CN109120681B - Vehicle-mounted process management method and device - Google Patents

Abstract

The invention discloses a vehicle-mounted process management method and a device, wherein the method comprises the following steps: subdividing and identifying the vehicle-mounted functions in the function list to generate vehicle-mounted function configuration options; the vehicle-mounted function configuration options comprise a must-match function and an optional match function; evaluating whether the personalized configuration scheme sent by the user terminal is reasonable; the personalized configuration scheme comprises a vehicle-mounted function selection result and a priority ranking result which are obtained based on the vehicle-mounted function configuration options; when the personalized configuration scheme is reasonable, generating a software package which can be refreshed according to the personalized configuration scheme and sending the software package to the user terminal; and when the personalized configuration scheme is unreasonable, a software package which can be rewritten is not generated, and the configuration risk prompt information and/or the recommended configuration scheme of the function/process are sent to the user terminal. The invention can meet the individual requirements of different users in a function configuration mode under the condition of limited hardware resources.

Description

Vehicle-mounted process management method and device

Technical Field

The invention relates to the technical field of vehicle-mounted systems, in particular to a vehicle-mounted process management method and device.

Background

With the sophistication of on-board functions, more and more markets (host plants and service providers) choose integration of electronic control to meet more functions and higher response. Meanwhile, a network real-time solution is provided for meeting human-computer interaction and matched service upgrading. At present, more vehicle-mounted functions are displayed in an electric control mode to assist wider man-machine requirements, machine-machine communication and information interaction between vehicle-mounted equipment and a host factory server.

Current on-board process management to protect the core functionality of a single (own) controller cannot be optimized for single/multi-threaded tasks within a single controller. There is no mention of how to satisfy the following conditions in the case of certain (limited) on-board hardware resources:

1. different priority requirements of different users on the functions of the vehicle-mounted controller;

2. different users demand different priorities between controllers;

3. different resource requirements of different users for the ethernet;

4. other personalized functional requirements of the user.

Disclosure of Invention

The invention aims to solve the problems that how a host factory releases part of function priority (process) to users and how the host factory subsequently controls the released function so as to meet the requirements of safety, confidentiality and practicability; how users understand, define and manage local vehicle-mounted tasks; how to perform function communication, expansion (upgrade) and the like between a host factory and a user. In order to solve the above technical problem, a first aspect of the present invention provides a vehicle-mounted process management method, including the following steps:

subdividing and identifying the vehicle-mounted functions in the function list to generate vehicle-mounted function configuration options; the vehicle-mounted function configuration options comprise a must-match function and an optional match function;

evaluating whether the personalized configuration scheme sent by the user terminal is reasonable; the personalized configuration scheme comprises a vehicle-mounted function selection result and a priority ranking result which are obtained based on the vehicle-mounted function configuration options;

when the personalized configuration scheme is reasonable, generating a software package which can be refreshed according to the personalized configuration scheme and sending the software package to the user terminal;

and when the personalized configuration scheme is unreasonable, a software package which can be rewritten is not generated, and configuration risk prompt information and/or a recommended configuration scheme of the function/process are sent to the user terminal.

Further, still include:

detecting function/process request information and/or driving environment information sent by a user terminal;

sending a function/process recommendation configuration scheme to the user terminal according to the detection result; and the function/process request information and the driving environment information are stored in association with the function/process recommendation configuration scheme.

Further, after detecting the function/process request information and/or the driving environment information sent by the user terminal, the method further includes:

and adding the function/process requested by the user as an optional function into the vehicle-mounted function configuration option.

Further, the evaluating whether the personalized configuration scheme is reasonable includes:

evaluating whether the process arrangement in the personalized configuration scheme is reasonable; and/or, evaluating whether the priority setting in the personalized configuration scheme is reasonable.

Further, still include:

receiving and statistically analyzing an improvement suggestion sent by a user terminal, and adjusting the vehicle-mounted function configuration option according to a statistical analysis result; the adjusting the in-vehicle function configuration options includes one or more of raising or lowering a priority of an in-vehicle function, adding or deleting an in-vehicle function, and modifying a logic of an in-vehicle function.

The invention provides a second aspect of a vehicle-mounted process management method, which comprises the following steps:

acquiring vehicle-mounted function configuration options; the vehicle-mounted function configuration options comprise a must-match function and an optional match function;

selecting vehicle-mounted functions and sequencing priorities based on the vehicle-mounted function configuration options, generating an individualized configuration scheme meeting the requirements of a user, and sending the individualized configuration scheme to a configuration management server;

when receiving a software package downloading prompt message sent by a configuration management server, downloading the software package to update controller software of the vehicle;

and when configuration risk prompt information and/or a function/process recommended configuration scheme sent by a configuration management server are received, the personalized configuration scheme is changed or the function/process recommended configuration scheme is selected according to the configuration risk prompt information.

Further, still include:

sending function/process request information and/or driving environment information to a configuration management server; the function/process request information, the driving environment information and the function/process recommendation configuration scheme are stored in an associated mode;

detecting whether confirmation information which is input by a user and adopts the function/process recommendation configuration scheme is received;

and if so, adjusting the vehicle-mounted function according to the function/process recommended configuration scheme.

Further, still include:

and an improvement suggestion is put forward for the vehicle-mounted function configuration option, and the improvement suggestion is used for perfecting vehicle-mounted function requirements in each subdivision field.

The invention provides a third aspect of a vehicle-mounted process management device, which comprises the following modules:

the option generating module is used for subdividing and identifying the vehicle-mounted functions in the function list to generate vehicle-mounted function configuration options; the vehicle-mounted function configuration options comprise a must-match function and an optional match function;

the scheme evaluation module is used for evaluating whether the personalized configuration scheme sent by the user terminal is reasonable; the personalized configuration scheme comprises a vehicle-mounted function selection result and a priority ranking result which are obtained based on the vehicle-mounted function configuration options;

the updating module is used for generating a software package which can be refreshed according to the personalized configuration scheme and sending the software package to the user terminal when the personalized configuration scheme is reasonable;

and the prompting module is used for not generating a software package which can be refreshed when the personalized configuration scheme is unreasonable and sending the configuration risk prompting information and/or the recommended configuration scheme of the function/process to the user terminal.

Further, still include:

the detection module is used for detecting function/process request information and/or driving environment information sent by the user terminal;

the recommending module is used for sending a function/process recommending configuration scheme to the user terminal according to the detection result; and the function/process request information and the driving environment information are stored in association with the function/process recommendation configuration scheme.

Further, still include:

and the expansion module is used for adding the function/process requested by the user as an optional function into the vehicle-mounted function configuration option.

Further, the scenario evaluation module includes:

the first evaluation module is used for evaluating whether the process arrangement in the personalized configuration scheme is reasonable;

and/or the second evaluation module is used for evaluating whether the priority setting in the personalized configuration scheme is reasonable.

Further, still include:

the feedback analysis module is used for receiving and statistically analyzing the improvement suggestions sent by the user terminal and adjusting the vehicle-mounted function configuration options according to statistical analysis results;

the adjusting the in-vehicle function configuration options includes one or more of raising or lowering a priority of an in-vehicle function, adding or deleting an in-vehicle function, and modifying a logic of an in-vehicle function.

The invention provides a fourth aspect of a vehicle-mounted process management device, which comprises the following modules:

the option acquisition module is used for acquiring vehicle-mounted function configuration options; the vehicle-mounted function configuration options comprise a must-match function and an optional match function;

the personalized configuration module is used for selecting vehicle-mounted functions and sequencing priorities based on the vehicle-mounted function configuration options, generating a personalized configuration scheme meeting the requirements of a user and sending the personalized configuration scheme to the configuration management server;

the downloading module is used for downloading the software package to update the controller software of the vehicle when receiving the software package downloading prompt information sent by the configuration management server;

and the reconfiguration module is used for changing the personalized configuration scheme or selecting the function/process recommended configuration scheme according to the configuration risk prompt information when receiving the configuration risk prompt information and/or the function/process recommended configuration scheme sent by the configuration management server.

Further, still include:

the request module is used for sending function/process request information and/or driving environment information to the configuration management server; the function/process request information, the driving environment information and the function/process recommendation configuration scheme are stored in an associated mode;

the confirming module is used for detecting whether confirming information which is input by a user and adopts the function/process recommending and configuring scheme is received;

and the adjusting module is used for adjusting the vehicle-mounted function according to the function/process recommended configuration scheme when necessary.

Further, still include:

and the user feedback module is used for providing an improvement suggestion for the vehicle-mounted function configuration option, and the improvement suggestion is used for perfecting the vehicle-mounted function requirements in each subdivision field.

The implementation of the invention has the following beneficial effects:

1. under the condition of limited hardware resources, the host factory enables users to customize partial functions in a function configuration mode, and different priority requirements and other personalized requirements of different users on the functions of the vehicle-mounted controller can be met;

2. the invention can meet the requirements of different users on different priorities between the controllers;

3. the invention allows a third-party network platform to participate and assists the subdivision realization of the vehicle-mounted function, forms the function of real-time interaction between the function logic list of the user terminal and the driving environment by utilizing network resources, and can meet different resource requirements of different users on the network (such as Ethernet) by controlling and butting the participation of the third party by a host factory.

4. The user carries out self-information requirement definition through host computer factory guide information, and feeds back to the host computer factory, lets the host computer factory obtain the segmentation big data of each controller, forms a virtuous circle system to the feedback of on-vehicle process and functional requirement + optimization between host computer factory and the user finally, increases user's stickness.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a flowchart of a vehicle-mounted process management method according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of vehicle function priority configuration options of a user terminal and a host factory before update according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of vehicle function priority configuration options of an updated user terminal and a host factory according to an embodiment of the present invention;

FIG. 4 is a flowchart of a vehicle-mounted process management method according to an embodiment of the present invention;

FIG. 5 is a flowchart of a vehicle-mounted process management method according to an embodiment of the present invention;

fig. 6 is a block diagram of a vehicle-mounted process management apparatus according to an embodiment of the present invention;

fig. 7 is a block diagram of a vehicle-mounted process management apparatus according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. 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 invention. Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout.

Example (b):

fig. 1 is a flowchart of a vehicle-mounted process management method according to an embodiment of the present invention, and referring to fig. 1, the vehicle-mounted process management method disclosed in the embodiment includes the following steps:

s101: the host factory identifies the functions which are allowed to be personalized/expanded in the function list and configures the functions in the configuration management server;

the host factory places part of the subdivided vehicle functions and the priority attributes on the configuration management server in a configurable mode and releases the part of the subdivided vehicle functions and the priority attributes to the users in a user-recognizable mode, wherein the released part of the functions and the priority attributes comprise controller subdivision functions, priorities and thread management.

Preferably, the configuration information is transmitted by adopting information media such as ethernet, WIFI, 3G, 4G, and the like; the configuration information includes a recommended configuration scheme.

Preferably, a real-time dynamic encryption method is adopted to perform encryption protection on information interaction between the configuration management server and the user terminal.

The priority configuration options of the host factory should satisfy:

1) in principle, the configuration options released by the host factory can support increase and decrease, configuration modes (for example, configured as a must-match function or an optional-match function) and task priority release, and repeated demonstration is required on the premise of ensuring safety and functions.

2) Strong functional services and strong logical services cannot be released, and safety and reliability should be ensured;

3) because the vehicle-mounted function is too strong in future expansibility, under the condition that the vehicle-mounted information bandwidth is not changed, the vehicle-mounted information is safe and the communication bandwidth is enough, the host factory and a third-party service company can cooperate to expand partial functions on the Ethernet so as to meet the unique requirements of users.

Therefore, the user can select the functions which are considered important and do not influence the safety, power and performance of the whole vehicle due to the occupation of the vehicle-mounted bandwidth; functions that he deems unimportant and that do not affect safety, power, performance may also be left out. For example, the user needs a real-time road speed limit function, which can feed back to the host factory, and the host factory cooperates with the network third-party resource under the permission of bus bandwidth and logic, and redefines the vehicle-mounted resource. After repeated tests and demonstrations, the function is upgraded on the website of the system of the host factory.

S102: the user registers and logs in through a user terminal, and communicates with the configuration management server after the identity information passes the verification;

optionally, the user logs in through the user terminal, such as logging in an official website of a host factory, official Wechat, and the like;

optionally, the user terminal is an app program developed by a host factory on a terminal device such as a smart phone, a tablet computer, a palm computer, a notebook computer, or MP5, and an operation interface defined by the app has user identification, configuration of vehicle-mounted function options, and the like;

optionally, the user terminals are divided according to transmission modes, and each user terminal comprises an ethernet terminal, a WIFI terminal, a 2G terminal, a 3G terminal, a 4G terminal and the like; the user terminals are divided according to the use occasions and comprise fixed terminals, mobile terminals or handheld terminals and the like.

S103 a: the user identifies the controller task information provided by the configuration management server, changes the function priority according to the requirement and submits the function priority to the configuration management server;

and the user selects the functions and sorts the priority of the vehicle-mounted functions on the user terminal according to the established flow of the host factory, generates a personalized configuration scheme and submits the personalized configuration scheme to the configuration management server of the host factory. In a specific example, a user registers and logs in an app developed by a host factory on a smart phone, enters a configuration interface window provided by the host factory, performs function priority ordering under host factory guidance information, and finally submits the function priority ordering;

alternatively, S103 b: the user interacts with the host factory; for example, the user gives a constructive proposal for released/unreleased functions, helping the host plant to perfect the on-board function requirements under each segment.

Alternatively, S103 c: the user directly uses the software package recommended by the host factory, namely, the user directly uses the recommended configuration scheme provided by the configuration management server.

S104: the host factory identifies the received user request and evaluates whether the user request is reasonable; the user request comprises a personalized configuration scheme;

s105: if the user request is reasonable, the configuration management server generates a software package supporting the flash according to the configuration option, and feeds back and prompts the user to download;

the user request is reasonable and comprises reasonable process arrangement and reasonable priority setting.

S106: a user downloads software through a user terminal and writes by steps or 4S stores according to a writing tool provided by a host factory;

when a user terminal prompts a user of a newly generated software package, the user can update the controller software according to the operation method of the host factory, and if the software is in risk in flash, the 4S store provides service support;

s107: if the priority selected by the user has risk, the host factory sends the configured risk warning information to the user, and the server does not generate a software package which can be flashed;

configuring risk alert information includes process scheduling being unreasonable and/or priority settings being unreasonable, etc.

S108: if the user terminal receives the risk prompt, the scheme is changed again according to the risk prompt rule, or the change is abandoned to the step S103c and the scheme recommended by the host factory is selected.

The user can identify the function information in the configuration management server and perform task management and control according to the suggestion and risk prompt of the host factory. Preferably, the risk tip further comprises a system risk interpretation.

S109: the user submits the use suggestions and the function suggestions to interact with the host factory.

The user gives a constructive proposal for the released/unreleased functions, and helps the host factory to perfect the vehicle-mounted function requirements in each subdivided field.

In the aspect of process arrangement, the same design idea is adopted for other situations such as single thread and multithreading, for example, the single thread is arranged only in front-back priority, and the multitask can be arranged in front-back priority of different processes by a user. The following description will be given taking a single thread as an example.

Fig. 2 is a schematic diagram of vehicle function priority configuration options of a user terminal and a host factory before update according to an embodiment of the present invention, please refer to fig. 2, where a server shown in fig. 2 is a configuration management server, a user is a user, and the user operates an app program installed on a terminal device and developed by the host factory to select a function and set task priority.

With continued reference to fig. 2, the vehicle function configuration options of the configuration management server are as follows: the controller A has three essential functions of A1, A2 and A3 and two optional functions of A4 and A5; the controller B has two necessary functions of B1 and B2, and B3, B4 and B5 are optional functions. Configuration of the recommended priority of the management server: a1 → A2 → A3 → B1 → B2 → A4 → A5 → B3 → B4 → B5.

With continued reference to fig. 2, the user has a choice of vehicle function configuration options: a1, a2, A3, a4, B1, B2, B3, B4, B5, no server recommended a5 function was selected. Self-defined priority: a1 → A2 → A3 → B1 → B2 → A4 → B5 → B3 → B4.

The user applies personalized configuration to the released function, and feeds back the function to the host factory through the user terminal equipment, and the configuration management server performs system analysis and then selects to release or not to release the function. The configuration management server carefully passes the request of the user under a certain algorithm and previous data, generates a software package and feeds back the user. The data encryption of the whole process is defined by the configuration management server.

The user downloads the software and gives the following suggestions after using the software:

(ii) some functions are too high in priority (A2, B2 in the example);

secondly, some functions need to be added but the host factory does not (functions B6 and B7, wherein the function B6 is a function of suggesting the host factory to establish connection with the Ethernet platform to meet the requirement of actively limiting the speed of the vehicle on any road);

③ some functions are not very useful (a 5, B4 in the example);

(iv) some functional logic is not good enough and needs improvement (a 4, B5 in the example).

The host factory releases the configuration options and provides function revisit research, big data statistics and function redefinition are carried out according to the research (functions are expanded from a third party channel through an Ethernet interface if necessary), and functions of different versions are released to users after the evaluation test is completed. For example, after a certain amount of users feedback to the host factory, the host factory makes the following adjustments to the controller a and the controller B at the next platform change after the system science demonstration (including cooperation with some functions of the ethernet platform) such as multi-party discussion and experiment.

Fig. 3 is a schematic diagram of vehicle function priority configuration options of the updated user terminal and the host factory according to an embodiment of the present invention, please refer to fig. 3, where the vehicle function configuration options of the configuration management server are adjusted as follows:

lowering the priority of B2;

function B6 is added;

thirdly, the priority of the A5 is reduced to be configurable in a recommendation type;

and the logic of B5 is modified.

While the server gives reasonable explanations (data) that lie in the proposed B7 not adopted.

With continued reference to fig. 3, the user, with some updates according to the host factory, again through the user terminal device, makes the following decisions:

lowering the priority of B2 (task is ranked to the end);

secondly, a function B6 is downloaded newly and the task priority is adjusted forward;

③ the a5 function is not downloaded again;

and fourthly, updating the logic B5.

After receiving the request from lie, the configuration management server of the host factory determines again through the algorithm that the communication load of the user is still safe, and sends the update-related information to lie through the software of the controller generated A, B from the lie configuration. It is a lie to understand the responsibilities and attitudes in the hosting plant's associated services after using the above services. Indicating that it will continue to work with the host factory as a faithful user.

In the embodiment, the configuration management server carries out subdivision identification on functions which can be personalized in the function list and places the functions as configurable items in the official server. The user identifies the subdivided vehicle public configuration information provided by the official server of the host factory, the user sets the priority according to the identified function, and provides more practical technical requirements according to the identification option, so that the interaction between the user and the host factory is increased, and the continuous updating and perfecting of the function subdivision requirements are achieved.

Compared with the prior art, the embodiment provides a channel, so that a user can partially define the functions and the priority of the vehicle-mounted controller; the real requirements of more subdivided fields are obtained by a host factory; the method is provided, and the requirements of different users are met under the condition of limited hardware resources; a concept is provided, an Ethernet third-party platform can participate in interaction of user function requirements (the participation of a third party is controlled and butted by a host factory), and the requirement internetization is realized.

Fig. 4 is a flowchart of a vehicle-mounted process management method according to an embodiment of the present invention, which is described from the perspective of a configuration management server, and referring to fig. 4, the vehicle-mounted process management method disclosed in the embodiment includes the following steps:

s201: subdividing and identifying the vehicle-mounted functions in the function list to generate vehicle-mounted function configuration options; the vehicle-mounted function configuration options comprise a must-match function and an optional match function;

s202: evaluating whether the personalized configuration scheme sent by the user terminal is reasonable; the personalized configuration scheme comprises a vehicle-mounted function selection result and a priority ranking result which are obtained based on the vehicle-mounted function configuration options;

s203: when the personalized configuration scheme is reasonable, generating a software package which can be refreshed according to the personalized configuration scheme and sending the software package to the user terminal;

specifically, the evaluating whether the personalized configuration scheme is reasonable includes: evaluating whether the process arrangement in the personalized configuration scheme is reasonable; and/or, evaluating whether the priority setting in the personalized configuration scheme is reasonable.

S204: and when the personalized configuration scheme is unreasonable, a software package which can be rewritten is not generated, and the configuration risk prompt information and/or the recommended configuration scheme of the function/process are sent to the user terminal.

In a preferred embodiment, the vehicle-mounted process management method further includes the following steps: detecting function/process request information and driving environment information sent by a user terminal; and sending a function/process recommendation configuration scheme to the user terminal according to the detection result. And the function/process request information and the driving environment information are stored in association with the function/process recommendation configuration scheme.

For example, when a user plays music in a vehicle, the user may desire the in-vehicle terminal to have a function of automatically lowering the volume of the music played in the vehicle in order to hear the sound outside the vehicle when the current driving environment is a downtown area. In the above scenario, the user may request the function/process from the host factory configuration management server through the user terminal, and send the current driving environment to the host factory configuration management server. The method comprises the steps that a host factory configuration management server sends function/process recommendation information to a user terminal after detecting a function/process request and driving environment information sent by the user terminal; and the function/process request information, the driving environment information and the function/process recommendation configuration scheme are stored in an associated manner.

Specifically, the driving environment information may be sound information, image information, position information, or the like. For example, the output driving environment recognition result may be obtained by recognizing the traffic flow of the driving road section according to the historical data according to an algorithm provided by a high-grade map (or other maps) company. Preferably, the user terminal not only sends the recognition result to the configuration management server but also outputs the recognition result to the user, and the output of the recognition result to the user may be in the form of any one or more combinations of sound, image, characters, and the like, and is specifically set based on functions that the user terminal can support and the use habits of the user.

In an optional implementation manner, the vehicle-mounted process management method further includes the following steps: detecting function/process request information sent by a user terminal; and sending a function/process recommendation configuration scheme to the user terminal according to the detection result.

For example, when a user plays music in a vehicle, the user may desire the in-vehicle terminal to have a function of automatically lowering the volume of the music played in the vehicle in order to hear the sound outside the vehicle when the current driving environment is a downtown area. In the above scenario, the user may request the function/process from the host factory configuration management server through the user terminal. And after detecting the function/process request sent by the user terminal, the host factory configuration management server sends recommendation information of the function/process to the user terminal.

In order to meet diversified driving requirements of users, in an optional implementation manner, the vehicle-mounted process management method forms a function of real-time interaction between a function logic list of a user terminal and a driving environment by using network resources, and comprises the following steps: detecting driving environment information sent by a user terminal; and obtaining the associated function/process recommended configuration scheme according to the driving environment information, and sending the function/process recommended configuration scheme to the user terminal. And the function/process request information and the driving environment information are stored in association with the function/process recommendation configuration scheme.

For example, when a user plays music in a vehicle, the host factory configuration management server can acquire a function/process recommended configuration scheme according to the driving environment information stored in association when detecting that the vehicle enters an downtown area again, and then automatically send the recommended configuration scheme for reducing the playing volume of the music in the vehicle to the user terminal.

It should be noted that, under the condition that the hardware configuration of the vehicle allows, the user can continuously acquire all driving environment information by using the vehicle acquisition equipment; in the case of low hardware configuration of the vehicle, the user can acquire part of driving environment information (such as position information) by using the vehicle acquisition device, and obtain more driving environment information (such as current road information, traffic flow and the like) by means of a third-party service provider (such as a third-party high-precision map service provider) on the basis of the driving environment information acquired by the vehicle. The vehicle-mounted acquisition device may be a vision sensor (e.g., a camera), a ranging sensor (e.g., a laser radar), or the like.

In order to continuously improve the vehicle-mounted function configuration options, the vehicle-mounted process management method disclosed in this embodiment further includes, after the step of detecting the function/process request information and/or the driving environment information sent by the user terminal, the following steps: the host factory configuration management server adds the function/process requested by the user as an option function to the in-vehicle function configuration option.

Optionally, the vehicle-mounted process management method disclosed in this embodiment further includes the following steps: receiving and statistically analyzing an improvement suggestion sent by a user terminal, and adjusting a vehicle-mounted function configuration option according to a statistical analysis result; adjusting the in-vehicle function configuration options includes one or more of raising or lowering a priority of the in-vehicle function, adding or deleting the in-vehicle function, and modifying a logic of the in-vehicle function.

Fig. 5 is a flowchart of a vehicle-mounted process management method according to an embodiment of the present invention, which is described from the perspective of a user terminal, and referring to fig. 5, the vehicle-mounted process management method disclosed in this embodiment includes the following steps:

s301: acquiring vehicle-mounted function configuration options; the vehicle-mounted function configuration options comprise a must-match function and an optional match function;

s302: selecting vehicle-mounted functions and sequencing priority based on the vehicle-mounted function configuration options, generating an individualized configuration scheme meeting the user requirements, and sending the individualized configuration scheme to a configuration management server;

s303: when receiving a software package downloading prompt message sent by a configuration management server, downloading a software package to update controller software of the vehicle;

s304: and when configuration risk prompt information and/or a function/process recommended configuration scheme sent by the configuration management server are received, the personalized configuration scheme is changed or the function/process recommended configuration scheme is selected according to the configuration risk prompt information.

Preferably, the vehicle-mounted process management method further includes the steps of: sending function/process request information and driving environment information to a configuration management server; the function/process request information and the driving environment information are stored in association with the function/process recommendation configuration scheme; detecting whether confirmation information which is input by a user and adopts a function/process recommendation configuration scheme is received; and if so, adjusting the vehicle-mounted function according to the function/process recommended configuration scheme. And when detecting the confirmation information which is input by the user and adopts the function/process recommendation configuration scheme, the user terminal adjusts the vehicle-mounted function according to the function/process recommendation configuration scheme. Meanwhile, the host factory configuration management server adds the function/process requested by the user as an optional function to the vehicle-mounted function configuration option to expand the vehicle-mounted function configuration option.

For example, when a user plays music in a vehicle, the user may desire the in-vehicle terminal to have a function of automatically lowering the volume of the music played in the vehicle in order to hear the sound outside the vehicle when the current driving environment is a downtown area. At this time, the user requests the host factory configuration management server through the user terminal for a function/process capable of automatically lowering the music playback volume in the vehicle. And after detecting the function/process request sent by the user terminal, the host factory configuration management server sends recommendation information of the function/process to the user terminal. And the user terminal detects whether confirmation information which is input by the user and adopts the function/process recommendation configuration scheme is received, and if so, the user terminal adjusts the vehicle-mounted function according to the function/process recommendation configuration scheme.

It should be noted that the recommendation information of the function/process sent by the host factory configuration management server to the user terminal may include one function/process or a plurality of functions/processes, when the recommendation information includes a plurality of functions/processes, the user may select one or more of the functions/processes, and at this time, the confirmation information input by the user further includes a result of selecting the function/process in the recommendation information by the user.

Optionally, the vehicle-mounted process management method further includes the following steps: sending function/process request information or driving environment information to a configuration management server; the function/process request information and the driving environment information are stored in association with the function/process recommendation configuration scheme; acquiring a related function/process recommendation configuration scheme according to the function/process request information or the driving environment information; detecting whether confirmation information which is input by a user and adopts a function/process recommendation configuration scheme is received; and if so, adjusting the vehicle-mounted function according to the function/process recommended configuration scheme.

Optionally, the vehicle-mounted process management method further includes the following steps: and an improvement suggestion is provided for the vehicle-mounted function configuration options, and the improvement suggestion is used for perfecting the vehicle-mounted function requirements in each subdivision field.

Fig. 6 is a block diagram of a vehicle-mounted process management device according to an embodiment of the present invention, which is described from the perspective of configuring a management server, and referring to fig. 6, the vehicle-mounted process management device disclosed in this embodiment includes the following modules:

the option generation module 401 is configured to subdivide and identify the vehicle-mounted functions in the function list to generate vehicle-mounted function configuration options; the vehicle-mounted function configuration options comprise a must-match function and an optional match function;

a scheme evaluation module 402, configured to evaluate whether the personalized configuration scheme sent by the user terminal is reasonable; the personalized configuration scheme comprises a vehicle-mounted function selection result and a priority ranking result which are obtained based on the vehicle-mounted function configuration options;

an updating module 403, configured to generate a software package capable of being flashed according to the personalized configuration scheme and send the software package to the user terminal when the personalized configuration scheme is reasonable;

and the prompt module 404 is configured to send the configuration risk prompt information and/or the recommended configuration scheme of the function/process to the user terminal without generating a rewritable software package when the personalized configuration scheme is unreasonable.

The vehicle-mounted process management device also comprises a detection module and a recommendation module, wherein the detection module is used for detecting the function/process request information and/or the driving environment information sent by the user terminal; the recommending module is used for sending a function/process recommending configuration scheme to the user terminal according to the detection result; and the function/process request information and the driving environment information are stored in association with the function/process recommendation configuration scheme.

The vehicle-mounted process management device also comprises an extension module, wherein the extension module is used for adding the function/process requested by the user into the vehicle-mounted function configuration option as an optional function.

The scheme evaluation module comprises a first evaluation module and/or a second evaluation module, and the first evaluation module is used for evaluating whether the process arrangement in the personalized configuration scheme is reasonable; the second evaluation module is used for evaluating whether the priority setting in the personalized configuration scheme is reasonable.

The vehicle-mounted process management device also comprises a feedback analysis module, wherein the feedback analysis module is used for receiving and statistically analyzing the improvement suggestions sent by the user terminal and adjusting the vehicle-mounted function configuration options according to the statistical analysis results. Adjusting the in-vehicle function configuration options includes one or more of raising or lowering a priority of the in-vehicle function, adding or deleting the in-vehicle function, and modifying a logic of the in-vehicle function.

The embodiment also discloses a configuration management server of the host factory, which comprises the vehicle-mounted process management device.

Fig. 7 is a block diagram of a vehicle-mounted process management device according to an embodiment of the present invention, which is described from the perspective of a user terminal, and referring to fig. 7, the vehicle-mounted process management device disclosed in this embodiment includes the following modules:

an option obtaining module 501, configured to obtain vehicle-mounted function configuration options; the vehicle-mounted function configuration options comprise a must-match function and an optional match function;

the personalized configuration module 502 is used for selecting vehicle-mounted functions and sorting priorities based on the vehicle-mounted function configuration options, generating a personalized configuration scheme meeting the requirements of a user and sending the personalized configuration scheme to the configuration management server; that is, the personalized configuration scheme includes a vehicle-mounted function selection result and a priority ranking result obtained based on the vehicle-mounted function configuration options;

the downloading module 503 is configured to, when receiving a software package downloading prompt message sent by the configuration management server, download a software package to update controller software of the vehicle;

the reconfiguration module 504 is configured to, when receiving configuration risk prompt information and/or a function/process recommended configuration scheme sent by the configuration management server, change a personalized configuration scheme or select the function/process recommended configuration scheme according to the configuration risk prompt information.

The vehicle-mounted process management device also comprises a request module, a confirmation module and an adjustment module, wherein the request module is used for sending function/process request information and/or driving environment information to the configuration management server; the confirmation module is used for detecting whether confirmation information which is input by a user and adopts a function/process recommendation configuration scheme is received; the adjusting module is used for adjusting the vehicle-mounted function according to the function/process recommended configuration scheme when necessary.

The vehicle-mounted process management device also comprises a user feedback module, wherein the user feedback module is used for providing improvement suggestions for vehicle-mounted function configuration options, and the improvement suggestions are used for perfecting vehicle-mounted function requirements in each subdivision field.

The embodiment also discloses a user terminal which comprises the vehicle-mounted process management device.

The embodiment has the following beneficial effects:

1. in the embodiment, under the condition of limited hardware resources, the host factory enables a user to customize partial functions in a functional configuration mode, and different priority requirements and other personalized requirements of different users on the functions of the vehicle-mounted controller can be met;

2. the embodiment can meet the requirements of different users on different priorities between the controllers;

3. the embodiment allows an Ethernet third-party platform to participate and assists the subdivision realization of the vehicle-mounted function, and the participation of the third party is controlled and butted by a host factory, so that different resource requirements of different users on the Ethernet can be met;

4. the user carries out self-information requirement definition through host computer factory guide information, and feeds back to the host computer factory, lets the host computer factory obtain the segmentation big data of each controller, forms a virtuous circle system to the feedback of on-vehicle process and functional requirement + optimization between host computer factory and the user finally, increases user's stickness.

Those of skill in the art will further appreciate that the various illustrative logical blocks, units, and steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both. To clearly illustrate the interchangeability of hardware and software, various illustrative components, elements, and steps have been described above generally in terms of their functionality. Whether such functionality is implemented as hardware or software depends upon the particular application and design requirements of the overall system. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present embodiments.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A vehicle-mounted process management method is characterized by comprising the following steps:

subdividing and identifying the vehicle-mounted functions in the function list to generate vehicle-mounted function configuration options; the vehicle-mounted function configuration options comprise a must-match function and an optional match function;

evaluating whether the personalized configuration scheme sent by the user terminal is reasonable; the personalized configuration scheme comprises a vehicle-mounted function selection result and a priority ranking result which are obtained based on the vehicle-mounted function configuration options;

when the personalized configuration scheme is reasonable, generating a software package which can be refreshed according to the personalized configuration scheme and sending the software package to the user terminal;

when the personalized configuration scheme is unreasonable, a software package which can be refreshed is not generated, and configuration risk prompt information and/or a recommended configuration scheme of functions/processes are sent to the user terminal;

detecting driving environment information sent by a user terminal; the driving environment information comprises driving environment information acquired by using the vehicle acquisition equipment and driving environment information acquired by a third-party service provider on the basis of the driving environment information acquired by the vehicle acquisition equipment; the driving environment information acquired by the self-vehicle acquisition equipment comprises self-vehicle position information, and the driving environment information acquired by the third-party service provider comprises current road information and traffic flow;

and acquiring the function/process recommendation configuration scheme stored in association with the driving environment information according to the driving environment information, and automatically sending the function/process recommendation configuration scheme stored in association with the driving environment information to a user terminal.

2. The method of claim 1, further comprising:

detecting function/process request information sent by a user terminal;

and acquiring the function/process recommendation configuration scheme stored in association with the function/process request information according to the detection result, and sending the function/process recommendation configuration scheme to the user terminal.

3. The method of claim 1, further comprising:

and adding the function/process requested by the user as an optional function into the vehicle-mounted function configuration option.

4. A vehicle-mounted process management method is characterized by comprising the following steps:

acquiring vehicle-mounted function configuration options; the vehicle-mounted function configuration options comprise a must-match function and an optional match function;

selecting vehicle-mounted functions and sequencing priorities based on the vehicle-mounted function configuration options, generating an individualized configuration scheme meeting the requirements of a user, and sending the individualized configuration scheme to a configuration management server;

when receiving a software package downloading prompt message sent by a configuration management server, downloading the software package to update controller software of the vehicle;

when configuration risk prompt information and/or a function/process recommended configuration scheme sent by a configuration management server are received, the personalized configuration scheme is changed or the function/process recommended configuration scheme is selected according to the configuration risk prompt information;

sending driving environment information to a configuration management server; the configuration management server can acquire the function/process recommendation configuration scheme stored in association with the driving environment information according to the driving environment information, and automatically send the function/process recommendation configuration scheme stored in association with the driving environment information to a user terminal; the driving environment information comprises driving environment information acquired by using the vehicle acquisition equipment and driving environment information acquired by a third-party service provider on the basis of the driving environment information acquired by the vehicle acquisition equipment; the driving environment information acquired by the self-vehicle acquisition equipment comprises self-vehicle position information, and the driving environment information acquired by the third-party service provider comprises current road information and traffic flow;

detecting whether confirmation information which is input by a user and adopts the function/process recommended configuration scheme is received within a preset time length of receiving the function/process recommended configuration scheme sent by the configuration management server;

and if so, adjusting the vehicle-mounted function according to the function/process recommended configuration scheme.

5. The method of claim 4, further comprising:

sending function/process request information to a configuration management server;

receiving the function/process recommended configuration scheme sent by the configuration server; the configuration management server is further configured to acquire the function/process recommended configuration scheme stored in association with the function/process request information according to the function/process request information;

detecting whether confirmation information which is input by a user and adopts the function/process recommended configuration scheme is received within a preset time length of receiving the function/process recommended configuration scheme sent by the configuration management server;

and if so, adjusting the vehicle-mounted function according to the function/process recommended configuration scheme.

6. An in-vehicle process management apparatus characterized by comprising:

the option generating module is used for subdividing and identifying the vehicle-mounted functions in the function list to generate vehicle-mounted function configuration options; the vehicle-mounted function configuration options comprise a must-match function and an optional match function;

the scheme evaluation module is used for evaluating whether the personalized configuration scheme sent by the user terminal is reasonable; the personalized configuration scheme comprises a vehicle-mounted function selection result and a priority ranking result which are obtained based on the vehicle-mounted function configuration options;

the updating module is used for generating a software package which can be refreshed according to the personalized configuration scheme and sending the software package to the user terminal when the personalized configuration scheme is reasonable;

the prompting module is used for not generating a software package which can be refreshed when the personalized configuration scheme is unreasonable and sending configuration risk prompting information and/or a recommended configuration scheme of functions/processes to the user terminal;

the detection module is used for detecting driving environment information sent by the user terminal; the driving environment information comprises driving environment information acquired by using the vehicle acquisition equipment and driving environment information acquired by a third-party service provider on the basis of the driving environment information acquired by the vehicle acquisition equipment; the driving environment information acquired by the self-vehicle acquisition equipment comprises self-vehicle position information, and the driving environment information acquired by the third-party service provider comprises current road information and traffic flow;

and the recommending module is used for acquiring the function/process recommending and configuring scheme stored in association with the driving environment information according to the driving environment information and automatically sending the function/process recommending and configuring scheme stored in association with the driving environment information to the user terminal.

7. The apparatus of claim 6,

the detection module is also used for detecting function/process request information sent by the user terminal;

and the recommending module is also used for acquiring the function/process recommending and configuring scheme stored in association with the function/process request information according to the detection result and sending the function/process recommending and configuring scheme to the user terminal.

8. The apparatus of claim 7, further comprising:

and the expansion module is used for adding the function/process requested by the user as an optional function into the vehicle-mounted function configuration option.

9. An in-vehicle process management apparatus characterized by comprising:

the option acquisition module is used for acquiring vehicle-mounted function configuration options; the vehicle-mounted function configuration options comprise a must-match function and an optional match function;

the personalized configuration module is used for selecting vehicle-mounted functions and sequencing priorities based on the vehicle-mounted function configuration options, generating a personalized configuration scheme meeting the requirements of a user and sending the personalized configuration scheme to the configuration management server;

the downloading module is used for downloading the software package to update the controller software of the vehicle when receiving the software package downloading prompt information sent by the configuration management server;

the reconfiguration module is used for changing the personalized configuration scheme or selecting the function/process recommended configuration scheme according to the configuration risk prompt information when receiving the configuration risk prompt information and/or the function/process recommended configuration scheme sent by the configuration management server;

the request module is used for sending driving environment information to the configuration management server; the configuration management server can acquire the function/process recommendation configuration scheme stored in association with the driving environment information according to the driving environment information, and automatically send the function/process recommendation configuration scheme stored in association with the driving environment information to a user terminal; the driving environment information comprises driving environment information acquired by using the vehicle acquisition equipment and driving environment information acquired by a third-party service provider on the basis of the driving environment information acquired by the vehicle acquisition equipment; the driving environment information acquired by the self-vehicle acquisition equipment comprises self-vehicle position information, and the driving environment information acquired by the third-party service provider comprises current road information and traffic flow;

the confirmation module is used for detecting whether confirmation information which is input by a user and adopts the function/process recommended configuration scheme is received or not when the function/process recommended configuration scheme sent by the configuration management server is received;

and the adjusting module is used for adjusting the vehicle-mounted function according to the function/process recommended configuration scheme when the confirmation information is received.

10. The apparatus of claim 9, further comprising:

the request module is also used for sending function/process request information to the configuration management server; wherein;

the confirmation module is further used for detecting whether confirmation information which is input by a user and adopts the function/process recommended configuration scheme is received within the preset time length of the function/process recommended configuration scheme sent by the configuration management server;

and the adjusting module is used for adjusting the vehicle-mounted function according to the function/process recommended configuration scheme when the confirmation information is received.

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