CN112866588A - Multi-resource integration linkage method and system for spliced wall and storage medium thereof - Google Patents

Abstract

The invention relates to a method and a system for integrating and linking multiple resources of a spliced wall and a storage medium thereof, and provides a method and a system for uniformly controlling and linking multiple different types of resources. The method for integrating and linking multiple resources of the spliced wall comprises the following steps: the resource configuration end creates control linkage panels of various resources and integrates the control linkage panels of various resources into the scheduling server end; the control linkage end loads a corresponding control linkage panel from the scheduling server end according to the type of the target resource needing linkage, initiates linkage operation on the control linkage panel, and sends linkage data corresponding to the linkage operation to the scheduling server end; the scheduling server receives the linkage data and sends the linkage data to a splicing wall window corresponding to the target resource according to the type of the target resource; and the spliced wall window receives the linkage data and responds to the linkage operation corresponding to the linkage data so as to display the linkage data on the spliced wall window.

Description

Multi-resource integration linkage method and system for spliced wall and storage medium thereof

Technical Field

The invention relates to the technical field of spliced walls, in particular to a method and a system for integrating and linking multiple resources of a spliced wall and a storage medium thereof.

Background

The fusion platform is used for constructing a one-stop portal access entry of 'command to affairs' and 'management to things' by using a leading edge display technology, a cloud computing, an internet of things, big data, a mobile internet and other new-generation information technologies, can quickly realize cross-department and cross-hierarchy information sharing, forms multi-screen and multi-terminal linkage application and cooperation, and greatly improves the centralized control efficiency of a command center system and equipment.

At present, a fusion platform integrates various resources of a spliced wall, including resource types such as a traditional spliced large screen resource type, a Media-Sources type (MS), a multimedia type, an element type and a third-party application, but because the current resource linkage does not have a uniform interface and a uniform data interaction logic, each type of resource has a respective set of scheme, the problems of complex deployment, defects in the schemes, non-uniform UI interaction, poor expansibility, poor user interaction experience and the like exist.

Disclosure of Invention

The invention aims to overcome at least one defect of the prior art and provides a method and a system for integrating and linking multiple types of resources of a spliced wall and a storage medium thereof, and the method and the system are used for providing unified control linkage for multiple different types of resources.

The technical scheme adopted by the invention is that the method for integrating and linking multiple resources of the spliced wall comprises the following steps:

the resource configuration end creates a control linkage panel of a plurality of resources and integrates the control linkage panel of the plurality of resources into the scheduling server end;

the control linkage end loads a corresponding control linkage panel from the scheduling server end according to the type of the target resource needing linkage, initiates linkage operation on the control linkage panel, and sends linkage data corresponding to the linkage operation to the scheduling server end;

the scheduling server receives the linkage data and sends the linkage data to a splicing wall window corresponding to the target resource according to the type of the target resource;

and the spliced wall window receives the linkage data and responds to the linkage operation corresponding to the linkage data so as to display the linkage data on the spliced wall window.

A user creates control linkage panels of various resources through a resource configuration end, and integrates the control linkage panels of various resources into a scheduling server end, and the scheduling server end forms a unified integration service frame of the control linkage panels; the control linkage end selects target resources required to be linked, loads a corresponding control linkage panel from the scheduling server according to the type of the target resources, initiates linkage operation on the control linkage panel, and sends linkage data corresponding to the linkage operation to the scheduling server; and the scheduling server receives the linkage data and then sends the linkage data to the spliced wall window corresponding to the target resource according to the type of the target resource, so that the spliced wall window receives the linkage data and responds to the corresponding linkage operation, and the linkage data corresponding to the target resource linkage operation is displayed. The control linkage panel is established through the resource configuration end, a user can freely add the control linkage panel of a new type of resource, and the expansibility of resource linkage is good; the control linkage panel is integrated to the scheduling server, so that the scheduling server serves as a unified control linkage interface, receives linkage data caused by the control linkage panel, sends the linkage data to the splicing wall window corresponding to the target resource, and causes the target resource and the splicing wall window to respond to linkage operation corresponding to the linkage data, butt joint of the control linkage panel, the target resource and the corresponding splicing wall window is achieved, a set of control linkage scheme is unified for different resources, and the maintainability is good.

Further, the scheduling server receives the linkage data and sends the linkage data to a splicing wall window corresponding to the target resource according to the type of the target resource, and the method specifically includes:

the scheduling server receives the linkage data and sends the linkage data to the resource management server;

and the resource management server calls a corresponding resource interface according to the type of the target resource, and sends the linkage data to a splicing wall window corresponding to the target resource through the resource interface.

The method comprises the steps that a scheduling server sends linkage data to a resource management server, the resource management server analyzes the linkage data to obtain the type of a target resource, then calls a corresponding resource interface according to the type of the target resource, and sends the linkage data to a splicing wall window corresponding to the target resource through the resource interface, so that display response of the splicing wall window is triggered.

Further, the control linkage end loads a corresponding control linkage panel from the scheduling server according to the type of the target resource to be linked, initiates linkage operation on the control linkage panel, and sends linkage data corresponding to the linkage operation to the scheduling server, specifically including:

and the control linkage end loads a corresponding control linkage panel from the scheduling server end according to the type of the target resource needing linkage, initiates button clicking operation on the control linkage panel, converts preset data corresponding to a clicked button into linkage data and sends the linkage data to the scheduling server end.

The control linkage panel acquires relevant information of a target resource and a corresponding spliced wall window, button events are correspondingly arranged on the control linkage panel, each button event has corresponding preset data, when clicking linkage operation is initiated on a certain button event on the control linkage panel, the control linkage end can convert the preset data corresponding to the clicked button event into linkage data and send the linkage data to the scheduling server, linkage response of the target resource and information updating response of the spliced wall window are caused, the button events are converted into specific linkage operation and converted into linkage data to schedule data in the scheduling server, and control linkage of the resources is achieved rapidly and smoothly.

Further, the method comprises:

selecting target resources needing linkage by a spliced wall window, carrying out linkage operation on the spliced wall window corresponding to the target resources, and sending linkage data corresponding to the linkage operation to a scheduling server by the spliced wall window;

the scheduling server receives the linkage data and sends the linkage data to a control linkage end corresponding to the target resource according to the type of the target resource;

and the control linkage end receives the linkage data, loads a corresponding control linkage panel from the scheduling server according to the type of the target resource, and responds to the linkage operation according to the linkage data so that the control linkage panel updates the linkage data.

The control linkage of the resources supports bidirectional linkage, target resources required to be linked are selected at a spliced wall window, linkage operation is carried out on the corresponding spliced wall window according to the type of the target resources, and linkage data corresponding to the linkage operation are sent to a scheduling server; and the scheduling server receives the linkage data and then sends the linkage data to a control linkage end corresponding to the target resource, the control linkage end receives the linkage data and analyzes the type of the target resource, a corresponding control linkage panel is loaded from the scheduling server, and the control linkage panel responds to linkage operation, so that the linkage data is updated on the control linkage panel. Linkage operation is carried out on the spliced wall window, linkage data can return to the control linkage end through the original way of the scheduling server end, so that the data of the control linkage panel is updated, and bidirectional proceeding of a linkage operation process is realized.

Further, the plurality of resources include a VWAS resource, an MS multimedia resource, an element type resource.

The invention adopts another technical scheme that the multi-resource integration linkage system of the spliced wall comprises a scheduling server, a resource configuration end, a control linkage end and a spliced wall window, wherein the resource configuration end, the control linkage end and the spliced wall window are respectively connected with the scheduling server,

the resource configuration end is used for creating a control linkage panel of various resources and integrating the control linkage panel of various resources into the scheduling server end;

the control linkage end is used for loading a corresponding control linkage panel from the scheduling server according to the type of the target resource needing linkage and initiating linkage operation on the control linkage panel, and the control linkage end sends linkage data corresponding to the linkage operation to the scheduling server;

the scheduling server is used for receiving the linkage data and sending the linkage data to the splicing wall window corresponding to the target resource according to the type of the target resource;

and the spliced wall window is used for receiving the linkage data and responding to the linkage operation corresponding to the linkage data so as to display the linkage data on the spliced wall window.

A multi-resource integration linkage system of a splicing wall realizes control linkage of resources through a scheduling server, a resource configuration end, a control linkage end and a splicing wall window, wherein the resource configuration end, the control linkage end and the splicing wall window are all connected with the scheduling server, the resource configuration end is used for creating a control linkage panel of multiple resources and integrating the control linkage panel of the multiple resources into the scheduling server, and the scheduling server forms a unified integration service frame of the control linkage panel; the control linkage end is used for selecting target resources required to be linked, loading a corresponding control linkage panel from the scheduling server according to the type of the target resources, initiating linkage operation on the control linkage panel, and sending linkage data corresponding to the linkage operation to the scheduling server; and the scheduling server is used for receiving the linkage data and then sending the linkage data to the splicing wall window corresponding to the target resource according to the type of the target resource, so that the splicing wall window receives the linkage data and responds to the corresponding linkage operation, and the linkage data corresponding to the target resource linkage operation is displayed. The control linkage panel is established through the resource configuration end, a user can freely add the control linkage panel of a new type of resource, and the expansibility of resource linkage is good; the control linkage panel is integrated to the scheduling server, so that the scheduling server serves as a unified control linkage interface, receives linkage data caused by the control linkage panel, sends the linkage data to the splicing wall window corresponding to the target resource, and causes the target resource and the splicing wall window to respond to linkage operation corresponding to the linkage data, butt joint of the control linkage panel, the target resource and the corresponding splicing wall window is achieved, a set of control linkage scheme is unified for different resources, and the maintainability is good.

The resource management server is respectively connected with the scheduling server and the splicing wall window and used for receiving the linkage data sent by the scheduling server, calling a corresponding resource interface according to the type of the target resource and sending the linkage data to the splicing wall window corresponding to the target resource through the resource interface.

The method comprises the steps that a resource management server is connected to a scheduling server, the resource management server is used for analyzing linkage data received from the scheduling server to obtain the type of a target resource, then a corresponding resource interface is called according to the type of the target resource, the linkage data are sent to a splicing wall window corresponding to the target resource through the resource interface, and accordingly display response of the splicing wall window is triggered.

Further, the control linkage end is specifically configured to select a target resource to be linked, load a corresponding control linkage panel from the scheduling server according to the type of the target resource, initiate button clicking operation on the control linkage panel, convert preset data corresponding to a clicked button into linkage data, and send the linkage data to the scheduling server.

The control linkage panel is specifically used for acquiring relevant information of a target resource and a corresponding spliced wall window, button events are correspondingly arranged on the control linkage panel, each button event has corresponding preset data, when clicking linkage operation is initiated on a certain button event on the control linkage panel, the control linkage end can convert the preset data corresponding to the clicked button event into linkage data and send the linkage data to the scheduling server, linkage response of the target resource and information updating response of the spliced wall window are caused, the button events are converted into specific linkage operation and converted into linkage data to schedule data in the scheduling server, and control linkage of the resources is achieved rapidly and smoothly.

Furthermore, the spliced wall window is also used for selecting target resources required to be linked, linkage operation is carried out on the spliced wall window corresponding to the target resources, and the spliced wall window sends linkage data corresponding to the linkage operation to the scheduling server;

the scheduling server is further used for receiving the linkage data and sending the linkage data to the control linkage end corresponding to the target resource according to the type of the target resource;

and the control linkage end is also used for receiving the linkage data, loading a corresponding control linkage panel from the scheduling server end according to the type of the target resource, and responding to the linkage operation according to the linkage data so as to update the linkage data by the control linkage panel.

The control linkage of the resources supports bidirectional linkage, a splicing wall window is used for selecting target resources required to be linked, linkage operation is carried out on the corresponding splicing wall window according to the type of the target resources, and linkage data corresponding to the linkage operation are sent to a scheduling server; the scheduling server is used for receiving the linkage data and then sending the linkage data to the control linkage end corresponding to the target resource, the control linkage end is used for receiving the linkage data and analyzing the type of the target resource, the corresponding control linkage panel is loaded from the scheduling server, and the control linkage panel responds to linkage operation, so that the linkage data on the control linkage panel is updated. Linkage operation is carried out on the spliced wall window, linkage data can return to the control linkage end through the original way of the scheduling server end, so that the data of the control linkage panel is updated, and bidirectional proceeding of a linkage operation process is realized.

According to another technical scheme, the invention provides a computer-readable storage medium, wherein a computer program is stored on the computer-readable storage medium, and when the computer program is executed by a processor, the method for integrating and linking multiple resources of the spliced wall is realized.

Compared with the prior art, the invention has the beneficial effects that: the invention relates to a method, a system and a storage medium for integrating and linking various resources of a spliced wall, which provide a unified interface and unified data interaction logic for resource linkage, a user can self-define and create control linkage panels of various required resources through a resource configuration end, the expansibility of a resource control linkage type is good, and the user can optionally add a new type of resource control linkage panel; the method comprises the steps that control linkage panels of various different resources are integrated to a scheduling server, a service framework is integrated uniformly, the number of simplified services and related technologies are optimized, deployment is optimized, the scheduling server serves as a uniform control linkage protocol interface, a resource management server is connected to the scheduling server, when new types of resources are added, modification services of a network protocol can be achieved at the resource management server, a new resource calling interface is added, service modification is not needed to be directly performed on the scheduling server, any expansion and service modification of newly added resources are met, and expansibility is good; the scheduling server side realizes butt joint between the control linkage panel and the target resource and the corresponding splicing wall window, unifies a set of control linkage scheme for different resources, and has good maintainability; the invention also supports bi-directional linkage of resource control linkage.

Drawings

Fig. 1 is a schematic flow chart of a method for integrating and linking multiple types of resources of a spliced wall according to the present invention.

Fig. 2 is another schematic flow chart of a method for integrating and linking multiple types of resources of a spliced wall according to the present invention.

Fig. 3 is a schematic structural diagram of a multi-type resource integration linkage system of a splicing wall according to the present invention.

Detailed Description

The drawings are only for purposes of illustration and are not to be construed as limiting the invention. The invention is mainly applied to a fusion platform, in particular to an ICVP system which integrates various resources of the current spliced wall, and various resources of the spliced wall in the ICVP system are displayed on a spliced large screen in a spliced wall window mode in cooperation with service equipment. The invention provides a method for unifying a set of control linkage schemes for different resources, and solves the problems of complex deployment, defects of schemes, non-unified UI interaction, poor expansibility, poor user interaction experience and the like of linkage control of various resources in the prior art.

Example 1

Fig. 1 is a schematic flow chart of a method for integrating and linking multiple types of resources of a spliced wall according to an embodiment of the present invention, where the method includes the following steps:

s101, a resource configuration end creates control linkage panels of multiple resources and integrates the control linkage panels of the multiple resources into a scheduling server end;

s102, loading a corresponding control linkage panel from the scheduling server by the control linkage end according to the type of the target resource needing linkage, initiating linkage operation on the control linkage panel, and sending linkage data corresponding to the linkage operation to the scheduling server by the control linkage end;

s103, the scheduling server receives the linkage data and sends the linkage data to a splicing wall window corresponding to the target resource according to the type of the target resource;

in step S103, the method specifically includes:

s1031, the scheduling server receives the linkage data and sends the linkage data to the resource management server;

s1032, the resource management server calls a corresponding resource interface according to the type of the target resource, and sends the linkage data to a splicing wall window corresponding to the target resource through the resource interface.

And S104, the spliced wall window receives the linkage data and responds to linkage operation corresponding to the linkage data, so that the spliced wall window displays the linkage data.

Specifically, the process of implementing the integrated control linkage of multiple resources by using the method of the embodiment includes the steps that firstly, a user creates control linkage panel data of multiple resources by self-defining or importing template data through a resource configuration end, integrates and binds the control linkage panel data of the multiple resources into a scheduling server, and finally generates a corresponding control linkage panel, and the scheduling server forms corresponding protocol relationships of different resource control linkage panels according to resource types; secondly, in the process of resource control linkage, a control linkage end selects a target resource to be linked, a corresponding control linkage panel can be loaded from a scheduling server according to the protocol relationship of the type of the target resource, the control linkage panel acquires the data information of a splicing wall window corresponding to the current target resource at the moment, linkage operation is initiated on the control linkage panel, and the control linkage end sends linkage data corresponding to the linkage operation to the scheduling server through a communication network; the scheduling server serves as a uniform protocol interface of resources, the linkage data received by the scheduling server is protocol data, the scheduling server can issue the linkage data to a spliced wall window according to protocol relationships corresponding to different resources, but is not beneficial to service modification and resource expansion, therefore, a resource management server is additionally arranged, the scheduling server forwards the linkage data to the resource management server, the resource management server simply analyzes the linkage data, and sends the linkage data to the spliced wall window corresponding to a target resource according to the analyzed resource type; the spliced wall window can be self-converted into required data according to the received linkage data, the response of the spliced wall window is triggered, and the spliced wall window displays the corresponding linkage data.

In step S102, the control linkage end loads a corresponding control linkage panel from the scheduling server according to the type of the target resource to be linked, and initiates a linkage operation on the control linkage panel, and the control linkage end sends linkage data corresponding to the linkage operation to the scheduling server, which specifically includes:

and the control linkage end loads a corresponding control linkage panel from the scheduling server end according to the type of the target resource needing linkage, initiates button clicking operation on the control linkage panel, converts preset data corresponding to a clicked button into linkage data and sends the linkage data to the scheduling server end.

Specifically, the linkage operation in this embodiment may be embodied as a web page click, a button event, and the like, when the button event is a button event, a plurality of button events are provided on the control linkage panel, and each button event has corresponding preset data, and there is a corresponding relationship between the click operation and the preset data, where the corresponding relationship is predefined, and when a certain button event on the control linkage panel is clicked and triggered, the linkage end is controlled to obtain the preset data corresponding to the button event, and the preset data is converted into linkage data and sent to the scheduling server end, so that transmission of the linkage data of the linkage operation is achieved, and linkage control of resources is achieved.

The method for integrating and linking multiple types of resources of the spliced wall further supports bidirectional linkage, and the processes of the steps can be performed reversely, and specifically comprises the following steps:

s201, a resource configuration end creates control linkage panels of multiple resources and integrates the control linkage panels of the multiple resources into a scheduling server end;

s202, selecting a target resource needing linkage by a spliced wall window, carrying out linkage operation on the spliced wall window corresponding to the target resource, and sending linkage data corresponding to the linkage operation to a scheduling server by the spliced wall window;

s203, the scheduling server receives the linkage data and sends the linkage data to a control linkage end corresponding to the target resource according to the type of the target resource;

and S204, the control linkage end receives the linkage data, loads a corresponding control linkage panel from the scheduling server according to the type of the target resource, and responds to the linkage operation according to the linkage data so that the control linkage panel updates the linkage data.

Specifically, the process of implementing the reverse control linkage of multiple resources by using the method of the embodiment includes the steps that firstly, a user creates control linkage panel data of multiple resources by self-defining or importing template data through a resource configuration end, integrates and binds the control linkage panel data of the multiple resources into a scheduling server, and finally generates a corresponding control linkage panel, and the scheduling server forms corresponding protocol relationships of different resource control linkage panels according to resource types; secondly, initiating linkage operation on a splicing wall window corresponding to the target resource needing linkage, and sending linkage data corresponding to the linkage operation to a scheduling server; the scheduling server serves as a uniform protocol interface of resources, the linkage data received by the scheduling server is protocol data, the scheduling server can send and process the linkage data according to protocol relationships corresponding to different resources, but is not beneficial to service modification and resource expansion, therefore, a resource management server is additionally arranged, the scheduling server forwards the linkage data to the resource management server, the resource management server simply analyzes the linkage data, and sends the linkage data to a control linkage end corresponding to a target resource according to the analyzed resource type; and the control linkage end receives the corresponding linkage data, loads the corresponding control linkage panel from the scheduling server according to the protocol relationship of the type of the target resource, and updates the corresponding linkage data on the control linkage panel.

The present embodiment is further described in detail with reference to the method flow of linkage control of camera resources,

s101', self-defining or importing control linkage panel data of camera resources by a resource configuration end, integrating the control linkage panel data into a scheduling server end and binding related data, and finally generating a control linkage panel corresponding to the camera resources;

s102', the control linkage end loads a control linkage panel of the camera resource from the scheduling service end according to the type of the camera resource, obtains current data of the camera resource, such as the rotating speed of the current camera, the angle values of the upper, lower, left and right directions and the zooming size of the camera, initiates button clicking event operation on the control linkage panel of the camera resource, is provided with a plurality of button events, can control the camera to move up, down, left and right or zoom in and out and the like, and converts preset data corresponding to the button events into linkage data when the button clicking event initiates linkage operation, and sends the linkage data to the scheduling service end through a network protocol;

s1031', the scheduling server receives the linkage data and forwards the linkage data to the resource management server;

s1032', the resource management server simply analyzes the linkage data, analyzes the corresponding camera resource type, and calls a camera resource interface to send the linkage data to a splicing wall window corresponding to the camera resource;

and S104', the spliced wall window receives the linkage data and responds to linkage operation corresponding to the linkage data, the linkage data is converted into data required by the spliced wall window, and the data condition of camera linkage is displayed.

The data flow can also be reversely carried out, linkage operation is carried out on the spliced wall window, and corresponding linkage data can return to the control linkage end through the original way of the scheduling server and the resource management server, so that data updating of the control linkage panel is caused.

The linkage operation steps of other resource types are the same as the linkage operation steps of the camera resource, and the specific process can be shown in a flow diagram of a method for linkage control of multiple resources shown in fig. 3, wherein the spliced wall in fig. 3 integrates multiple types of resources.

Example 2

Fig. 2 is a schematic structural diagram of an integrated linkage system for multiple types of resources of a splicing wall according to the present embodiment of the invention, the system includes:

a scheduling server 303, a resource configuration end 301, a control linkage end 302, and a splicing wall window 304, where the resource configuration end 301, the control linkage end 302, and the splicing wall window 304 are respectively connected to the scheduling server 303, where,

the resource configuration end 301 is configured to create control linkage panels of multiple resources, and integrate the control linkage panels of multiple resources into the scheduling server 203;

the control linkage end 302 is configured to load a corresponding control linkage panel from the scheduling server according to the type of the target resource to be linked, initiate linkage operation on the control linkage panel, and send linkage data corresponding to the linkage operation to the scheduling server 303; specifically, the control linkage end 302 is specifically configured to select a target resource to be linked, load a corresponding control linkage panel from the scheduling server according to the type of the target resource, and initiate a button click operation on the control linkage panel, where the control linkage end converts preset data corresponding to a clicked button into linkage data and sends the linkage data to the scheduling server 303;

the scheduling server 303 is configured to receive the linkage data, and send the linkage data to the splicing wall window 304 corresponding to the target resource according to the type of the target resource;

the system further comprises a resource management server 305, wherein the resource management server 305 is respectively connected with the scheduling server 303 and the splicing wall window 304, and is configured to receive the linkage data sent by the scheduling server 303, call a corresponding resource interface according to the type of the target resource, and send the linkage data to the splicing wall window 304 corresponding to the target resource through the resource interface.

The spliced wall window 304 is configured to receive the linkage data and respond to linkage operation corresponding to the linkage data, so that the spliced wall window 304 displays the linkage data.

The process of implementing the control linkage of the target resource by the resource configuration end 301, the control linkage end 302, the scheduling server end 303, the resource management server end 305, and the splice wall window 304 in the integrated linkage system of multiple types of resources of the splice wall in this embodiment is the same as the method process in embodiment 1, and a detailed description thereof will not be provided.

The process of controlling and linking resources by a multi-type resource integration linkage system of a splicing wall supports bidirectional linkage, and the reverse process comprises the following steps:

the spliced wall window 304 is further configured to select a target resource to be linked, perform linkage operation on the spliced wall window corresponding to the target resource, and send linkage data corresponding to the linkage operation to the scheduling server 303;

the scheduling server 303 is further configured to receive the linkage data, and send the linkage data to the control linkage end 302 corresponding to the target resource according to the type of the target resource;

the control linkage end 302 is further configured to receive the linkage data, load a corresponding control linkage panel from the scheduling server 303 according to the type of the target resource, and respond to the linkage operation according to the linkage data, so that the control linkage panel updates the linkage data.

The embodiment of the present invention further provides another implementation manner, and a computer-readable storage medium stores a computer program thereon, and when the computer program is executed by a processor, the method for integrating and linking multiple resources of a splicing wall is implemented.

The embodiment of the invention has the beneficial effects that: the invention relates to a method, a system and a storage medium for integrating and linking various resources of a spliced wall, which provide a unified interface and unified data interaction logic for resource linkage, a user can self-define and create control linkage panels of various required resources through a resource configuration end, the expansibility of a resource control linkage type is good, and the user can optionally add a new type of resource control linkage panel; the method comprises the steps that control linkage panels of various different resources are integrated to a scheduling server, a service framework is integrated uniformly, the number of simplified services and related technologies are optimized, deployment is optimized, the scheduling server serves as a uniform control linkage protocol interface, a resource management server is connected to the scheduling server, when new types of resources are added, modification services of a network protocol can be achieved at the resource management server, a new resource calling interface is added, service modification is not needed to be directly performed on the scheduling server, any expansion and service modification of newly added resources are met, and expansibility is good; the scheduling server side realizes butt joint between the control linkage panel and the target resource and the corresponding splicing wall window, unifies a set of control linkage scheme for different resources, and has good maintainability; the invention also supports bi-directional linkage of resource control linkage.

It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the technical solutions of the present invention, and are not intended to limit the specific embodiments of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention claims should be included in the protection scope of the present invention claims.

Claims (10)

1. A multi-resource integration linkage method for a spliced wall is characterized by comprising the following steps:

the resource configuration end creates a control linkage panel of a plurality of resources and integrates the control linkage panel of the plurality of resources into the scheduling server end;

the control linkage end loads a corresponding control linkage panel from the scheduling server end according to the type of the target resource needing linkage, initiates linkage operation on the control linkage panel, and sends linkage data corresponding to the linkage operation to the scheduling server end;

the scheduling server receives the linkage data and sends the linkage data to a splicing wall window corresponding to the target resource according to the type of the target resource;

and the spliced wall window receives the linkage data and responds to the linkage operation corresponding to the linkage data so as to display the linkage data on the spliced wall window.

2. The method for integrating and linking multiple resources of a splicing wall according to claim 1, wherein the scheduling server receives the linkage data and sends the linkage data to a splicing wall window corresponding to the target resource according to the type of the target resource, specifically comprising:

the scheduling server receives the linkage data and sends the linkage data to the resource management server;

and the resource management server calls a corresponding resource interface according to the type of the target resource, and sends the linkage data to a splicing wall window corresponding to the target resource through the resource interface.

3. The method for integrating and linking multiple resources of a splicing wall according to claim 1, wherein the control linking end loads a corresponding control linking panel from the scheduling server according to the type of the target resource to be linked, initiates a linking operation on the control linking panel, and sends linking data corresponding to the linking operation to the scheduling server, specifically comprising:

and the control linkage end loads a corresponding control linkage panel from the scheduling server end according to the type of the target resource needing linkage, initiates button clicking operation on the control linkage panel, converts preset data corresponding to a clicked button into linkage data and sends the linkage data to the scheduling server end.

4. The method for integrating and linking multiple resources of the spliced wall as claimed in claim 1, wherein the method comprises the following steps:

selecting target resources needing linkage by a spliced wall window, carrying out linkage operation on the spliced wall window corresponding to the target resources, and sending linkage data corresponding to the linkage operation to a scheduling server by the spliced wall window;

the scheduling server receives the linkage data and sends the linkage data to a control linkage end corresponding to the target resource according to the type of the target resource;

and the control linkage end receives the linkage data, loads a corresponding control linkage panel from the scheduling server according to the type of the target resource, and responds to the linkage operation according to the linkage data so that the control linkage panel updates the linkage data.

5. The method for integrating and linking multiple resources of a spliced wall as claimed in claim 1, wherein the multiple resources comprise a VWAS resource, an MS multimedia resource and an element type resource.

6. A multi-resource integration linkage system of a splicing wall is characterized by comprising a scheduling server, a resource configuration end, a control linkage end and a splicing wall window, wherein the resource configuration end, the control linkage end and the splicing wall window are respectively connected with the scheduling server,

the resource configuration end is used for creating a control linkage panel of various resources and integrating the control linkage panel of various resources into the scheduling server end;

the control linkage end is used for loading a corresponding control linkage panel from the scheduling server according to the type of the target resource needing linkage and initiating linkage operation on the control linkage panel, and the control linkage end sends linkage data corresponding to the linkage operation to the scheduling server;

the scheduling server is used for receiving the linkage data and sending the linkage data to the splicing wall window corresponding to the target resource according to the type of the target resource;

and the spliced wall window is used for receiving the linkage data and responding to the linkage operation corresponding to the linkage data so as to display the linkage data on the spliced wall window.

7. The system for integrating and linking multiple resources of a splicing wall according to claim 6, further comprising a resource management server, wherein the resource management server is respectively connected to the scheduling server and the splicing wall window, and is configured to receive the linkage data sent by the scheduling server, call a corresponding resource interface according to the type of the target resource, and send the linkage data to the splicing wall window corresponding to the target resource through the resource interface.

8. The system of claim 6, wherein the control linkage end is specifically configured to select a target resource to be linked, load a corresponding control linkage panel from the scheduling server according to a type of the target resource, initiate button clicking operation on the control linkage panel, and convert preset data corresponding to a clicked button into linkage data and send the linkage data to the scheduling server.

9. The system for integrating and linking multiple resources of a spliced wall according to claim 6, wherein the spliced wall window is further configured to select a target resource to be linked, perform linkage operation on the spliced wall window corresponding to the target resource, and send linkage data corresponding to the linkage operation to the scheduling server through the spliced wall window;

the scheduling server is further used for receiving the linkage data and sending the linkage data to the control linkage end corresponding to the target resource according to the type of the target resource;

and the control linkage end is also used for receiving the linkage data, loading a corresponding control linkage panel from the scheduling server end according to the type of the target resource, and responding to the linkage operation according to the linkage data so as to update the linkage data by the control linkage panel.

10. A computer-readable storage medium having a computer program stored thereon, wherein the computer program, when executed by a processor, implements the method for linking a plurality of resource integrations of a spliced wall according to any one of claims 1 to 5.

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