task aiming at a vehicle and determining the current state of the vehicle, and the current state is a state representing whether the vehicle is started or not;

the first control module is used for sending the upgrading task to a mobile terminal corresponding to the vehicle when the vehicle is not started, and controlling the vehicle to execute the upgrading task in response to the triggering operation of the mobile terminal for the upgrading task;

and the second control module is used for responding to a target upgrading process based on the upgrading task when the vehicle is started and controlling the vehicle to execute the upgrading task.

A third aspect of embodiments of the present application provides a TSP platform, which is equipped with an electronic device for performing the method for remote upgrade provided by the first aspect of the present application.

A fourth aspect of the embodiments of the present application provides a vehicle, where an electronic device is configured on the vehicle, and the electronic device is configured to cooperate with the remote upgrade method provided in the first aspect of the present application, so as to control the vehicle to perform an upgrade task.

By adopting the remote upgrading method provided by the embodiment of the application, when the vehicle is in the open state, the user is in the vehicle, the upgrading task is pushed to the vehicle-mounted terminal through the TSP platform, the user controls the vehicle to execute the upgrading task in the vehicle, when the vehicle is not in the open state, the user is in other spaces, the upgrading task is pushed to the user mobile terminal (such as a mobile phone, an ipad and the like), and the user sends a remote control instruction to the TSP platform through the mobile terminal to control the vehicle to execute the upgrading task. Therefore, the functions of vehicle state remote query, vehicle remote control, security alarm and the like are realized by combining OTA (over the air technology) upgrading of the whole vehicle with a TSP (Total suspended particulate) platform of a vehicle remote control technology, and a user can remotely finish vehicle upgrading management and control through an APP (application) in a mobile terminal without being limited by indoor space, so that the time of the user is saved, and the user experience is optimized; meanwhile, in the remote upgrading mode, the environment of the vehicle is simple and controllable, the misoperation risk of a user is reduced, and the upgrading success rate is high.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required to be used in the description of the embodiments of the present application will be briefly described below, and it is obvious that the drawings in the description below are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings may be obtained according to these drawings without inventive labor.

Fig. 1 is a flowchart of a method for remote upgrade according to an embodiment of the present application;

fig. 2 is a flowchart illustrating an implementation of a method for remote upgrade according to an embodiment of the present application;

FIG. 3 is a flow chart of another implementation of a method for remote upgrade according to an embodiment of the present application;

fig. 4 is a schematic diagram of a device for remote upgrade according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The application provides a remote upgrading method. Referring to fig. 1, fig. 1 is a flowchart of a method for remote upgrade according to an embodiment of the present application. As shown in fig. 1, the method is applied to a TSP platform, and the method includes the steps of:

step S101: the method comprises the steps of receiving an upgrading task aiming at a vehicle and determining the current state of the vehicle, wherein the current state is a state representing whether the vehicle is started or not.

In this embodiment, the whole vehicle OTA upgrade is a technology of performing full-life-cycle software management on each Electronic Control Unit (ECU) in a vehicle based on a main control upgrade module (UCM) and an OTA platform of the vehicle, a TSP (Telematics Service Provider) is an automobile remote Service Provider, the TSP platform is connected with an automobile, a vehicle-mounted device manufacturer and a network operator at the upper end, and is connected with a content Provider at the lower end.

Referring to fig. 2, fig. 2 is a flowchart illustrating an implementation of a method for remote upgrade according to an embodiment of the present application. As shown in fig. 2, the OTA platform issues an upgrade task for upgrading the in-vehicle ECU, where the upgrade task information of the upgrade task includes a list of vehicles to be pushed, an upgrade task ID, and upgrade task creation time. The vehicle list to be pushed represents various types of vehicle models to which the upgrading task is pushed, the upgrading task ID is used for representing information such as an upgrading version of the upgrading task, and the upgrading task creation time represents the creation time of the upgrading task of the version. The OTA platform pushes the upgrading task to the TSP platform through the message middleware Kafka, and after the TSP platform receives the upgrading task for the vehicle, the TSP platform is connected with a vehicle-mounted communication system of the vehicle to determine the current state of the vehicle. The current state indicates whether the vehicle is in an on state, in other words, whether the vehicle is in a sleep state in which the vehicle is completely locked.

Step S102: and when the vehicle is not started, sending the upgrading task to a mobile terminal corresponding to the vehicle, and controlling the vehicle to execute the upgrading task in response to the triggering operation of the mobile terminal for the upgrading task.

In this embodiment, when it is determined in step S101 that the vehicle is currently in an unopened state, the TSP platform cannot push the upgrade task to the vehicle end at this time, so that the user controls the vehicle to execute the upgrade task through the vehicle end, at this time, the TSP platform pushes the upgrade task to the APP of the mobile terminal, and after receiving the upgrade task, the mobile terminal of the user sends a remote control instruction to the TSP platform through a triggering operation for the upgrade task. After receiving the remote control instruction, the TSP platform sends a first upgrading instruction encapsulated with the remote control instruction to a vehicle-mounted TBOX through a vehicle-mounted communication system, the vehicle-mounted TBOX analyzes the first upgrading instruction to obtain upgrading parameters of the upgrading task, and a vehicle-mounted main control upgrading module (UCM) enters a remote upgrading mode according to the upgrading parameters to complete upgrading detection, downloading and installing of the upgrading task so as to realize upgrading of all electronic control units in the vehicle.

Step S103: and when the vehicle is started, responding to a target upgrading process based on the upgrading task, and controlling the vehicle to execute the upgrading task.

In this embodiment, the target upgrade process includes, when it is determined in step S101 that the vehicle is currently in an on state, that is, the vehicle is in an un-sleep state without locking the vehicle, at this time, the TSP platform directly sends, through the vehicle-mounted communication system, a second upgrade instruction encapsulating the received upgrade task to the vehicle-mounted TBOX, obtains an upgrade parameter of the upgrade task by parsing the second upgrade instruction, the vehicle-mounted TBOX pushes the upgrade task to a Human Machine Interface (HMI), notifies a user in the vehicle of the upgrade task, and controls a vehicle-mounted main control upgrade module (UCM) to enter a remote upgrade mode according to the upgrade parameter according to a trigger operation of the user on the HMI, so as to complete detection of upgrade, downloading and installation of the upgrade task, thereby upgrading each electronic control unit in the vehicle.

According to the remote upgrading method provided by the embodiment of the application, when the vehicle is in an open state, a user is in the vehicle, the upgrading task is directly pushed to the vehicle-mounted terminal through the TSP platform, the user controls the vehicle to execute the upgrading task in the vehicle, when the vehicle is not in the open state, the user is in other spaces, the upgrading task is pushed to the user mobile terminal, and the user sends a remote control instruction to the TSP platform through the mobile terminal to control the vehicle to execute the upgrading task. Therefore, the functions of vehicle state remote query, vehicle remote control, security alarm and the like are realized by combining OTA (over the air technology) upgrading of the whole vehicle with a TSP (Total suspended particulate) platform of a vehicle remote control technology, and a user can remotely finish vehicle upgrading management and control through an APP (application) in a mobile terminal without being limited by indoor space, so that the time of the user is saved, and the user experience is optimized; meanwhile, in the remote upgrading mode, the environment of the vehicle is simple and controllable, the misoperation risk of a user is reduced, and the upgrading success rate is high.

In the present application, the method further comprises: acquiring an execution result of the vehicle executing the upgrading task in the process of executing the upgrading task by the vehicle; feeding back the execution result to an OTA platform to inform the OTA platform to analyze the execution result and obtain the latest state of the upgrading task; and controlling the vehicle to execute the rest tasks in the upgrading task according to the latest state of the upgrading task and the current state of the vehicle.

In the embodiment, for the process of controlling the vehicle to execute the upgrade task through the mobile terminal and directly pushing the upgrade task to the vehicle, in the process of controlling the vehicle to execute the upgrade task according to the triggering operation of the user on the human-computer interaction interface, the vehicle-mounted main control upgrade module (UCM) feeds back the execution result of the vehicle to execute the upgrade task to the OTA platform. And after receiving the execution result, the OTA platform analyzes the execution result to obtain the latest state corresponding to the upgrading task. And controlling the vehicle to continuously execute the remaining tasks which are not completed by the upgrading task according to the latest state of the upgrading task and the current state of the vehicle which are obtained by the OTA platform.

For example, after the vehicle receives the first upgrade order or the second upgrade order, the upgrade task is not completed to download or is not completed to install due to various reasons such as network interruption. At this time, the vehicle-mounted main control upgrading module (UCM) feeds back the execution result to the OTA platform. And after receiving the execution result, the OTA platform analyzes the execution result to obtain the latest state corresponding to the upgrade task, such as that the upgrade task is not finished downloading, or is not finished installing after finishing downloading, or is finished installing, and the like. And controlling the vehicle to continuously execute the remaining tasks which are not completed by the upgrading task according to the latest state of the upgrading task and the current state of the vehicle which are obtained by the OTA platform.

In this application, controlling the vehicle to execute the remaining tasks of the upgrade task according to the latest state of the upgrade task and the current state of the vehicle includes: when the current state of the vehicle is not started and the latest state shows that the upgrading task is not completed, sending the latest state to the mobile terminal; and controlling the vehicle to continuously execute the incomplete upgrading task in response to the triggering operation of the mobile terminal for the latest state.

In this embodiment, when the latest status of the upgrade task indicates that the upgrade task is not installed, the installation incomplete of the upgrade task includes: the downloading of the upgrading task is not completed, or the upgrading task is completed and downloaded but is not installed yet, and the upgrading task is completed and partially installed; the OTA platform sends the latest state of the upgrading task to the TSP platform through a message middleware Kafka; and when the TSP platform is connected with the vehicle-mounted communication system and the vehicle is determined to be in an unopened state, the TSP platform sends the latest state of the upgrading task to the mobile terminal of the user corresponding to the vehicle. After receiving the latest state of the upgrading task, the mobile terminal of the user acquires that the latest state of the upgrading task is in an unfinished installation state, and the user executes triggering operation aiming at the latest state of the upgrading task through the mobile terminal and sends a remote control instruction for continuing upgrading to the TSP platform.

After receiving the remote control instruction for continuous upgrading, the TSP platform sends a third upgrading instruction packaged with the remote control instruction for continuous upgrading to the vehicle-mounted TBOX through the vehicle-mounted communication system, the vehicle-mounted TBOX analyzes the third upgrading instruction to obtain upgrading parameters of the upgrading task, and a vehicle-mounted main control upgrading module (UCM) is controlled to enter a remote upgrading mode according to the upgrading parameters to complete upgrading detection and installation of remaining tasks which are not completed by the upgrading task, so that each electronic control unit in the vehicle is upgraded. And under the condition that the latest state of the upgrading task shows that the downloading of the upgrading task is not completed, the vehicle-mounted main control upgrading module further enters a remote upgrading mode according to the upgrading parameters to complete the downloading of the upgrading task.

When the latest state of the upgrading task shows that the upgrading task is installed, the OTA platform sends the latest state of the upgrading task to the TSP platform through the message middleware Kafka; the TSP platform is connected with the vehicle-mounted communication system, when the vehicle is determined to be in the unopened state, the TSP platform sends the latest state of the upgrading task to the mobile terminal of the user corresponding to the vehicle, and after receiving the latest state of the upgrading task, the mobile terminal of the user obtains that the latest state of the upgrading task is in the finished installation state.

In the present application, the method further comprises: receiving a silent upgrade task for the vehicle and determining a current state of the vehicle, wherein the current state is a state representing whether the vehicle is online; when the vehicle is not on-line, the silence upgrading task is sent to the vehicle, and the vehicle is controlled to execute the silence upgrading task; and when the vehicle is on line, stopping sending the silent upgrade task to the vehicle.

In the embodiment, in a scene that an engineer executes a silent upgrade task on a vehicle before the vehicle is sold, the engineer determines whether to push and execute the upgrade task directly according to the online state of the vehicle without participation of a mobile terminal, and the upgrade task does not need to be executed according to a trigger operation.

Specifically, referring to fig. 3, fig. 3 is a flowchart of another implementation of a method for remote upgrade according to an embodiment of the present application. As shown in fig. 3, the OTA platform issues a silent upgrade task for upgrading the ECU in the vehicle, the OTA platform pushes the silent upgrade task to the TSP platform through the message middleware Kafka, and after the TSP platform receives the silent upgrade task for the vehicle, the TSP platform is connected to the vehicle-mounted communication system of the vehicle to determine the current state of the vehicle. The current state indicates whether the vehicle is on-line, in other words, whether the vehicle is in a flameout state capable of communicating with the TSP platform.

When the TSP platform determines that the vehicle is in an online state, the vehicle cannot execute the silent upgrade task, the TSP platform records the pushing abnormity of the silent upgrade task, and the pushing result of the silent upgrade task pushing abnormity is sent to the OTA platform through the message middleware Kafka.

When the TSP platform determines that the vehicle is in an offline state, the TSP platform directly sends an upgrading instruction packaged with a received silence upgrading task to a vehicle-mounted TBOX through a vehicle-mounted communication system, obtains upgrading parameters of the silence upgrading task by analyzing the upgrading instruction, and a vehicle-mounted main control upgrading module (UCM) enters a remote upgrading mode according to the upgrading parameters of the silence upgrading task to complete upgrading detection, downloading and installation of the silence upgrading task so as to realize silence upgrading of each electronic control unit in the vehicle. And the vehicle-mounted main control upgrading module (UCM) sends the execution result of executing the silent upgrading task to the OTA platform. In the TSP platform, the upgrading instruction encapsulated with the received silence upgrading task is directly sent to the vehicle-mounted TBOX through the vehicle-mounted communication system, if the pushing fails due to the problems of a signal network and the like, the TSP also records the pushing abnormity of the silence upgrading task, and the pushing result is sent to the OTA platform.

And the OTA platform sends the received execution result or the pushing result to a front-end page or informs an administrator in a mail short message mode.

In the application, the silent upgrade task includes a to-be-pushed vehicle list, an upgrade task ID, task issuing time, task starting time, and task terminating time.

In this embodiment, a vehicle list to be pushed in a silent upgrade task indicates types of vehicles to which the silent upgrade task is to be pushed, an upgrade task ID is used to represent information such as an upgrade version of the silent upgrade task, a task issue time represents a time for the silent upgrade task to issue to a TSP platform, a task start time represents a start time for the vehicles to execute the silent upgrade task, the silent upgrade task is not completed for a long time due to network interruption or other reasons during the execution of the silent upgrade task, so that the failure probability of the silent upgrade task is increased, the silent upgrade task is terminated after the silent upgrade task is executed for a preset time length, and the task termination time represents a time for the silent upgrade task of the vehicles to be terminated after the silent upgrade task is executed for the preset time length.

In the present application, the method further comprises: when the task starting time is earlier than the task issuing time, determining the current state of the vehicle; and when the task starting time is later than the task issuing time, determining the current state of the vehicle when the task starting time is reached.

In this embodiment, before the TSP determines the current state of the vehicle, the TSP platform needs to determine the task start time and the task issuing time of the silent upgrade task, and after the silent upgrade task is issued, the silent upgrade task is pushed to the TSP platform through the message middleware Kafka, and the TSP platform determines the task start time and the task issuing time of the silent upgrade task.

When the task starting time of the silent upgrade task is earlier than the task issuing time of the silent upgrade task, the TSP platform immediately determines the current state of the vehicle when receiving the silent upgrade task, and controls the vehicle to execute the silent upgrade task according to the determined current state of the vehicle.

When the task starting time of the silent upgrade task is later than the task issuing time of the silent upgrade task, the TSP platform does not need to control the vehicle to execute the silent upgrade task when receiving the silent upgrade task, and the TSP platform does not need to determine the current state of the vehicle at the moment. And when the task starting time of the silent upgrade task is reached, the TSP platform starts to determine the current state of the vehicle, and the vehicle is controlled to execute the silent upgrade task according to the determined current state of the vehicle.

In this embodiment, on the service interaction level, the vehicle-mounted UCM interacts with the OTA platform only, and performs the upgrade life cycle management of the whole vehicle; the TSP platform and the OTA platform carry out message synchronization through a message middleware Kafka; the TBOX only interacts with the TSP platform to perform vehicle remote awakening and command issuing (the TSP is transparent and stateless to the whole vehicle upgrading service; the TBOX multiplexes a conventional upgrading detection trigger interface), and the mode realizes maximum decoupling of the upgrading service and the remote control service and effectively improves development joint debugging efficiency.

According to the remote upgrading method, in a scene that the mobile terminal controls the vehicle to be upgraded remotely after sale, the OTA upgrading of the whole vehicle is combined with the TSP platform of the vehicle remote control technology, so that the functions of remote inquiry of the vehicle state, remote control of the vehicle, security alarm and the like are realized, a user can finish vehicle upgrading management and control remotely through the APP in the mobile terminal, the method is not limited by indoor space, the time of the user is saved, and the user experience is optimized; meanwhile, in the remote upgrading mode, the environment of the vehicle is simple and controllable, the misoperation risk of a user is reduced, and the upgrading success rate is high. Before the vehicle is sold, in a scene that an engineer executes a silence upgrading task on the vehicle, the participation of a mobile terminal does not exist, whether the vehicle is pushed or not is directly determined according to the online state of the vehicle, the upgrading task is not required to be executed according to triggering operation, and the upgrading efficiency of the silence upgrading task is effectively improved. The remote upgrading method realizes maximum decoupling of the upgrading service and the remote control service, and effectively improves development joint debugging efficiency.

Based on the same inventive concept, referring to fig. 4, fig. 4 is a schematic diagram of a remote upgrading device according to an embodiment of the present application. As shown in fig. 4, the present application further provides a remote upgrading apparatus applied to a TSP platform, where the apparatus 40 includes:

the determining module 41 is configured to receive an upgrade task for a vehicle and determine a current state of the vehicle, where the current state is a state indicating whether the vehicle is turned on;

the first control module 42 is configured to send the upgrade task to a mobile terminal corresponding to the vehicle when the vehicle is not started, and control the vehicle to execute the upgrade task in response to a trigger operation of the mobile terminal for the upgrade task;

and a second control module 43, configured to control the vehicle to execute the upgrade task in response to a target upgrade procedure based on the upgrade task when the vehicle is started.

Optionally, the apparatus further comprises:

the obtaining module is used for obtaining an execution result of the vehicle executing the upgrading task in the process of the vehicle executing the upgrading task;

the feedback module is used for feeding the execution result back to the OTA platform so as to inform the OTA platform to analyze the execution result and obtain the latest state of the upgrading task;

and the third control module is used for controlling the vehicle to execute the rest tasks in the upgrading task according to the latest state of the upgrading task and the current state of the vehicle.

Optionally, the third control module comprises:

the transmission module is used for sending the latest state to the mobile terminal when the current state of the vehicle is not started and the latest state shows that the upgrading task is not completed;

and the third control sub-module is used for responding to the triggering operation of the mobile terminal aiming at the latest state and controlling the vehicle to continuously execute the incomplete upgrading task.

Optionally, the apparatus further comprises:

the vehicle monitoring system comprises a first determination module, a second determination module and a monitoring module, wherein the first determination module is used for receiving a silent upgrade task for the vehicle and determining the current state of the vehicle, and the current state is a state which is used for representing whether the vehicle is on line or not;

the first execution module is used for sending the silence upgrading task to the vehicle and controlling the vehicle to execute the silence upgrading task when the vehicle is not on line;

and the second execution module is used for stopping sending the silent upgrade task to the vehicle when the vehicle is online.

Optionally, the silent upgrade task includes a list of vehicles to be pushed, an upgrade task ID, task issuing time, task starting time, and task terminating time.

Optionally, the apparatus further comprises:

the first judging module is used for determining the current state of the vehicle when the task starting time is earlier than the task issuing time;

and the second determination module is used for determining the current state of the vehicle when the task starting time is later than the task issuing time and the task starting time is reached.

For the device embodiment, since it is basically similar to the method embodiment, the description is simple, and for the relevant points, refer to the partial description of the method embodiment.

Based on the same inventive concept, another embodiment of the present application provides a TSP platform equipped with an electronic device for performing the method for remote upgrade provided in the first aspect of the present application.

Based on the same inventive concept, another embodiment of the present application provides a vehicle, where an electronic device is configured on the vehicle, and the electronic device is configured to cooperate with the remote upgrade method provided in the first aspect of the present application to control the vehicle to perform an upgrade task.

It should be noted that, in the present specification, the embodiments are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other.

It should also be noted that, in this document, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Moreover, relational terms such as "first" and "second" are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions or should not be construed as indicating or implying relative importance. Also, the terms "include", "including" or any other variations thereof are intended to cover non-exclusive inclusion, so that a process, method, article, or terminal device including a series of elements includes not only those elements but also other elements not explicitly listed or inherent to such process, method, article, or terminal device. Without further limitation, an element defined by the phrases "comprising one of 8230; \8230;" 8230; "does not exclude the presence of additional like elements in a process, method, article, or terminal device that comprises the element.

The technical solutions provided in the present application are described in detail above, and specific examples are applied herein to explain the principles and embodiments of the present application, and the descriptions of the above examples are only used to help understanding the present application, and the content of the present specification should not be construed as limiting the present application. While various modifications of the illustrative embodiments and applications will be apparent to those skilled in the art based upon this disclosure, it is not necessary or necessary to exhaustively enumerate all embodiments, and all obvious variations and modifications can be resorted to, falling within the scope of the disclosure.

Claims (9)

1. A method for remote upgrading, which is applied to a TSP platform and comprises the following steps:

receiving an upgrade task for a vehicle, and determining the current state of the vehicle, wherein the current state represents whether the vehicle is started or not;

when the vehicle is not started, sending the upgrading task to a mobile terminal corresponding to the vehicle, and responding to the trigger operation of the mobile terminal for the upgrading task to control the vehicle to execute the upgrading task;

and when the vehicle is started, responding to a target upgrading process based on the upgrading task, and controlling the vehicle to execute the upgrading task.

2. The method of claim 1, further comprising:

acquiring an execution result of the vehicle executing the upgrading task in the process of executing the upgrading task by the vehicle;

feeding the execution result back to an OTA platform to inform the OTA platform to analyze the execution result and obtain the latest state of the upgrading task;

and controlling the vehicle to execute the rest tasks in the upgrading task according to the latest state of the upgrading task and the current state of the vehicle.

3. The method of claim 2, wherein controlling the vehicle to perform remaining ones of the upgrade tasks based on the latest status of the upgrade tasks and the current status of the vehicle comprises:

when the current state of the vehicle is not started and the latest state shows that the upgrading task is not completed, sending the latest state to the mobile terminal;

and controlling the vehicle to continuously execute the incomplete upgrading task in response to the triggering operation of the mobile terminal for the latest state.

4. The method of claim 1, further comprising:

receiving a silent upgrade task for the vehicle and determining a current state of the vehicle, wherein the current state is a state representing whether the vehicle is on-line;

when the vehicle is not on line, the silence upgrading task is sent to the vehicle, and the vehicle is controlled to execute the silence upgrading task;

and when the vehicle is on line, stopping sending the silence upgrading task to the vehicle.

5. The method of claim 4, wherein the silent upgrade tasks include a list of vehicles to be pushed, an upgrade task ID, a task release time, a task start time, and a task end time.

6. The method of claim 5, further comprising:

determining the current state of the vehicle when the task starting time is earlier than the task issuing time;

and when the task starting time is later than the task issuing time, determining the current state of the vehicle when the task starting time is reached.

7. A device for remote upgrade, applied to a TSP platform, comprising:

the system comprises a determining module, a judging module and a judging module, wherein the determining module is used for receiving an upgrading task aiming at a vehicle and determining the current state of the vehicle, and the current state is a state representing whether the vehicle is started or not;

the first control module is used for sending the upgrading task to a mobile terminal corresponding to the vehicle when the vehicle is not started, and controlling the vehicle to execute the upgrading task in response to the triggering operation of the mobile terminal for the upgrading task;

and the second control module is used for responding to a target upgrading process based on the upgrading task when the vehicle is started and controlling the vehicle to execute the upgrading task.

8. A TSP platform equipped with electronics for performing the method of remote upgrade of any of claims 1-6.

9. A vehicle, characterized in that an electronic device is arranged on the vehicle, and the electronic device is used for cooperating with the remote upgrading method in any one of claims 1-6 to control the vehicle to execute upgrading tasks.

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