CN105025320B

CN105025320B - Operable desktop system with hybrid architecture and implementation method thereof

Info

Publication number: CN105025320B
Application number: CN201510389710.2A
Authority: CN
Inventors: 曹源; 徐斐
Original assignee: TCL Research America Inc
Current assignee: TCL Research America Inc
Priority date: 2015-07-06
Filing date: 2015-07-06
Publication date: 2020-03-31
Anticipated expiration: 2035-07-06
Also published as: CN105025320A

Abstract

The invention provides an operable desktop system with a hybrid framework and an implementation method thereof, wherein a client desktop is divided into an operating display area and a non-operating display area in advance, an operator cloud transmits information to be pushed to a cloud server, the cloud server receives the pushed information transmitted by the operator cloud, deploying the push information in a web page mode, acquiring the push information and the deployment information of the push information by a client, the push information is displayed in an operation display area, so that the requirement of the development of the Internet can be met more quickly, and can operate the service interface and be deployed at the cloud service end to realize, so that the development period is short, the version updating frequency and quality can be improved more quickly, meanwhile, services which are frequently changed can be deployed to the cloud server, and the problem of version differentiation can be solved well.

Description

Operable desktop system with hybrid architecture and implementation method thereof

Technical Field

The invention relates to the field of intelligent terminals, in particular to an operable desktop system with a hybrid framework and an implementation method thereof.

Background

With the development of smart televisions, the user activation rate is continuously improved, the view of people to televisions is gradually changed, the televisions are no longer traditional display terminals only used for watching programs, and the smart televisions become an entrance and a platform of the living room internet. People using the smart television also gradually accept playing applications, games and videos on the television, and the use experience of the smart television is closer to that of the mobile terminal.

Along with the trend of the living room internet, terminal manufacturers are developing from selling products to gathering fans, and value-added services such as advertisement recommendation, video recommendation and application recommendation are operated on television terminals, so that users gradually accept the mode. Therefore, product operation around the user becomes an important source of future profit for the terminal manufacturer.

The smart television user has gradually accepted the mode that the user enters the Launcher main interface when the user starts the television, and the Launcher becomes a key entrance for smart television operation, so that the Launcher is easier to operate and can better obtain the product profit brought by the value added service.

Currently, Android smart television Launcher desktop systems providing operable functions exist in the market, the launchers are all implemented by adopting a C/S (client/server) architecture, core service functions are implemented at clients, when service logic changes, the clients are inevitably required to be upgraded, the upgrading rate of the clients is usually lower than 100%, and inconvenience is caused to users.

Moreover, the current intelligent television terminals have multiple models and multiple chips, and a television of the same model may correspond to multiple chip platforms (for example, a television mainboard of the E5600 model has an MStar core and an MTK core). Different interfaces of different machine core platforms are different, and the interface difference of a system needs to be hidden by a terminal development adaptation layer. In addition, the butted content photographing parties are different in different operation periods of the same model, so that the versions of the terminals are difficult to achieve unification. If the change and modification of the service logic of the terminal are involved, the terminal needs to release the version again, and after a period of operation, fragmentation of the version appears, so that the service logic change period is long, and the operation of products is not facilitated.

Therefore, the prior art is subject to further improvement.

Disclosure of Invention

In view of the above disadvantages in the prior art, the present invention aims to provide an operable desktop system with a hybrid architecture for a user and an implementation method thereof, and overcome the defects in the prior art that a core service function is implemented by a client, and when a service logic changes, the client is inevitably required to be updated, so that a service logic change period is long, and the use of the user is inconvenient.

The technical scheme adopted by the invention for solving the technical problem is as follows:

an operable desktop system of a hybrid architecture, comprising: the system comprises an operator cloud, a cloud server and a client; the cloud server side is in communication connection with the cloud side of an operator and the client side respectively;

the operator cloud comprises:

the operation content pushing module is used for transmitting the information to be pushed to the cloud server;

the cloud server includes:

the operation area construction module is used for receiving the push information transmitted by the cloud end of the operator, deploying the push information in a web page mode and storing the deployment information;

the non-operation area building module is used for receiving the configuration operation of a user on a desktop plate of the client and storing the generated configuration file;

the client comprises:

the operation display area module is used for acquiring the push information and the deployment information of the push information from the operation area construction module and displaying the push information according to the deployment information;

a non-operational display area module; the configuration file display module is used for acquiring the configuration file from the non-operation area construction module, analyzing the configuration file and displaying the desktop plate in the non-operation area according to the analyzed configuration information.

The operable desktop system of the hybrid architecture, wherein the operation display area module further comprises:

and the information acquisition unit is used for acquiring the deployment information by accessing the storage website of the deployment information in the operation area construction module.

and the page rendering unit is used for rendering the page displayed in the operation display area module through the content API interface.

The operable desktop system of the hybrid architecture, wherein the non-operable display area module comprises: the display device comprises one or more of a television plate display unit, a setting plate display unit, a state plate display unit and a background area display unit.

The operable desktop system of the hybrid architecture, wherein the client further comprises:

and the control switching module is used for correspondingly switching the operation display area module into a display content displayed by the television plate display unit or a display content displayed in the setting plate display unit when the focus is detected to be positioned on any one area of the television plate display unit or the setting plate display unit.

A method for realizing an operable desktop system of a hybrid architecture comprises the following steps:

A. dividing a client desktop into an operation display area and a non-operation display area in advance;

B. the operator cloud transmits information to be pushed to a cloud server;

C. the cloud service end receives the push information transmitted by the cloud end of the operator and the configuration operation of the user on the non-operation display area of the client end, deploys the push information in a web page mode and stores a configuration file generated by the configuration operation;

D. the client acquires the push information, the deployment information of the push information and the configuration file, displays the push information in an operation display area, and displays the desktop plate in a non-operation display area according to the configuration information analyzed from the configuration file.

The implementation method of the operable desktop system of the hybrid architecture, wherein the step D further includes:

and D1, the client side acquires the deployment information by accessing the storage website of the deployment information.

d2, the client renders the page displayed in the operation display area through the content API interface.

The implementation method of the operable desktop system of the hybrid architecture comprises the following steps: the display device comprises one or more of a television plate display unit, a setting plate display unit, a state plate display unit and a background area display unit.

d3, when detecting that the focus is located on any one of the television panel display unit or the setting panel display unit, correspondingly switching the operation display area module to display the content displayed by the television panel display unit or the content displayed by the setting panel display unit.

Has the advantages that: the invention provides an operable desktop system with a hybrid framework and an implementation method thereof, by dividing the client desktop into an operation display area and a non-operation display area in advance, the operator cloud transmits information to be pushed to the cloud server, the cloud server receives the pushed information transmitted by the operator cloud, deploying the push information in a web page mode, acquiring the push information and the deployment information of the push information by a client, the push information is displayed in an operation display area, so that the requirement of the development of the Internet can be met more quickly, and can operate the service interface and be deployed at the cloud service end to realize, so that the development period is short, the version updating frequency and quality can be improved more quickly, meanwhile, services which are frequently changed can be deployed to the cloud server, and the problem of version differentiation can be solved well.

Drawings

Fig. 1 is a schematic structural diagram of an operable desktop system with a hybrid architecture according to the present invention.

Fig. 2 is a schematic structural diagram of an operational desktop system with a hybrid architecture according to the present invention.

Fig. 3 is a schematic diagram of a software architecture of a cloud server in the present invention.

FIG. 4 is a flowchart illustrating interaction between the launcher and the TV application and the settings program settings app on the desktop according to the present invention.

FIG. 5 is a flow chart of the interaction between a desktop launcher and an application store program in the system of the present invention.

FIG. 6 is a flowchart of the steps of a method for implementing a hybrid-architecture operable desktop system according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the prior art, the core service functions on the desktop of the android system are all realized at the client, and when the service logic changes, the client is inevitably required to be upgraded, so the method of the invention has the core that: the method migrates the service with high change frequency from the client to the server, avoids the dependence of interface and service logic change on terminal version upgrading as much as possible, achieves the aims of quick response to operable service requirements, quick version iteration, continuous function delivery and unified data management and realizes product operation by taking a user as a center.

Specifically, under a C/S and B/S mixed architecture, relatively stable and unchangeable services are realized in a local application mode, the operation efficiency is high, and good user experience can be guaranteed. Services with high change frequency (such as video recommendation, switching from GITV to CNTV half a year later) are realized by adopting a Web technology, and an interface and logic are deployed at a server. The service with high change frequency of the television terminal is not directly interacted with a content provider any more, the television terminal is isolated from the content provider through a service cloud (the service cloud can be expanded by different operation requirements), and the service cloud is responsible for interacting with the content provider and processing the changed part. Meanwhile, the interface provided by the service cloud to the television terminal is relatively long-term unchanged, and unnecessary version upgrading of the client is reduced.

The present invention is based on the above method, and as shown in fig. 1, provides an operable desktop system with a hybrid architecture, the system comprising: the system comprises an operator cloud 3, a cloud server 1 and a client 2; the cloud server 1 is respectively in communication connection with an operator cloud 3 and a client 2;

the operator cloud 3 includes:

and the operation content pushing module 31 is configured to transmit information to be pushed to the cloud server.

The cloud server 1 includes:

the operation area building module 11 is configured to receive the push information transmitted by the cloud of the operator, deploy the push information in a web page form, and store the deployment information;

and the non-operation area building module 12 is configured to receive a configuration operation of a user on a desktop board of the client, and store a generated configuration file.

The client 2 includes:

an operation display area module 21, configured to obtain the push information and deployment information of the push information from an operation area construction module, and display the push information according to the deployment information;

a non-operational display area module 22; the configuration file display module is used for acquiring the configuration file from the non-operation area construction module, analyzing the configuration file and displaying the desktop plate in the non-operation area according to the analyzed configuration information.

Specifically, in the invention, the client and the operator cloud interact through the cloud server, and the operator pushes information to the client through the cloud server. The push information includes: advertisement information, video recommendation information, application recommendation information, and the like, so that the information to be pushed to the client is transmitted to the cloud server by the operating content pushing module.

Because the frequency of information change pushed by the cloud end of an operator is high and can change at any time, the cloud server provides operation efficiency for faster response to the information updating speed, and therefore the method specifically adopts a web page mode to layout the content and the interface of the pushed information, specifically adopts HTML and CSS to realize corresponding content and interface layout, adopts JavaScript to realize logic, and stores all the deployments to the cloud server.

The client can acquire the push information from the cloud server and display the push information from the operator according to the deployment of the cloud server.

Specifically, the desktop of the client may be divided into an operation display area and a non-operation display area, and the non-operation display area may be divided into three areas, preferably, as shown in fig. 2, the desktop is divided into 4 areas:

1) region 1: area of the panel

It can be divided into different blocks such as homepage, movie and television, special area, education, game and application. According to the operation requirement, the area is designed to be dynamically configurable, the configuration file is stored in the cloud, and the terminal analyzes the configuration file to add, delete and change the blocks.

The relative change frequency of the area 1 is not high, and the area is realized by adopting Java local technology.

2) Region 2: status area

Such as network status, time, weather, etc.

The state of the region 2 changes in real time, but the coupling degree with the Launcher itself is not high, and the uniform implementation is recommended in the System UI.

3) Region 3: mainly the operational area (when area 1 panels are located in "tv" and "settings", the content of area 3 is not an operational element).

The operable content comprises advertisement recommendation, video recommendation, application recommendation and the like, the elements are usually obtained from content providers, the element updating period is relatively short, the updating speed is high, the service promotion requirement is met, and the change can be required at any time.

4) Region 4: is a background area

The implementation of this area employs Java technology, allowing for theme style replacement and user experience.

The non-operation display area module may specifically include: one or more of a television panel display unit, a setup panel display unit, a status panel display unit, and a background area display unit, that is, except for displaying push information from an operator in an operable display area, other desktop information is displayed in a non-operable display area, but when detecting that a focus is located on the television panel display unit or on the setup panel display unit, then the push information is not displayed in the operable display area, but television program information or client terminal setup information is displayed, that is, the client further includes: and the control switching module is used for correspondingly switching the operation display area module into displaying the content displayed by the television plate display unit or setting the content displayed in the plate display unit when detecting that the focus is positioned on any one area of the television plate display unit or the setting plate display unit. The setting is convenient for the user to carry out various operations on the client.

And the cloud server is used for constructing a service cloud platform, establishing communication connection with the client, and dynamically updating information displayed on a plate of an operation display area on a desktop of the client and information displayed on a plate of a non-operation display area.

Taking a launcher desktop in an android system as an example, the launcher desktop does not directly interact with an operator cloud through an interface, but performs information transfer through a cloud server. Namely, the information acquisition unit included in the operation display area module acquires the deployment information by accessing the storage website of the deployment information in the operation area construction module.

The operation display area module further comprises:

In specific implementation, the View with the page rendering capability can be embedded into a Launcher App based on a page rendering container Content API realized by a Content API interface, and is used for operating a display area to be realized at a client.

The client is an intelligent television, an intelligent tablet computer or other terminals capable of intelligently displaying information.

In order to explain the present invention in more detail, the following description will discuss an embodiment of the present invention with reference to fig. 2 to 5.

Fig. 2 is a schematic structural diagram of a specific embodiment of the system according to the present invention, a desktop of the client may be divided into four areas, which are respectively used for information display of different contents, interaction between the client and an operator is implemented by a cloud server, the cloud server has deployment modules corresponding to different areas of the client, which are respectively used for deploying the different areas, a push information application program at a cloud of the operator sends information to be pushed to the cloud server, which forwards the information to the client by the cloud server, and the cloud server deploys an area 3 of the client, that is, an operable module, through an area 3 deployment module, thereby implementing display of push information on the desktop.

In addition, the cloud server is further configured to receive modules for area 1 deployment, area 2 deployment, and area 4 deployment, where a user performs configuration operation on a non-operation display area, receive a configuration file generated by the configuration operation, or store data generated by the configuration operation, so that the areas of the client are updated as needed.

Fig. 3 is a schematic diagram of a cloud server software architecture according to the present invention. The cloud server is provided with a website server which is deployed in an operable area corresponding to the area 3, a database which stores deployment information and data of configuration operation of a user on a non-operable area, a page application program and a linux operating system file.

As shown in fig. 4, which is an interaction flowchart between the launcher and the TV application and the settings app on the desktop in the present invention, as can be seen from the figure, the launcher first starts the kernel, then starts the system service program and the launcher, the launcher and the TV application settings program perform information interaction through intent, and when the focus of the desktop is in the "settings" panel, the settings program is invoked through intent.

FIG. 5 is a flowchart illustrating the interaction between the Launcher and the app store appstore. As shown in the figure, the application plate and the video plate are realized by a Web technology and are deployed at a cloud server, and the client embeds Content API View in the Launcher to render a page. The focus event in the Content API View is processed by JavaScript, and when the user focus moves to the focus of the ApStore and clicks, the Content API View can call the pre-installed ApStore APK in the system through the intent. JavaScript needs to transmit a click event to an Android system, the Android system triggers the intent event, and a target Apk is called. Invoking the Android player App from Launcher embedded Content API View is similar in principle to the above.

On the premise of the above system, the present invention further provides an implementation method of the operable desktop system with the hybrid architecture, as shown in fig. 6, the implementation method includes the following steps:

and S1, dividing the client desktop into an operation display area and a non-operation display area in advance.

And S2, the operator cloud transmits the information to be pushed to the cloud server.

S3, the cloud service end receives the push information transmitted by the cloud end of the operator and the configuration operation of the user to the non-operation display area of the client end, deploys the push information in a web page mode and stores the configuration file generated by the configuration operation.

S4, the client acquires the push information, the deployment information of the push information and the configuration file, displays the push information in an operation display area, and displays the desktop plate in a non-operation display area according to the configuration information analyzed from the configuration file.

The step S4 further includes:

and S41, the client acquires the deployment information by accessing the storage website of the deployment information.

And S42, rendering the page displayed in the operation display area through the client API.

The non-operational display area includes: the display device comprises one or more of a television plate display unit, a setting plate display unit, a state plate display unit and a background area display unit.

The step S4 further includes:

and S43, when the focus is detected to be positioned on any one area of the television plate display unit or the setting plate display unit, correspondingly switching the operation display area module to display the content displayed by the television plate display unit or the content displayed in the setting plate display unit.

It should be understood that equivalents and modifications of the technical solution and inventive concept thereof may occur to those skilled in the art, and all such modifications and alterations should fall within the scope of the appended claims.

Claims

1. An operable desktop system of a hybrid architecture, comprising: the system comprises an operator cloud, a cloud server and a client; the cloud server side is in communication connection with the cloud side of an operator and the client side respectively; the desktop of the client is divided into an operation display area and a non-operation display area; the client is an intelligent television;

the operator cloud comprises:

the cloud server includes:

the client comprises:

a non-operational display area module; the system comprises a configuration file acquisition module, a configuration file display module, a configuration information analysis module and a display module, wherein the configuration file acquisition module is used for acquiring a configuration file from a non-operation area construction module, analyzing the configuration file and displaying a desktop plate in the non-operation area according to the analyzed configuration information;

the non-operational display area module comprising:

one or more of a television plate display unit, a setting plate display unit, a state plate display unit and a background area display unit;

the client further comprises:

2. The hybrid architecture operable desktop system of claim 1, wherein the operational display area module further comprises:

3. The hybrid architecture operable desktop system of claim 2, wherein the operational display area module further comprises:

4. An implementation method of the operable desktop system based on the hybrid architecture of claim 1, comprising:

B. the operator cloud transmits information to be pushed to a cloud server;

D. the client acquires the push information, the deployment information of the push information and the configuration file, displays the push information in an operation display area, and displays a desktop plate in a non-operation display area according to the configuration information analyzed from the configuration file;

the non-operational display area includes: one or more of a television plate display unit, a setting plate display unit, a state plate display unit and a background area display unit;

the step D also comprises the following steps:

5. The method for implementing the operable desktop system of hybrid architecture according to claim 4, wherein said step D further comprises:

6. The method for implementing the operable desktop system of hybrid architecture according to claim 4, wherein said step D further comprises: