CN115857885B - Automobile theme UI full-flow development test deployment system based on SOC software - Google Patents

Abstract

The invention provides an automobile theme UI full-flow development test deployment system based on SOC software, which comprises: the UI overall architecture standard protocol module is used for setting an overall flow overall architecture of an automobile theme UI of the SOC software and constructing an overall flow standardized protocol of the automobile theme UI; the hierarchical separation multi-terminal synchronous development module performs hierarchical separation on the middle layer and the application layer and performs multi-terminal synchronous automobile theme UI software development; the intelligent evaluation logic feedback module is used for carrying out multi-terminal synchronous automobile theme UI software self-test and UI intelligent expert evaluation through an automobile theme UI simulation software testing tool; the UI acceptance change characteristic deployment module is used for carrying out automobile theme UI cloud acceptance and automobile theme UI cloud change and intelligently deploying automobile theme UI software according to the characteristic requirements of the user terminal products; and the intelligent deployment of the characteristics of the automobile theme UI full-flow development test terminal of the SOC software is realized.

Description

Automobile theme UI full-flow development test deployment system based on SOC software

Technical Field

The invention relates to the technical field of development and test of intelligent software of automobiles, in particular to an automobile theme UI full-flow development, test and deployment system based on SOC software.

Background

At present, the automobile central control multimedia and two-wheel vehicle instruments are basically developed based on SOC core software, but a vehicle factory generally needs a plurality of different automobile theme display styles, and the characteristics of increasing products are required to meet the personalized demands of users by adopting different automobile theme styles according to each user; the existing development software intermediate layer and application layer in the field are not completely separated, the stability of the theme style software developed by different systems is different, and each person needs to have a complete hardware development platform to develop, so that the working efficiency is low, and the problems such as great increase of development difficulty of multiple persons at the same time exist; therefore, there is a need for a system for full-flow development, test and deployment of a vehicle theme UI based on SOC software, which at least partially solves the problems in the prior art.

Disclosure of Invention

A series of concepts in simplified form are introduced in the summary section, which will be described in further detail in the detailed description section; the summary of the invention is not intended to define the key features and essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

In order to at least partially solve the above problems, the present invention provides an automobile theme UI full-flow development test deployment system based on SOC software, including:

the UI overall architecture standard protocol module is used for setting an overall flow overall architecture of an automobile theme UI of the SOC software and constructing an overall flow standardized protocol of the automobile theme UI;

the hierarchical separation multi-terminal synchronous development module performs hierarchical separation on the middle layer and the application layer according to the full-flow standardized protocol of the automobile theme UI, acquires an automobile theme UI terminal framework, outputs standard requirements of multi-development-terminal synchronous development of heterogeneous automobile theme, and performs multi-terminal synchronous automobile theme UI software development;

the intelligent evaluation logic feedback module is used for carrying out multi-terminal synchronous automobile theme UI software self-test and UI intelligent expert evaluation through an automobile theme UI simulation software testing tool to acquire UI intelligent evaluation logic feedback;

the UI acceptance change characteristic deployment module is used for carrying out UI cloud acceptance of the automobile theme and UI cloud change of the automobile theme according to feedback of the UI intelligent evaluation logic and intelligently deploying the UI software of the automobile theme according to the characteristic requirements of the user terminal products; and the intelligent deployment of the characteristics of the automobile theme UI full-flow development test terminal of the SOC software is realized.

Optionally, the UI overall architecture standard protocol module includes:

the system comprises an SOC software UI frame module, a System On Chip (SOC) software base frame module and a System On Chip (SOC) software framework module, wherein the SOC software base frame module is used for acquiring an automobile theme UI full-flow frame of the SOC software according to the SOC software base frame;

the theme UI overall framework sub-module acquires the automobile theme UI overall framework of the SOC software according to the automobile theme UI overall framework;

and the UI flow standard protocol sub-module constructs an automobile theme UI full flow standard protocol according to the overall architecture of the automobile theme UI full flow.

Optionally, the hierarchical separation multi-terminal synchronization development module includes:

the protocol analysis architecture intercommunication sub-module performs heterogeneous architecture intercommunication through multi-development-end protocol analysis according to the theme UI full-flow standardized protocol;

the hierarchical separation terminal architecture submodule performs hierarchical separation on the middle layer and the application layer according to heterogeneous architecture intercommunication to obtain an automobile theme UI terminal architecture;

and the theme requirement multi-terminal development sub-module outputs the standard requirement of the multi-development-terminal synchronous development of the heterogeneous automobile theme according to the architecture of the automobile theme UI terminal, carries out the multi-development-terminal synchronous design of the automobile theme UI design, and carries out multi-terminal synchronous automobile theme UI software development.

Optionally, the intelligent evaluation logic feedback module includes:

The UI simulation software testing tool submodule constructs an automobile theme UI simulation software testing tool framework, and analyzes multi-terminal synchronous automobile theme UI software data by utilizing a protocol layer through the automobile theme UI simulation software testing tool;

the multi-terminal synchronous software self-testing sub-module is used for carrying out multi-terminal synchronous automobile theme UI software self-testing according to the analyzed multi-terminal synchronous automobile theme UI software data to obtain a multi-terminal synchronous automobile theme UI software self-testing result;

and the UI intelligent expert evaluation sub-module is used for performing UI intelligent expert evaluation on the self-test result of the multi-terminal synchronous automobile theme UI software to acquire feedback of the UI intelligent evaluation logic.

Optionally, the UI acceptance replacement characteristic deployment module includes:

the OTA over-the-air communication sub-module is used for communicating the automobile theme UI terminal with the automobile theme cloud server through OTA over-the-air communication according to feedback of the UI intelligent evaluation logic;

the cloud server acceptance replacing sub-module is used for carrying out double-end OTA interaction of an automobile theme cloud OTA upgrading protocol and terminal product OTA upgrading software according to communication between the automobile theme UI terminal and the automobile theme cloud server, and carrying out automobile theme UI cloud acceptance and automobile theme UI cloud replacement;

the framework contrast characteristic deployment sub-module is used for carrying out overall framework contrast inspection according to the UI cloud acceptance of the automobile theme and the UI cloud replacement of the automobile theme, and intelligently deploying the UI software of the automobile theme according to the characteristic requirements of the user terminal product; and the intelligent deployment of the characteristics of the automobile theme UI full-flow development test terminal of the SOC software is realized.

Optionally, the SOC software UI framework submodule includes:

the SOC software foundation unit is used for obtaining an SOC software foundation frame according to the SOC software foundation and the full-flow splitting sub-flow of the automobile theme UI;

the UI full-flow framework unit acquires an automobile theme UI full-flow framework of the SOC software according to the SOC software basic framework; the automobile theme UI full-flow framework comprises: theme customization demand analysis, automobile theme UI summary design, theme UI detailed design, theme UI development test, theme UI cloud acceptance, automobile theme UI application evaluation and theme UI intelligent deployment.

Optionally, the hierarchical split terminal architecture submodule includes:

a separation application layer unit is used for setting a separation application layer according to the intercommunication of heterogeneous architectures and developing an application layer automobile theme UI; separating the application layer includes: a protocol de-coordination layer, a UE logic layer and a UI layer; the hierarchical balance setting of the separated application layers, interlayer safety protection and application development shunting are carried out, and the balance flexibility degree application layer development strategy adjustment is realized;

the middle layer capacity expansion separation unit is provided with a middle layer capacity expansion separation framework through interlayer separation; the intermediate layer capacity expansion separation architecture comprises: an SOC software OS bottom layer, a capacity expansion separation middle layer and a terminal protocol layer; and the capacity expansion balance is carried out through the hierarchical read-write separation of the capacity expansion separation middle layer, so that the high-efficiency switching of the connection protocol of the capacity expansion separation middle layer is realized.

Optionally, the UI simulation software testing tool submodule includes:

the test protocol layer address analysis unit is used for carrying out dynamic and static combined protocol analysis in a complex architecture environment to construct an automobile theme UI simulation software test tool architecture;

the UI software test interface simulation unit is used for performing self-test on the UI software of the automobile theme through a simulation software test tool interface;

and the test data logic feedback unit is used for carrying out test data logic feedback through the test tool of the automobile theme UI simulation software and analyzing the multi-terminal synchronous automobile theme UI software data by utilizing the protocol layer.

Optionally, the cloud server acceptance replacement submodule includes:

the OTA upgrading protocol unit is communicated with the automobile theme cloud server according to the automobile theme UI terminal, and double-end OTA interaction of an automobile theme cloud OTA upgrading protocol and terminal product OTA upgrading software is carried out through OTA interaction;

and the cloud theme UI unit performs double-end OTA interaction, and performs automobile theme UI cloud acceptance and automobile theme UI cloud replacement.

Optionally, the architecture contrast feature deployment submodule includes:

the terminal product middle layer software unit is used for carrying out overall architecture comparison and inspection according to the UI cloud acceptance of the automobile theme and the UI cloud replacement of the automobile theme, and creating a terminal product architecture analysis intelligent center;

The intelligent deployment unit of the theme UI carries out intelligent analysis on the product architecture of the cloud acceptance architecture of the automobile theme UI and the overall flow architecture of the automobile theme UI through the intelligent center of the terminal product architecture analysis, and intelligent deployment of the automobile theme UI software is carried out according to the characteristic requirements of the user terminal product; the user terminal product is used for intelligently searching the automobile theme UI software on line and automatically installing the automobile theme UI in a downloading way;

the OTA upgrading software unit is used for upgrading the UI firmware of the automobile theme and upgrading the UI software of the automobile theme according to OTA over-the-air downloading communication; and the intelligent deployment of the characteristics of the automobile theme UI full-flow development test terminal of the SOC software is realized.

The technical scheme of the invention has the beneficial effects that at least:

the invention provides an automobile theme UI full-flow development test deployment system based on SOC software, which comprises: the UI overall architecture standard protocol module is used for setting an overall flow overall architecture of an automobile theme UI of the SOC software and constructing an overall flow standardized protocol of the automobile theme UI; the hierarchical separation multi-terminal synchronous development module performs hierarchical separation on the middle layer and the application layer according to the full-flow standardized protocol of the automobile theme UI, acquires an automobile theme UI terminal framework, outputs standard requirements of multi-development-terminal synchronous development of heterogeneous automobile theme, and performs multi-terminal synchronous automobile theme UI software development; the intelligent evaluation logic feedback module is used for carrying out multi-terminal synchronous automobile theme UI software self-test and UI intelligent expert evaluation through an automobile theme UI simulation software testing tool to acquire UI intelligent evaluation logic feedback; the UI acceptance change characteristic deployment module is used for carrying out UI cloud acceptance of the automobile theme and UI cloud change of the automobile theme according to feedback of the UI intelligent evaluation logic and intelligently deploying the UI software of the automobile theme according to the characteristic requirements of the user terminal products; the intelligent deployment of the characteristics of the automobile theme UI full-flow development test terminal of the SOC software is realized; the standardized protocol is constructed, so that the efficiency of a software engineering development theme can be improved; a set of standard requirements are output, so that multiple persons are supported to develop different topics simultaneously, and development efficiency is greatly improved; the software self-test is realized through a simulation software testing tool interface, and expert evaluation is carried out after the self-test passes; the online theme replacement is realized through the cloud server; the user terminal can view different theme software of the server on line, and select favorite theme for downloading and installing; the intermediate layer and the application layer are thoroughly separated, so that the stability of software is greatly improved; the intelligent application, the intelligent review and the intelligent deployment of online theme development are carried out, and the real-time performance and the accuracy of the theme development are ensured.

Other advantages, objects and features of the invention will be in part apparent to those skilled in the art from consideration of the following description, and in part will be readily apparent to those who are skilled in the art from consideration of the specification and practice of the invention.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

fig. 1 is a diagram of a full-flow development test deployment system architecture of an automobile theme UI based on SOC software according to the present invention.

Fig. 2 is a block diagram of a full-flow development test deployment system of an automobile theme UI based on SOC software.

Fig. 3 is a diagram illustrating an embodiment of a full-flow development test deployment system for a car theme UI based on SOC software according to the present invention.

Detailed Description

The present invention is described in further detail below with reference to the drawings and examples to enable those skilled in the art to practice the same and to refer to the description; 1-3, the invention provides an automobile theme UI full-flow development test deployment system based on SOC software, which comprises:

The UI overall architecture standard protocol module is used for setting an overall flow overall architecture of an automobile theme UI of the SOC software and constructing an overall flow standardized protocol of the automobile theme UI;

the hierarchical separation multi-terminal synchronous development module performs hierarchical separation on the middle layer and the application layer according to the full-flow standardized protocol of the automobile theme UI, acquires an automobile theme UI terminal framework, outputs standard requirements of multi-development-terminal synchronous development of heterogeneous automobile theme, and performs multi-terminal synchronous automobile theme UI software development;

the intelligent evaluation logic feedback module is used for carrying out multi-terminal synchronous automobile theme UI software self-test and UI intelligent expert evaluation through an automobile theme UI simulation software testing tool to acquire UI intelligent evaluation logic feedback;

the UI acceptance change characteristic deployment module is used for carrying out UI cloud acceptance of the automobile theme and UI cloud change of the automobile theme according to feedback of the UI intelligent evaluation logic and intelligently deploying the UI software of the automobile theme according to the characteristic requirements of the user terminal products; and the intelligent deployment of the characteristics of the automobile theme UI full-flow development test terminal of the SOC software is realized.

The working principle of the technical scheme is as follows: the invention provides an automobile theme UI full-flow development test deployment system based on SOC software, which comprises: the UI overall architecture standard protocol module is used for setting an overall flow overall architecture of an automobile theme UI of the SOC software and constructing an overall flow standardized protocol of the automobile theme UI; the hierarchical separation multi-terminal synchronous development module performs hierarchical separation on the middle layer and the application layer according to the full-flow standardized protocol of the automobile theme UI, acquires an automobile theme UI terminal framework, outputs standard requirements of multi-development-terminal synchronous development of heterogeneous automobile theme, and performs multi-terminal synchronous automobile theme UI software development; the intelligent evaluation logic feedback module is used for carrying out multi-terminal synchronous automobile theme UI software self-test and UI intelligent expert evaluation through an automobile theme UI simulation software testing tool to acquire UI intelligent evaluation logic feedback; the UI acceptance change characteristic deployment module is used for carrying out UI cloud acceptance of the automobile theme and UI cloud change of the automobile theme according to feedback of the UI intelligent evaluation logic and intelligently deploying the UI software of the automobile theme according to the characteristic requirements of the user terminal products; the intelligent deployment of the characteristics of the automobile theme UI full-flow development test terminal of the SOC software is realized; based on SOC (system on chip) core software development; the automotive theme UI software includes: automobile theme interface design software, automobile peripheral theme interface design software and automobile related theme interface design software; a standardized protocol is constructed, so that the efficiency of a software engineering development theme is improved; outputting a set of standard requirements, and supporting multiple people to develop different topics simultaneously; the software self-test is realized through a simulation software testing tool interface, and expert evaluation is carried out after the self-test passes; the online theme replacement is realized through the cloud server; the user terminal can view different theme software of the server on line, and select favorite theme for downloading and installing; thoroughly separating by an intermediate layer and an application layer; developing intelligent application, intelligent review and intelligent deployment of online theme development.

The beneficial effects of the technical scheme are as follows: the invention provides an automobile theme UI full-flow development test deployment system based on SOC software, which comprises: the UI overall architecture standard protocol module is used for setting an overall flow overall architecture of an automobile theme UI of the SOC software and constructing an overall flow standardized protocol of the automobile theme UI; the hierarchical separation multi-terminal synchronous development module performs hierarchical separation on the middle layer and the application layer according to the full-flow standardized protocol of the automobile theme UI, acquires an automobile theme UI terminal framework, outputs standard requirements of multi-development-terminal synchronous development of heterogeneous automobile theme, and performs multi-terminal synchronous automobile theme UI software development; the intelligent evaluation logic feedback module is used for carrying out multi-terminal synchronous automobile theme UI software self-test and UI intelligent expert evaluation through an automobile theme UI simulation software testing tool to acquire UI intelligent evaluation logic feedback; the UI acceptance change characteristic deployment module is used for carrying out UI cloud acceptance of the automobile theme and UI cloud change of the automobile theme according to feedback of the UI intelligent evaluation logic and intelligently deploying the UI software of the automobile theme according to the characteristic requirements of the user terminal products; the intelligent deployment of the characteristics of the automobile theme UI full-flow development test terminal of the SOC software is realized; the standardized protocol is constructed, so that the efficiency of a software engineering development theme can be improved; a set of standard requirements are output, so that multiple persons are supported to develop different topics simultaneously, and development efficiency is greatly improved; the software self-test is realized through a simulation software testing tool interface, and expert evaluation is carried out after the self-test passes; the online theme replacement is realized through the cloud server; the user terminal can view different theme software of the server on line, and select favorite theme for downloading and installing; the intermediate layer and the application layer are thoroughly separated, so that the stability of software is greatly improved; the intelligent application, the intelligent review and the intelligent deployment of online theme development are carried out, and the real-time performance and the accuracy of the theme development are ensured.

In one embodiment, the UI overall architecture standard protocol module includes:

the system comprises an SOC software UI frame module, a System On Chip (SOC) software base frame module and a System On Chip (SOC) software framework module, wherein the SOC software base frame module is used for acquiring an automobile theme UI full-flow frame of the SOC software according to the SOC software base frame;

the theme UI overall framework sub-module acquires the automobile theme UI overall framework of the SOC software according to the automobile theme UI overall framework;

and the UI flow standard protocol sub-module constructs an automobile theme UI full flow standard protocol according to the overall architecture of the automobile theme UI full flow.

The working principle of the technical scheme is as follows: the system comprises an SOC software UI frame module, a System On Chip (SOC) software base frame module and a System On Chip (SOC) software framework module, wherein the SOC software base frame module is used for acquiring an automobile theme UI full-flow frame of the SOC software according to the SOC software base frame; the theme UI overall framework sub-module acquires the automobile theme UI overall framework of the SOC software according to the automobile theme UI overall framework; and the UI flow standard protocol sub-module constructs an automobile theme UI full flow standard protocol according to the overall architecture of the automobile theme UI full flow.

The beneficial effects of the technical scheme are as follows: acquiring an automobile theme UI full-flow frame of the SOC software according to the SOC software basic frame through an SOC software UI frame module; the theme UI overall framework sub-module acquires the automobile theme UI overall framework of the SOC software according to the automobile theme UI overall framework; the UI flow standard protocol sub-module constructs an automobile theme UI full flow standard protocol according to an automobile theme UI full flow overall architecture; can build a standardized framework and a standardized protocol with the foundation and establish a commonly developed foundation.

In one embodiment, the hierarchical split multi-terminal synchronization development module comprises:

the protocol analysis architecture intercommunication sub-module performs heterogeneous architecture intercommunication through multi-development-end protocol analysis according to the theme UI full-flow standardized protocol;

the hierarchical separation terminal architecture submodule performs hierarchical separation on the middle layer and the application layer according to heterogeneous architecture intercommunication to obtain an automobile theme UI terminal architecture;

and the theme requirement multi-terminal development sub-module outputs the standard requirement of the multi-development-terminal synchronous development of the heterogeneous automobile theme according to the architecture of the automobile theme UI terminal, carries out the multi-development-terminal synchronous design of the automobile theme UI design, and carries out multi-terminal synchronous automobile theme UI software development.

The working principle of the technical scheme is as follows: the hierarchical separation multi-terminal synchronization development module comprises: the protocol analysis architecture intercommunication sub-module performs heterogeneous architecture intercommunication through multi-development-end protocol analysis according to the theme UI full-flow standardized protocol; the hierarchical separation terminal architecture submodule performs hierarchical separation on the middle layer and the application layer according to heterogeneous architecture intercommunication to obtain an automobile theme UI terminal architecture; and the theme requirement multi-terminal development sub-module outputs the standard requirement of the multi-development-terminal synchronous development of the heterogeneous automobile theme according to the architecture of the automobile theme UI terminal, carries out the multi-development-terminal synchronous design of the automobile theme UI design, and carries out multi-terminal synchronous automobile theme UI software development.

The beneficial effects of the technical scheme are as follows: the protocol analysis architecture intercommunication sub-module performs heterogeneous architecture intercommunication through multi-development-end protocol analysis according to the theme UI full-flow standardized protocol; the hierarchical separation terminal architecture submodule performs hierarchical separation on the middle layer and the application layer according to heterogeneous architecture intercommunication to obtain an automobile theme UI terminal architecture; and the theme requirement multi-terminal development sub-module outputs the standard requirement of the multi-development-terminal synchronous development of the heterogeneous automobile theme according to the architecture of the automobile theme UI terminal, carries out the multi-development-terminal synchronous design of the automobile theme UI design, and carries out multi-terminal synchronous automobile theme UI software development.

In one embodiment, the intelligent assessment logic feedback module comprises:

the UI simulation software testing tool submodule constructs an automobile theme UI simulation software testing tool framework, and analyzes multi-terminal synchronous automobile theme UI software data by utilizing a protocol layer through the automobile theme UI simulation software testing tool;

the multi-terminal synchronous software self-testing sub-module is used for carrying out multi-terminal synchronous automobile theme UI software self-testing according to the analyzed multi-terminal synchronous automobile theme UI software data to obtain a multi-terminal synchronous automobile theme UI software self-testing result;

and the UI intelligent expert evaluation sub-module is used for performing UI intelligent expert evaluation on the self-test result of the multi-terminal synchronous automobile theme UI software to acquire feedback of the UI intelligent evaluation logic.

The working principle of the technical scheme is as follows: the intelligent evaluation logic feedback module comprises: the UI simulation software testing tool submodule constructs an automobile theme UI simulation software testing tool framework, and analyzes multi-terminal synchronous automobile theme UI software data by utilizing a protocol layer through the automobile theme UI simulation software testing tool; the multi-terminal synchronous software self-testing sub-module is used for carrying out multi-terminal synchronous automobile theme UI software self-testing according to the analyzed multi-terminal synchronous automobile theme UI software data to obtain a multi-terminal synchronous automobile theme UI software self-testing result; and the UI intelligent expert evaluation sub-module is used for performing UI intelligent expert evaluation on the self-test result of the multi-terminal synchronous automobile theme UI software to acquire feedback of the UI intelligent evaluation logic.

The beneficial effects of the technical scheme are as follows: the intelligent evaluation logic feedback module comprises: the UI simulation software testing tool submodule constructs an automobile theme UI simulation software testing tool framework, and analyzes multi-terminal synchronous automobile theme UI software data by utilizing a protocol layer through the automobile theme UI simulation software testing tool; the multi-terminal synchronous software self-testing sub-module is used for carrying out multi-terminal synchronous automobile theme UI software self-testing according to the analyzed multi-terminal synchronous automobile theme UI software data to obtain a multi-terminal synchronous automobile theme UI software self-testing result; the UI intelligent expert evaluation sub-module is used for performing UI intelligent expert evaluation on the self-test result of the multi-terminal synchronous automobile theme UI software to acquire feedback of a UI intelligent evaluation logic; the multi-terminal synchronous automobile theme UI software self-test and UI intelligent expert evaluation can be carried out, and the parallelism test capability and the evaluation professionals of the automobile theme UI simulation software are greatly improved.

In one embodiment, the UI acceptance replacement characteristic deployment module comprises:

the OTA over-the-air communication sub-module is used for communicating the automobile theme UI terminal with the automobile theme cloud server through OTA over-the-air communication according to feedback of the UI intelligent evaluation logic;

the cloud server acceptance replacing sub-module is used for carrying out double-end OTA interaction of an automobile theme cloud OTA upgrading protocol and terminal product OTA upgrading software according to communication between the automobile theme UI terminal and the automobile theme cloud server, and carrying out automobile theme UI cloud acceptance and automobile theme UI cloud replacement;

the framework contrast characteristic deployment sub-module is used for carrying out overall framework contrast inspection according to the UI cloud acceptance of the automobile theme and the UI cloud replacement of the automobile theme, and intelligently deploying the UI software of the automobile theme according to the characteristic requirements of the user terminal product; and the intelligent deployment of the characteristics of the automobile theme UI full-flow development test terminal of the SOC software is realized.

The working principle of the technical scheme is as follows: the UI acceptance replacement characteristic deployment module comprises: the OTA over-the-air communication sub-module is used for communicating the automobile theme UI terminal with the automobile theme cloud server through OTA over-the-air communication according to feedback of the UI intelligent evaluation logic; the cloud server acceptance replacing sub-module is used for carrying out double-end OTA interaction of an automobile theme cloud OTA upgrading protocol and terminal product OTA upgrading software according to communication between the automobile theme UI terminal and the automobile theme cloud server, and carrying out automobile theme UI cloud acceptance and automobile theme UI cloud replacement; the framework contrast characteristic deployment sub-module is used for carrying out overall framework contrast inspection according to the UI cloud acceptance of the automobile theme and the UI cloud replacement of the automobile theme, and intelligently deploying the UI software of the automobile theme according to the characteristic requirements of the user terminal product; and the intelligent deployment of the characteristics of the automobile theme UI full-flow development test terminal of the SOC software is realized.

The beneficial effects of the technical scheme are as follows: an OTA over-the-air communication sub-module is utilized to communicate the automobile theme UI terminal with the automobile theme cloud server through OTA over-the-air communication according to feedback of the UI intelligent evaluation logic; the cloud server acceptance replacing sub-module is used for carrying out double-end OTA interaction of an automobile theme cloud OTA upgrading protocol and terminal product OTA upgrading software according to communication between the automobile theme UI terminal and the automobile theme cloud server, and carrying out automobile theme UI cloud acceptance and automobile theme UI cloud replacement; the framework contrast characteristic deployment sub-module is used for carrying out overall framework contrast inspection according to the UI cloud acceptance of the automobile theme and the UI cloud replacement of the automobile theme, and intelligently deploying the UI software of the automobile theme according to the characteristic requirements of the user terminal product; the intelligent deployment of the characteristics of the automobile theme UI full-flow development test terminal of the SOC software is realized; the intelligent application, the intelligent review and the intelligent deployment of online theme development can be developed.

In one embodiment, the SOC software UI framework submodule includes:

the SOC software foundation unit is used for obtaining an SOC software foundation frame according to the SOC software foundation and the full-flow splitting sub-flow of the automobile theme UI;

the UI full-flow framework unit acquires an automobile theme UI full-flow framework of the SOC software according to the SOC software basic framework; the automobile theme UI full-flow framework comprises: theme customization demand analysis, automobile theme UI summary design, theme UI detailed design, theme UI development test, theme UI cloud acceptance, automobile theme UI application evaluation and theme UI intelligent deployment.

The working principle of the technical scheme is as follows: the SOC software UI framework submodule comprises: the SOC software foundation unit is used for obtaining an SOC software foundation frame according to the SOC software foundation and the full-flow splitting sub-flow of the automobile theme UI; the UI full-flow framework unit acquires an automobile theme UI full-flow framework of the SOC software according to the SOC software basic framework; the automobile theme UI full-flow framework comprises: theme customization demand analysis, automobile theme UI summary design, theme UI detailed design, theme UI development test, theme UI cloud acceptance, automobile theme UI application evaluation and theme UI intelligent deployment.

The beneficial effects of the technical scheme are as follows: the SOC software basic unit is used for obtaining an SOC software basic frame according to the SOC software basic and the full-flow splitting sub-flow of the automobile theme UI; the UI full-flow framework unit acquires an automobile theme UI full-flow framework of the SOC software according to the SOC software basic framework; the automobile theme UI full-flow framework comprises: theme customization demand analysis, automobile theme UI summary design, theme UI detailed design, theme UI development test, theme UI cloud acceptance, automobile theme UI application evaluation and theme UI intelligent deployment; the full-flow framework of the automobile theme UI can be built and adapted to various flow frameworks.

In one embodiment, the hierarchical split terminal architecture sub-module comprises:

a separation application layer unit is used for setting a separation application layer according to the intercommunication of heterogeneous architectures and developing an application layer automobile theme UI; separating the application layer includes: a protocol de-coordination layer, a UE logic layer and a UI layer; the hierarchical balance setting of the separated application layers, interlayer safety protection and application development shunting are carried out, and the balance flexibility degree application layer development strategy adjustment is realized;

the middle layer capacity expansion separation unit is provided with a middle layer capacity expansion separation framework through interlayer separation; the intermediate layer capacity expansion separation architecture comprises: an SOC software OS bottom layer, a capacity expansion separation middle layer and a terminal protocol layer; and the capacity expansion balance is carried out through the hierarchical read-write separation of the capacity expansion separation middle layer, so that the high-efficiency switching of the connection protocol of the capacity expansion separation middle layer is realized.

The working principle of the technical scheme is as follows: the hierarchical split terminal architecture sub-module comprises: a separation application layer unit is used for setting a separation application layer according to the intercommunication of heterogeneous architectures and developing an application layer automobile theme UI; separating the application layer includes: a protocol de-coordination layer, a UE logic layer and a UI layer; the hierarchical balance setting of the separated application layers, interlayer safety protection and application development shunting are carried out, and the balance flexibility degree application layer development strategy adjustment is realized; the middle layer capacity expansion separation unit is provided with a middle layer capacity expansion separation framework through interlayer separation; the intermediate layer capacity expansion separation architecture comprises: an SOC software OS bottom layer, a capacity expansion separation middle layer and a terminal protocol layer; performing capacity expansion balance through the hierarchical read-write separation of the capacity expansion separation middle layer, and realizing the efficient switching of the connection protocol of the capacity expansion separation middle layer;

Calculating a capacity expansion balance consumption value by hierarchical read-write separation:

wherein DGQh represents a capacity expansion balancing consumption value by hierarchical read-write separation, KRi represents a capacity expansion balancing time-consuming adjustment coefficient of an ith intermediate layer, stb represents time required for DNS polling capacity expansion of the ith intermediate layer, KVi represents a DNS polling operation rate of the ith intermediate layer, VOi represents a DNS polling average operation rate, and PTi represents a capacity expansion balancing consumption value not performed; and performing capacity expansion balance consumption value through calculation level read-write separation, and continuously reducing the capacity expansion balance consumption value.

The beneficial effects of the technical scheme are as follows: the hierarchical split terminal architecture sub-module comprises: a separation application layer unit is used for setting a separation application layer according to the intercommunication of heterogeneous architectures and developing an application layer automobile theme UI; separating the application layer includes: a protocol de-coordination layer, a UE logic layer and a UI layer; the hierarchical balance setting of the separated application layers, interlayer safety protection and application development shunting are carried out, and the balance flexibility degree application layer development strategy adjustment is realized; the middle layer capacity expansion separation unit is provided with a middle layer capacity expansion separation framework through interlayer separation; the intermediate layer capacity expansion separation architecture comprises: an SOC software OS bottom layer, a capacity expansion separation middle layer and a terminal protocol layer; performing capacity expansion balance through the hierarchical read-write separation of the capacity expansion separation middle layer, and realizing the efficient switching of the connection protocol of the capacity expansion separation middle layer;

Calculating a capacity expansion balance consumption value by hierarchical read-write separation: wherein DGQh represents a capacity expansion balancing consumption value by hierarchical read-write separation, KRi represents a capacity expansion balancing time-consuming adjustment coefficient of an ith intermediate layer, stb represents time required for DNS polling capacity expansion of the ith intermediate layer, KVi represents a DNS polling operation rate of the ith intermediate layer, VOi represents a DNS polling average operation rate, and PTi represents a capacity expansion balancing consumption value not performed; and performing capacity expansion balance consumption value through calculation level read-write separation, and continuously reducing the capacity expansion balance consumption value, so that the middle layer is greatly expanded to perform multi-protocol request synchronous processing.

In one embodiment, the UI simulation software test tool submodule includes:

the test protocol layer address analysis unit is used for carrying out dynamic and static combined protocol analysis in a complex architecture environment to construct an automobile theme UI simulation software test tool architecture;

the UI software test interface simulation unit is used for performing self-test on the UI software of the automobile theme through a simulation software test tool interface;

and the test data logic feedback unit is used for carrying out test data logic feedback through the test tool of the automobile theme UI simulation software and analyzing the multi-terminal synchronous automobile theme UI software data by utilizing the protocol layer.

The working principle of the technical scheme is as follows: the UI simulation software testing tool submodule comprises: the test protocol layer address analysis unit is used for carrying out dynamic and static combined protocol analysis in a complex architecture environment to construct an automobile theme UI simulation software test tool architecture; the dynamic-static combination protocol parsing includes: broadcasting a physical address resolution request message containing a test protocol address to all the automobile theme UI terminal architectures in the overall architecture; the physical address resolution request message includes: the method comprises the steps of a test end architecture access control address, a test end architecture protocol address and a first terminal architecture protocol address; the automobile theme UI terminal architecture compares and verifies the protocol address of the first terminal architecture in the physical address resolution request message; when the protocol address of the first terminal architecture is consistent with the protocol address of the second terminal architecture in the automobile theme UI terminal architecture, the automobile theme UI terminal architecture passes verification; the automobile theme UI terminal framework analyzes static response messages through logical feedback addresses, and the address analysis static response messages comprise: the second terminal architecture protocol and the physical address of the automobile theme UI terminal architecture perform logic feedback in a static independent mode, so that feedback speed efficiency is improved; the UI software test interface simulation unit is used for performing self-test on the UI software of the automobile theme through a simulation software test tool interface; and the test data logic feedback unit is used for carrying out test data logic feedback through the test tool of the automobile theme UI simulation software and analyzing the multi-terminal synchronous automobile theme UI software data by utilizing the protocol layer.

The beneficial effects of the technical scheme are as follows: dynamic and static combined protocol analysis is carried out in a complex architecture environment through a test protocol layer address analysis unit, and an automobile theme UI simulation software test tool architecture is constructed; the dynamic-static combination protocol parsing includes: broadcasting a physical address resolution request message containing a test protocol address to all the automobile theme UI terminal architectures in the overall architecture; the physical address resolution request message includes: the method comprises the steps of a test end architecture access control address, a test end architecture protocol address and a first terminal architecture protocol address; the automobile theme UI terminal architecture compares and verifies the protocol address of the first terminal architecture in the physical address resolution request message; when the protocol address of the first terminal architecture is consistent with the protocol address of the second terminal architecture in the automobile theme UI terminal architecture, the automobile theme UI terminal architecture passes verification; the automobile theme UI terminal framework analyzes static response messages through logical feedback addresses, and the address analysis static response messages comprise: the second terminal architecture protocol and the physical address of the automobile theme UI terminal architecture perform logic feedback in a static independent mode, so that feedback speed efficiency is improved; the UI software test interface simulation unit is used for performing self-test on the UI software of the automobile theme through a simulation software test tool interface; the test data logic feedback unit is used for carrying out test data logic feedback through an automobile theme UI simulation software test tool and analyzing multi-terminal synchronous automobile theme UI software data by utilizing a protocol layer; the dynamic and static state are combined with protocol analysis to increase the feedback speed efficiency, and the protocol layer analyzes multi-terminal synchronization.

In one embodiment, the cloud server acceptance replacement submodule includes:

the OTA upgrading protocol unit is communicated with the automobile theme cloud server according to the automobile theme UI terminal, and double-end OTA interaction of an automobile theme cloud OTA upgrading protocol and terminal product OTA upgrading software is carried out through OTA interaction;

and the cloud theme UI unit performs double-end OTA interaction, and performs automobile theme UI cloud acceptance and automobile theme UI cloud replacement.

The working principle of the technical scheme is as follows: the cloud server acceptance replacement submodule comprises: the OTA upgrading protocol unit is communicated with the automobile theme cloud server according to the automobile theme UI terminal, and double-end OTA interaction of an automobile theme cloud OTA upgrading protocol and terminal product OTA upgrading software is carried out through OTA interaction; and the cloud theme UI unit performs double-end OTA interaction, and performs automobile theme UI cloud acceptance and automobile theme UI cloud replacement.

The beneficial effects of the technical scheme are as follows: the cloud server acceptance replacement submodule comprises: the OTA upgrading protocol unit is communicated with the automobile theme cloud server according to the automobile theme UI terminal, and double-end OTA interaction of an automobile theme cloud OTA upgrading protocol and terminal product OTA upgrading software is carried out through OTA interaction; the cloud theme UI unit performs double-end OTA interaction, and performs automobile theme UI cloud acceptance and automobile theme UI cloud replacement; the data versatility and the data processing capability are greatly improved.

In one embodiment, the architecture contrast deployment submodule includes:

the terminal product middle layer software unit is used for carrying out overall architecture comparison and inspection according to the UI cloud acceptance of the automobile theme and the UI cloud replacement of the automobile theme, and creating a terminal product architecture analysis intelligent center;

the intelligent deployment unit of the theme UI carries out intelligent analysis on the product architecture of the cloud acceptance architecture of the automobile theme UI and the overall flow architecture of the automobile theme UI through the intelligent center of the terminal product architecture analysis, and intelligent deployment of the automobile theme UI software is carried out according to the characteristic requirements of the user terminal product; the user terminal product is used for intelligently searching the automobile theme UI software on line and automatically installing the automobile theme UI in a downloading way;

the OTA upgrading software unit is used for upgrading the UI firmware of the automobile theme and upgrading the UI software of the automobile theme according to OTA over-the-air downloading communication; and the intelligent deployment of the characteristics of the automobile theme UI full-flow development test terminal of the SOC software is realized.

The working principle of the technical scheme is as follows: the architecture contrast deployment submodule includes: the terminal product middle layer software unit is used for carrying out overall architecture comparison and inspection according to the UI cloud acceptance of the automobile theme and the UI cloud replacement of the automobile theme, and creating a terminal product architecture analysis intelligent center; the intelligent deployment unit of the theme UI carries out intelligent analysis on the product architecture of the cloud acceptance architecture of the automobile theme UI and the overall flow architecture of the automobile theme UI through the intelligent center of the terminal product architecture analysis, and intelligent deployment of the automobile theme UI software is carried out according to the characteristic requirements of the user terminal product; the user terminal product is used for intelligently searching the automobile theme UI software on line and automatically installing the automobile theme UI in a downloading way; the OTA upgrading software unit is used for upgrading the UI firmware of the automobile theme and upgrading the UI software of the automobile theme according to OTA over-the-air downloading communication; and the intelligent deployment of the characteristics of the automobile theme UI full-flow development test terminal of the SOC software is realized.

The beneficial effects of the technical scheme are as follows: through a terminal product middle layer software unit, carrying out overall architecture comparison inspection according to the UI cloud acceptance of the automobile theme and the UI cloud replacement of the automobile theme, and creating a terminal product architecture analysis intelligent center; the intelligent deployment unit of the theme UI carries out intelligent analysis on the product architecture of the cloud acceptance architecture of the automobile theme UI and the overall flow architecture of the automobile theme UI through the intelligent center of the terminal product architecture analysis, and intelligent deployment of the automobile theme UI software is carried out according to the characteristic requirements of the user terminal product; the user terminal product is used for intelligently searching the automobile theme UI software on line and automatically installing the automobile theme UI in a downloading way; the OTA upgrading software unit is used for upgrading the UI firmware of the automobile theme and upgrading the UI software of the automobile theme according to OTA over-the-air downloading communication; the intelligent deployment of the characteristics of the automobile theme UI full-flow development test terminal of the SOC software is realized; the intelligent application, the intelligent review and the intelligent deployment of online theme development are carried out, and the real-time performance and the accuracy of the theme development are ensured.

Although embodiments of the present invention have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the invention would be readily apparent to those skilled in the art, and accordingly, the invention is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims (8)

1. The system for fully developing, testing and deploying the automobile theme UI based on the SOC software is characterized by comprising the following components:

the UI overall architecture standard protocol module is used for setting an overall flow overall architecture of an automobile theme UI of the SOC software and constructing an overall flow standardized protocol of the automobile theme UI;

the hierarchical separation multi-terminal synchronous development module performs hierarchical separation on the middle layer and the application layer according to the full-flow standardized protocol of the automobile theme UI, acquires an automobile theme UI terminal framework, outputs standard requirements of multi-development-terminal synchronous development of heterogeneous automobile theme, and performs multi-terminal synchronous automobile theme UI software development;

the intelligent evaluation logic feedback module is used for carrying out multi-terminal synchronous automobile theme UI software self-test and UI intelligent expert evaluation through an automobile theme UI simulation software testing tool to acquire UI intelligent evaluation logic feedback;

the UI acceptance change characteristic deployment module is used for carrying out UI cloud acceptance of the automobile theme and UI cloud change of the automobile theme according to feedback of the UI intelligent evaluation logic and intelligently deploying the UI software of the automobile theme according to the characteristic requirements of the user terminal products; the intelligent deployment of the characteristics of the automobile theme UI full-flow development test terminal of the SOC software is realized;

the hierarchical separation multi-terminal synchronization development module comprises:

The protocol analysis architecture intercommunication sub-module performs heterogeneous architecture intercommunication through multi-development-end protocol analysis according to the theme UI full-flow standardized protocol;

the hierarchical separation terminal architecture submodule performs hierarchical separation on the middle layer and the application layer according to heterogeneous architecture intercommunication to obtain an automobile theme UI terminal architecture;

the theme requirement multi-terminal development sub-module outputs multi-development-terminal synchronous development heterogeneous automobile theme standard requirements according to an automobile theme UI terminal framework, carries out automobile theme UI design multi-development-terminal synchronous design, and carries out multi-terminal synchronous automobile theme UI software development;

the hierarchical split terminal architecture sub-module comprises:

a separation application layer unit is used for setting a separation application layer according to the intercommunication of heterogeneous architectures and developing an application layer automobile theme UI; separating the application layer includes: a protocol de-coordination layer, a UE logic layer and a UI layer; the hierarchical balance setting of the separated application layers, interlayer safety protection and application development shunting are carried out, and the balance flexibility degree application layer development strategy adjustment is realized;

the middle layer capacity expansion separation unit is provided with a middle layer capacity expansion separation framework through interlayer separation; the intermediate layer capacity expansion separation architecture comprises: an SOC software OS bottom layer, a capacity expansion separation middle layer and a terminal protocol layer; and the capacity expansion balance is carried out through the hierarchical read-write separation of the capacity expansion separation middle layer, so that the high-efficiency switching of the connection protocol of the capacity expansion separation middle layer is realized.

2. The SOC software-based full flow development test deployment system of the automotive theme UI of claim 1, wherein the UI overall architecture standard protocol module comprises:

the system comprises an SOC software UI frame module, a System On Chip (SOC) software base frame module and a System On Chip (SOC) software framework module, wherein the SOC software base frame module is used for acquiring an automobile theme UI full-flow frame of the SOC software according to the SOC software base frame;

the theme UI overall framework sub-module acquires the automobile theme UI overall framework of the SOC software according to the automobile theme UI overall framework;

and the UI flow standard protocol sub-module constructs an automobile theme UI full flow standard protocol according to the overall architecture of the automobile theme UI full flow.

3. The SOC software-based full flow development test deployment system of the automotive theme UI of claim 1, wherein the intelligent evaluation logic feedback module comprises:

the UI simulation software testing tool submodule constructs an automobile theme UI simulation software testing tool framework, and analyzes multi-terminal synchronous automobile theme UI software data by utilizing a protocol layer through the automobile theme UI simulation software testing tool;

the multi-terminal synchronous software self-testing sub-module is used for carrying out multi-terminal synchronous automobile theme UI software self-testing according to the analyzed multi-terminal synchronous automobile theme UI software data to obtain a multi-terminal synchronous automobile theme UI software self-testing result;

And the UI intelligent expert evaluation sub-module is used for performing UI intelligent expert evaluation on the self-test result of the multi-terminal synchronous automobile theme UI software to acquire feedback of the UI intelligent evaluation logic.

4. The SOC software-based full-flow development test deployment system of the automotive theme UI of claim 1, wherein the UI acceptance replacement feature deployment module comprises:

the OTA over-the-air communication sub-module is used for communicating the automobile theme UI terminal with the automobile theme cloud server through OTA over-the-air communication according to feedback of the UI intelligent evaluation logic;

the cloud server acceptance replacing sub-module is used for carrying out double-end OTA interaction of an automobile theme cloud OTA upgrading protocol and terminal product OTA upgrading software according to communication between the automobile theme UI terminal and the automobile theme cloud server, and carrying out automobile theme UI cloud acceptance and automobile theme UI cloud replacement;

the framework contrast characteristic deployment sub-module is used for carrying out overall framework contrast inspection according to the UI cloud acceptance of the automobile theme and the UI cloud replacement of the automobile theme, and intelligently deploying the UI software of the automobile theme according to the characteristic requirements of the user terminal product; and the intelligent deployment of the characteristics of the automobile theme UI full-flow development test terminal of the SOC software is realized.

5. The SOC software-based full flow development test deployment system of the automotive theme UI of claim 2, wherein the SOC software UI framework submodule comprises:

The SOC software foundation unit is used for obtaining an SOC software foundation frame according to the SOC software foundation and the full-flow splitting sub-flow of the automobile theme UI;

the UI full-flow framework unit acquires an automobile theme UI full-flow framework of the SOC software according to the SOC software basic framework; the automobile theme UI full-flow framework comprises: theme customization demand analysis, automobile theme UI summary design, theme UI detailed design, theme UI development test, theme UI cloud acceptance, automobile theme UI application evaluation and theme UI intelligent deployment.

6. The SOC software-based full flow development test deployment system of the automotive theme UI of claim 3, wherein the UI simulation software test tool submodule comprises:

the test protocol layer address analysis unit is used for carrying out dynamic and static combined protocol analysis in a complex architecture environment to construct an automobile theme UI simulation software test tool architecture;

the UI software test interface simulation unit is used for performing self-test on the UI software of the automobile theme through a simulation software test tool interface;

and the test data logic feedback unit is used for carrying out test data logic feedback through the test tool of the automobile theme UI simulation software and analyzing the multi-terminal synchronous automobile theme UI software data by utilizing the protocol layer.

7. The SOC software-based full flow development test deployment system of the automotive theme UI of claim 4, wherein the cloud server acceptance replacement submodule comprises:

the OTA upgrading protocol unit is communicated with the automobile theme cloud server according to the automobile theme UI terminal, and double-end OTA interaction of an automobile theme cloud OTA upgrading protocol and terminal product OTA upgrading software is carried out through OTA interaction;

and the cloud theme UI unit performs double-end OTA interaction, and performs automobile theme UI cloud acceptance and automobile theme UI cloud replacement.

8. The SOC software-based full flow development test deployment system of the automotive theme UI of claim 4, wherein the architecture contrast feature deployment submodule comprises:

the terminal product middle layer software unit is used for carrying out overall architecture comparison and inspection according to the UI cloud acceptance of the automobile theme and the UI cloud replacement of the automobile theme, and creating a terminal product architecture analysis intelligent center;

the intelligent deployment unit of the theme UI carries out intelligent analysis on the product architecture of the cloud acceptance architecture of the automobile theme UI and the overall flow architecture of the automobile theme UI through the intelligent center of the terminal product architecture analysis, and intelligent deployment of the automobile theme UI software is carried out according to the characteristic requirements of the user terminal product; the user terminal product is used for intelligently searching the automobile theme UI software on line and automatically installing the automobile theme UI in a downloading way;

The OTA upgrading software unit is used for upgrading the UI firmware of the automobile theme and upgrading the UI software of the automobile theme according to OTA over-the-air downloading communication; and the intelligent deployment of the characteristics of the automobile theme UI full-flow development test terminal of the SOC software is realized.