CN111459393A - Method, system and equipment for realizing multi-signal-source interactive control - Google Patents

Abstract

The invention discloses a method, a system and equipment for realizing multi-signal source interactive control, which realize the remote control by simultaneously selecting a plurality of signal sources to be controlled through a preset display scene; the display area of the display terminal is further divided into a plurality of sub-areas, and each sub-area is matched with one signal source screen display signal, so that the same-screen display of the screen display signals of the multi-channel signal source is realized; then, the first touch input and the first touch input information acquisition and identification are carried out in the multiple sub-areas, the purpose of simultaneously remotely controlling the multiple signal sources is achieved, the control of the signal sources is not mutually influenced, the efficiency of remote control of the multiple signal sources is greatly improved, and the user operation experience is improved.

Description

Method, system and equipment for realizing multi-signal-source interactive control

Technical Field

The invention relates to the technical field of remote interactive control, in particular to a method, a system and equipment for realizing interactive control of multiple signal sources.

Background

When terminal control equipment (such as a command console) is adopted to carry out remote interactive operation on a multi-channel signal source, the signal source needs to be interactively operated, the control requirement is rapid in response and low in delay, and otherwise, the control experience is influenced.

In the prior art, as a plurality of signal sources need to be controlled for remote control of a multi-channel signal source, and only one terminal control device is provided, simultaneous control of a plurality of signal sources cannot be realized, so that the technical problems of low remote control efficiency and poor experience of the multi-channel signal source exist in the prior art.

Disclosure of Invention

The embodiment of the invention aims to provide a method, a system and equipment for realizing interactive control of multiple signal sources, which are used for solving the technical problems of low remote control efficiency and poor experience of multiple signal sources in the prior art.

In order to realize the purpose of the invention, the technical scheme adopted by the invention is as follows:

in a first aspect, the present invention provides a method for implementing multi-signal source interactive control, where the method includes: accessing a multi-channel signal source; calling and displaying a first display interface; selecting at least one signal source to be controlled on a first display interface to generate a signal source calling instruction; calling and displaying the real-time content of the selected signal source screen according to the signal source calling instruction; performing first touch input on a display interface of the real-time content of the selected signal source screen; acquiring first touch input information and identifying the first touch input information as a gesture control instruction of a corresponding signal source; sending the gesture control instruction to a corresponding signal source; and receiving and displaying the signal source feedback information.

Further, the retrieving and displaying the first display interface includes:

acquiring second touch input information on a second display interface and identifying the second touch input information as a command for calling a corresponding display scene, wherein a plurality of first identifications corresponding to the display scene one by one are arranged on the second display interface;

and acquiring a first display interface corresponding to the display scene by touching the first identifier.

Furthermore, a plurality of second identifiers are further arranged on the second display interface, and the corresponding signal source screen real-time content is displayed on other display terminals through touch control of the second identifiers.

Further, the selecting at least one signal source to be controlled on the first display interface to generate a signal source invoking instruction includes:

and selecting a signal source to be controlled to generate a signal source calling instruction on the first display interface each time, when a next signal source is required to be controlled, exiting the currently controlled signal source, returning to the first display interface, and selecting the next signal source to be controlled to generate the signal source calling instruction.

Compared with the prior art, the embodiment of the invention realizes that a single touch screen controls multiple signal sources, can access multiple signal sources, and only one signal source to be controlled is taken each time; when other signal sources need to be controlled, the signal source which needs to be quitted from the current operation needs to be returned to the first display interface, then one signal source which needs to be controlled is taken down, the purpose of remotely controlling the multi-channel signal source by one control terminal is achieved by controlling and switching the first display interface, meanwhile, interactive control is achieved by adopting a first touch input mode, remote control efficiency is improved, and user operation experience is improved.

Further, the selecting at least one signal source to be controlled on the first display interface to generate a signal source invoking instruction includes:

and the first display interface is provided with a plurality of subregions which correspond to the signal sources one to one, and a plurality of signal sources needing to be controlled are simultaneously selected on the subregions on the first display interface to generate signal source calling instructions.

Further, the calling and displaying the selected real-time content of the signal source screen according to the signal source calling instruction includes:

calling the selected real-time content of the signal source screen according to the signal source calling instruction;

determining a sub-region corresponding to the calling instruction according to the signal source calling instruction;

and displaying the called real-time content of the signal source screen in the corresponding sub-area.

Further, the acquiring first touch input information and recognizing that the first touch input information is a gesture control instruction corresponding to the signal source includes:

and acquiring first touch input information in the sub-area and identifying the first touch input information as a corresponding signal source gesture control instruction according to the first touch input information.

Further, the receiving and displaying the signal source feedback information includes:

judging a subarea where the first touch input occurs according to the first touch input information;

converting the first touch input information into actual control information corresponding to the signal source, wherein the actual control information is control information determined by taking the resolution of a screen area corresponding to the signal source as a coordinate system;

and receiving and displaying the signal source feedback information.

Further, still include:

performing third touch input at any position on the first display interface;

collecting the second touch input information and identifying the third touch input information as a command for returning to a second display interface;

and recalling and displaying the second display interface.

Compared with the prior art, the embodiment of the invention can simultaneously select a plurality of signal sources to be controlled for remote control through the preset display scene, and realizes the on-screen display of the screen display signals of the multipath signal sources through the division of the display area and the matching of the screen display signals of the signal sources; then, the first touch input is carried out on the plurality of sub-areas, the purpose of remotely controlling the plurality of signal sources simultaneously is achieved, the control of the signal sources is not mutually influenced, the efficiency of the remote control of the plurality of signal sources is greatly improved, and the user operation experience is improved.

In a second aspect, the present invention further provides a system for implementing multi-signal source interactive control, where the system includes: the system comprises: the system comprises a control terminal, an interactive information processor and a server;

the control terminal is used for displaying a second display interface and acquiring a first display interface from the interactive information processor through touch input on the second display interface; selecting at least one signal source to be controlled on a first display interface to generate a signal source calling instruction, identifying a signal source corresponding to the signal source calling instruction by a server, and sending the signal calling instruction to the corresponding signal source; receiving and displaying the signal source feedback information;

the mutual information processor is used for accessing the multi-channel signal source; the control terminal is used for calling the first display interface according to the touch input on the second display interface, outputting the first display interface to the control terminal and sending the signal source feedback information acquired through the first touch input to the control terminal.

And the server is used for receiving the signal source calling instruction from the control terminal and sending the signal source calling instruction to the corresponding signal source.

Compared with the prior art, the embodiment of the invention realizes the purpose of controlling multiple signal sources by a single control terminal, can access multiple signal sources, can be called and remotely controlled by a user through the single control terminal, and simultaneously realizes interactive control by adopting a touch input mode, thereby improving the remote control efficiency and improving the operation experience of the user.

In a third aspect, the present invention further provides a device for implementing interactive control of multiple signal sources, where the device includes: a processor and a memory; the memory is to store one or more program instructions; the processor is configured to execute one or more program instructions to perform the method of any of the above.

Compared with the prior art, the embodiment of the invention can simultaneously select a plurality of signal sources to be controlled for remote control, and realizes the on-screen display of screen display signals of a plurality of signal sources by dividing the display area and matching the screen display signals of the signal sources; then, the first touch input is carried out on the plurality of sub-areas, the purpose of remotely controlling the plurality of signal sources simultaneously is achieved, the control of the signal sources is not mutually influenced, the efficiency of the remote control of the plurality of signal sources is greatly improved, and the user operation experience is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. Some specific embodiments of the present application will be described in detail hereinafter by way of illustration and not limitation with reference to the accompanying drawings. The same reference numbers will be used throughout the drawings to refer to the same or like parts or portions, and it will be understood by those skilled in the art that the drawings are not necessarily drawn to scale, in which:

fig. 1 is a schematic structural diagram of a system for implementing multi-signal source interactive control according to an embodiment of the present invention;

fig. 2 is a schematic flowchart illustrating a method for implementing multi-signal source interactive control according to an embodiment of the disclosure;

fig. 3 is a schematic flowchart illustrating a method for implementing multi-signal source interactive control according to another embodiment of the disclosure;

FIG. 4 is a diagram of a second display interface according to an embodiment of the disclosure;

FIG. 5 is a schematic diagram of a signal source signal display interface in a display scenario in which a plurality of signal sources are simultaneously controlled according to an embodiment of the disclosure;

fig. 6 is a schematic diagram of another signal source signal display interface in a display scene of simultaneously operating a plurality of signal sources according to an embodiment of the disclosure.

Detailed Description

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

The applicant finds that the remote control of a multi-channel signal source needs more signal sources to be controlled, and the terminal control equipment is usually only one, so that a user needs to call and control a plurality of signal sources through a single control terminal in order to meet the operation experience of the user.

In order to solve the above technical problem, as shown in fig. 1, an embodiment of the present invention discloses a system for implementing interactive control of multiple signal sources, including: interface terminal 01, mutual information processor 02, touch-control screen 03, touch-control host 04, server 05, wherein control terminal includes: touch screen 03 and touch host 04.

The interface terminal 01 is used for providing a second display interface, and a plurality of first identifications corresponding to the display scenes one by one are arranged on the second display interface; and acquiring a first display interface corresponding to the display scene by touching the first identifier.

The interactive information processor 02 is configured to access the multi-channel signal source 06, and the interactive information processor 02 may be a splicing controller, in this embodiment, a three-channel signal source 06, and is configured to call a first display interface according to a second touch input on a second display interface and output the first display interface to the control terminal, where the second display interface is called from the interface terminal 01 through the interactive information processor 02; and selecting at least one signal source 06 to be controlled on the first display interface to generate a signal source calling instruction, and calling a display interface of the screen real-time content of the selected signal source 06 according to the signal source calling instruction.

The control terminal is used for displaying a second display interface, and acquiring a first display interface output by the interactive information processor 02 through first touch input on the second display interface; selecting at least one signal source to be controlled on a first display interface to generate a signal source calling instruction, identifying a signal source 06 corresponding to the signal source calling instruction by a server 05, and sending the signal calling instruction to the corresponding signal source 06; receiving and displaying signal source feedback information;

the touch screen 03 is used for receiving the first display interface from the interactive information processor 02 and displaying the first display interface; selecting at least one signal source 06 to be controlled on the first display interface to generate a signal source calling instruction, identifying the signal source calling instruction by the server 02, and sending the signal source calling instruction to the interactive information processor 02; the interactive information processor 02 calls a display interface of the real-time content of the screen of the selected signal source 06 to display on the touch screen 03; performing first touch input on a display interface of real-time content of a screen of a signal source 06; the touch screen 03 receives and displays feedback information of the signal source 06.

The touch host 04 is configured to collect the first touch input information from the touch screen 03 and recognize the first touch input information as a corresponding gesture control command.

The server 05 is configured to receive the gesture control instruction from the touch host 04 and send the gesture control instruction to the corresponding signal source 06.

Compared with the prior art, the method and the device for controlling the signal sources of the multi-channel signal have the advantages that the purpose that the single control terminal controls the multi-signal sources is achieved, the multi-signal sources can be accessed, a user can call and remotely control the multi-signal sources through the single control terminal, meanwhile, interactive control is achieved through a touch input mode, remote control efficiency is improved, and user operation experience is improved.

The system for implementing multi-signal source interactive control disclosed by the embodiment of the invention further comprises: and a plurality of other display terminals 07, three other display terminals 07 are shown in fig. 1, and the other display terminals 07 are used for receiving display interfaces of the real-time content of the corresponding signal source screens from the interactive information processor 02.

The embodiment of the invention can push the display interface of the real-time content of the currently controlled signal source screen to other appointed display terminals, for example, the other display terminals can be large screens and the like. When the signal source does not need to be operated through the touch screen, the screen display signal of the signal source can be only displayed on the designated large screen; when the signal source needs to be operated, the display interface of the real-time content of the signal source screen is adjusted to the touch screen, the real-time content of the signal source screen is displayed through other display terminals, and the display information of the signal source screen is displayed more conveniently and clearly compared with the display of the real-time content of the signal source screen by the touch screen due to the fact that the display interface only has a display function, and user display experience is improved.

Preferably, in the embodiment of the present invention, the mutual information processor 02 is further configured to invoke the selected multiple signal sources 06 according to the signal source invoking instruction; according to the embodiment of the invention, the display terminal is selected according to the display terminal identifier, and in the embodiment of the invention, as described above, the display terminal comprises two types, namely a touch screen 03 and other display terminals 07, and the display terminal identifier can be an address of the display terminal; dividing the display area of the display terminal into a plurality of sub-areas according to preset display area partition rules and sub-area definitions, and matching the divided sub-areas for each signal source 06; forwarding signal source 06 feedback information corresponding to each sub-region, wherein the sub-region definition includes: the window size, the window position and the signal source identification corresponding to the control; the touch screen 03/other display terminals 07 are further configured to perform on-screen display on the screen display information of the plurality of signal sources 06 through the divided plurality of sub-regions; receiving and displaying feedback information of the corresponding signal source 06 from the mutual information processor 02 in each sub-area; the touch screen 03 is further configured to perform a first touch input at the same time on a plurality of sub-areas of a display interface of real-time content on a signal source screen; the touch host 04 is further configured to collect first touch input information in each sub-area from the touch screen 03 and recognize the first touch input information as a corresponding gesture control instruction according to the first touch input position; the server 05 is further configured to send the gesture control instruction corresponding to each sub-region to the signal source 06 currently displayed in the sub-region according to the recognition result.

According to the embodiment of the invention, a plurality of signal sources to be controlled can be simultaneously selected for remote control through the preset display scene, and the on-screen display of the screen display signals of the multi-channel signal sources is realized through the division of the display area and the matching of the screen display signals of the signal sources; then, the first touch input is carried out on the plurality of sub-areas, the purpose of remotely controlling the plurality of signal sources simultaneously is achieved, the control of the signal sources is not mutually influenced, the efficiency of the remote control of the plurality of signal sources is greatly improved, and the user operation experience is improved.

Preferably, in the embodiment of the present invention, the screen display information of the signal source 06 and the display signal of the interface terminal 01 are accessed to the interaction information processor 02 through a high definition video protocol, the interaction information processor 02 forwards the screen display information of the signal source 06 and the display signal of the interface terminal 01 to the touch screen 03/other display terminals 07 through the high definition video protocol, the touch host 04 acquires the first touch input information from the touch screen 03 through a USB protocol, the touch host 04 sends a gesture control instruction to the server 05 through a TCP protocol, the server 05 issues the gesture control instruction to the signal source 06 through the TCP protocol, and the server 05 performs interactive communication with the touch host 04, the interface terminal 01, the signal source 06, and the interaction information processor 02 through a TCP protocol via the switch 08.

Compared with the prior art, when a plurality of signal sources are interactively controlled, screen display signals of the selected multi-channel signal sources are transmitted and displayed through a high-definition video protocol instead of a streaming media mode, and the screen display signals are almost not delayed; in addition, the first touch input information is collected through a USB protocol, the signal transmission speed is improved, the delay is reduced, the first touch input information is identified as a gesture control instruction and then is sent to a signal source through a local area network TCP protocol to be controlled, the content of the gesture control instruction is less, the large bandwidth is not needed, and the delay is low; therefore, the following effects are achieved: the operational experience of operating that signal source is almost indistinguishable from operating with a direct access signal source.

In order to improve the operation experience of a user and meet the requirement that the user calls and controls a plurality of signal sources through a single touch screen, the embodiment of the invention also discloses a method for realizing the multi-signal-source interactive control, which corresponds to the system for realizing the multi-signal-source interactive control.

Referring to fig. 2, an embodiment of the present invention discloses a method for implementing multi-signal source interactive control, where the method includes:

accessing a multi-channel signal source;

calling and displaying a first display interface;

selecting at least one signal source to be controlled on a first display interface to generate a signal source calling instruction;

calling and displaying the real-time content of the selected signal source screen according to the signal source calling instruction;

performing first touch input on a display interface of the real-time content of the selected signal source screen;

acquiring first touch input information and identifying the first touch input information as a gesture control instruction of a corresponding signal source;

sending the gesture control instruction to a corresponding signal source; and

and receiving and displaying the signal source feedback information.

Furthermore, in the embodiment of the present invention, a signal source to be controlled is selected on the first display interface each time, and a signal source invoking instruction is generated according to the selected signal source identifier to be controlled each time, where the signal source identifier may be a signal source identifier address; and when a next signal source needs to be controlled, exiting the display interface of the real-time content of the screen of the currently controlled signal source, returning to the first display interface, and selecting and calling the display interface of the real-time content of the screen of the signal source of the next signal source to be controlled for control processing. When the same signal source needs to be operated for the next time, the signal source continues to remain on the signal display interface of the currently operated signal source, and the first touch input is performed for the next time.

The following describes the above-disclosed method for implementing multi-signal source interactive control in detail with reference to the above description of the system for implementing multi-signal source interactive control. Referring to fig. 1 and fig. 2, a mode for implementing a single touch screen to operate multiple signal sources is disclosed, which refers to that a display interface of real-time content on a selected signal source 06 can be called to the touch screen 03 through one touch screen 03 at a time to operate the touch screen 03. Specifically, the screen display signal of the multi-channel signal source 06 is accessed through the mutual information processor 02; a first display interface is displayed on the touch screen 03, and a display signal of the first display interface is obtained from the interface terminal 01 through the interactive information processor 02; when a signal source 06 needing to be controlled on a first display interface is clicked, a signal source calling instruction is generated and sent to the interactive information processor 02, then the interactive information processor 02 outputs the real-time content of the screen of the signal source 06 input into the interactive information processor to the touch screen 03, and the called real-time content of the screen of the signal source 06 can be displayed on the touch screen 03; first touch input is performed on a display interface of real-time content of a signal source screen on the touch screen 03, first touch input information on the touch screen 03 is collected and recognized as a corresponding gesture control instruction through the touch host 04, and then the server 05 sends the gesture control instruction to a signal source 06 displayed on the touch screen 03 at present to execute corresponding operation.

In this way, although the screen display signals of multiple signal sources are accessed, only the signal of one signal source to be controlled is taken at each time; when other signal sources need to be controlled, the display interface of the real-time content of the currently operated signal source screen needs to be quitted, the display interface returns to the first display interface, and then the next signal source needing to be controlled is called. Through the control and the switching of the first display interface, the purpose of remotely controlling a plurality of signal sources by one touch screen is achieved, meanwhile, interactive control is achieved by adopting a first touch input mode, the remote control efficiency is improved, and the user operation experience is improved.

Preferably, an embodiment of the present invention further discloses another mode for implementing a single touch screen to control multiple signal sources, and referring to fig. 3, an embodiment of the present invention further discloses an implementation method for implementing multi-signal source interactive control, which includes: accessing a screen display signal of a multi-channel signal source; calling and displaying a first display interface; simultaneously selecting a plurality of signal sources to be controlled on the first display interface through a preset display scene, and generating a signal source calling instruction, wherein the display scene comprises a display terminal identifier, a plurality of signal source identifiers to be selected, a preset display region partition rule and a preset sub-region definition; calling the selected multiple signal sources according to the signal source calling instruction; selecting a display terminal according to the display terminal identifier; dividing the display area of the display terminal into a plurality of sub-areas according to preset display area partition rules and sub-area definitions, and matching the divided sub-areas for each signal source; displaying a corresponding signal source in each sub-area; performing first touch input on a plurality of subareas of the signal source signal display interface at the same time; acquiring first touch input information in each sub-area and identifying the first touch input information as a corresponding gesture control instruction according to a first touch input position; sending the gesture control instruction corresponding to each subarea to a signal source currently displayed by the subarea according to the recognition result; and receiving and displaying the control response screen display information fed back by the corresponding signal source in each sub-area.

Further, the identifying the first touch input information in the sub-area according to the first touch input position in the embodiment of the present invention includes: judging an area where the first touch input occurs according to the first touch input position; identifying a corresponding signal source according to the sub-region definition of the display scene; and converting the first touch input position information on the touch screen into actual control position information of the corresponding signal source, wherein the actual control position information is position information determined by taking the resolution of the screen area of the corresponding signal source as a coordinate system.

According to the embodiment of the invention, a plurality of signal sources to be controlled can be simultaneously selected for remote control through the preset display scene, and the on-screen display of the screen display signals of the multi-channel signal sources is realized through the division of the display area and the matching of the screen display signals of the signal sources; then, the first touch input is carried out on the plurality of sub-areas, the purpose of remotely controlling the plurality of signal sources simultaneously is achieved, the control of the signal sources is not mutually influenced, the efficiency of the remote control of the plurality of signal sources is greatly improved, and the user operation experience is improved.

Preferably, the display interface of the real-time content of the signal source screen is accessed and displayed through a high-definition video protocol; the first touch input information is collected through a USB protocol, and the gesture control command is sent to the signal source through a TCP protocol.

Compared with the prior art, when a plurality of signal sources are interactively controlled, screen display signals of the selected multi-channel signal sources are transmitted and displayed through a high-definition video protocol instead of a streaming media mode, and the screen display signals are almost not delayed; in addition, the first touch input information is collected through a USB protocol, the signal transmission speed is improved, the delay is reduced, the first touch input information is identified as a gesture control instruction and then is sent to a signal source through a local area network TCP protocol to be controlled, the content of the gesture control instruction is less, the large bandwidth is not needed, and the delay is low; therefore, the following effects are achieved: the operational experience of operating that signal source is almost indistinguishable from operating with a direct access signal source.

The following further describes the implementation method of the multi-signal source interactive control in detail with reference to the above description of the implementation system of the multi-signal source interactive control. Referring to fig. 1 and fig. 3, another implementation mode of operating multiple signal sources by using a single touch screen disclosed in the embodiment of the present invention may also refer to that a display interface of screen real-time content of a selected multiple signal source 06 can be called to the touch screen 03 by using one touch screen 03, and the signal sources 06 are simultaneously operated; in this case, the touch screen 03 needs to be reasonably divided, and the division is completed in the software of the interactive information processor 02; dividing the display area of the display terminal into a plurality of sub-areas through a preset display scene on the interactive information processor 02, as shown in fig. 5, dividing the display area of the display terminal into four sub-areas, where the display scene includes a display terminal identifier, a plurality of signal source identifiers to be selected, a preset display area partition rule and a sub-area definition, and the four sub-areas should respectively correspond to four signal sources that need to be controlled on the same screen; when a button corresponding to the display scene is clicked (second touch input) on the second display interface (shown in figure 4) of the touch screen 03, acquiring a first display interface (shown in fig. 5 or fig. 6), sending a second touch input to the interface terminal 01 through a TCP protocol via the server 05 in the form of a signal source calling instruction by the touch host 04, sending the signal source calling instruction containing scene calling information to the interactive information processor 02 via the server 05 after the interface terminal 01 completes execution, completing calling by the interactive information processor 02 to form a multi-signal-source signal on-screen display interface, that is, at this time, the signal source signal display interface is a multi-signal source signal on-screen display interface, display information of the multi-signal source signal on-screen display interface is output to the touch screen 03 through the output end of the interactive information processor 02, and at this time, four display area display states are displayed on the touch screen 03; when a certain subarea is clicked, first touch input information is collected and identified by the touch host 04 and then is sent to the signal source 06 corresponding to the subarea through the server 05, and therefore the signal source 06 is controlled; when other sub-areas on the touch screen 03 are clicked and the corresponding signal source 06 is controlled, the actions of controlling different signal sources are switched in a braking manner, the sub-area to which the coordinate belongs is judged according to the coordinate information of the click position, and all the touch operation information of the touch screen is sent to the signal source 06 corresponding to the sub-area.

To illustrate the implementation of the above method and system for implementing multi-signal source interactive control disclosed in the embodiment of the present invention, an interface scheme of a second display interface that may be adopted is shown in fig. 4, where B1-B6 are first to sixth remote control buttons, the multi-signal source signals are displayed on the same screen on the first display interface corresponding to a display scene output from the interactive information processor 02, and screen display information of a plurality of designated signal sources 06 is displayed on the touch screen 03; C1-C3 are scene switching buttons, and screen display information of the plurality of signal sources 06 is directly displayed on the other display terminals 07, but not displayed on the touch screen 03, by clicking such buttons to preset display scenes. Fig. 5 is a schematic diagram of a signal source signal display interface in a display scene where multiple signal sources are simultaneously controlled according to an embodiment of the present invention, which shows a screen division scheme where a touch screen 03 simultaneously controls multiple signal sources 06, in the screen division scheme, four sub-screens, that is, four sub-areas, are directly displayed in a display area on the touch screen 03, each sub-area corresponds to one signal source 06, and the signal sources 06 can be simultaneously controlled through the touch screen. Fig. 6 is a schematic diagram of another signal source signal display interface in a display scene of simultaneously controlling multiple signal sources according to an embodiment of the present invention, which shows another screen division scheme in which a touch screen simultaneously controls multiple signal sources.

Taking the interface layouts and scenes shown in fig. 4, 5, and 6 as examples, the implementation process of the embodiment of the present invention is described:

the display scene preset on the interworking information processor 02 is explained as follows:

a signal source (Terminal is T for short); displaying a Scene (Scene is abbreviated as S); displaying a display Area (Area is abbreviated as A) on the terminal; a remote control button (B); a scene switching button (C); touch screen Interface (Interface is abbreviated as F).

S0 ═ F1 → a0} # F1, S0 is the display scene corresponding to the interface shown in fig. 4, and a0 is the entire touch screen;

b1 → S1 ═ T1 → a1, T2 → a2, T3 → A3, T4 → a4}, and S1 is a display scene corresponding to the interface shown in fig. 5;

b2 → S2 ═ T1 → a1, T2 → a2, T3 → A3, T4 → a4, F2 → a5}, S2 is the display scene corresponding to the interface shown in fig. 6, F2 is another interface scheme on the interface terminal, and in fact, F2 is the region that includes the left first to fourth subregions a1-a4, but this region has no content; when the second display scene S2 is set on the interworking information processor 02, the scene effect shown in fig. 6 is formed by having four windows of the first through fourth sub-areas a1-a4 float above the window of the fifth sub-area a 5;

C1-C3 → S3-S4, S3-S4 are other display terminals to display scenes, and the screen of the signal source displays the scenes displayed by the information on the other display terminals.

The interface terminal 01 (which can also be understood as a signal source) displays the interface shown in fig. 4 on the second display interface of the touch screen 03; at this time, the corresponding display scene on the interactive information processor 02 is the initial display scene S0.

Clicking a first remote control button B1 on a second display interface, acquiring second touch input information in a signal source calling instruction form by a touch host 04, sending the second touch input information to a server 05, sending the second touch input information to an interface terminal 01, determining and executing an action of pressing a first remote control button B1 by the interface terminal 01 according to a touch position, converting the signal source calling instruction into scene calling information for calling a first display scene S1, sending the scene calling information to the server 05, and sending the signal source calling instruction containing the scene calling information to an interaction information processor 02 by the server 05; the mutual information processor 02 merges the screen display information of the four signal sources into the same picture (four split screens) according to the definition of the first display scene S1 and outputs the same picture to the touch screen 03, so that the display interface of the screen display information of the four signal sources defined according to the first display scene S1 can be seen on the touch screen 03.

On the multi-signal-source signal on-screen display interface of the touch screen 03, a signal source 06 is controlled, for example, a sub-area corresponding to the signal source is clicked on a second signal source T2, first touch input information is collected and recognized by the touch host 04 and then is sent to the server 05, and the server 05 sends a gesture control instruction to a second signal source T2 corresponding to the control; the first touch input information collected by the touch host 04 is position information relative to the whole touch screen, that is, a position determined by taking the whole touch screen a0 as a coordinate system; the position information of the first touch input needs to be converted into position information determined by taking the resolution of the screen area of the second signal source T2 as a coordinate system; converting the position information on the display area of the touch screen into actual touch coordinates according to the resolution of the screen area of the second signal source T2; the server 05 sends the actual touch coordinates as a part of the gesture manipulation instruction to the second signal source T2, and the client on the second signal source T2 performs a corresponding operation.

In addition, when the touch host 04 identifies the first touch input information, the first touch input information is identified according to an area where the first touch input occurs; the corresponding sub-area and the signal source 06 corresponding to the sub-area are judged according to the position of the first touch input action.

And when the touch position corresponds to the display sub-area corresponding to the other signal source, repeating the steps to complete the operation.

The operation of calling out the corresponding signal source push interface by pressing the real-time content of the corresponding signal source screen in each of the first to fourth sub-areas a1-a4 with five fingers is not affected, because the sub-area of the first touch input is determined to correspond to the signal source to be operated one by one.

When the first display interface is to be returned on the touch screen 03, a third touch input operation of "grab in five fingers" is adopted in the display area of the touch screen; the third touch input operation does not need to be performed in a certain sub-area; after the third touch input action of "grab in five fingers" is generated, the third touch input action is collected and recognized by the touch host 04 and then sent to the server 05, and the server 05 recognizes the action, so that the interactive information processor 02 is notified to call the initial display scene S0, and the first display interface is displayed on the touch screen without being aware of which sub-area the third touch input action is generated in.

Similarly, when the second remote control button B2 is clicked on the second display interface, the interactive information processor 02 outputs a frame (four split frames) obtained by fusing the screen display information of the four signal sources according to the definition of the second display scene S2 to the touch screen, and a display effect as shown in fig. 6 is formed on the touch screen 03; the principle that each signal source 06 and the display interface F2 can be operated is the same as above, and is not described herein again; as shown in fig. 6, when the first remote manipulation button B1, the third remote manipulation button B3 and the fourth remote manipulation button B4 on the display interface F2 are clicked, the display scenes corresponding to the first remote manipulation button B1, the third remote manipulation button B3 and the fourth remote manipulation button B4 are called respectively.

The control input operations can be simultaneously performed on the first to fourth signal sources T1-T4 corresponding to the first to fourth sub-areas a1-a4, the sub-areas where the respective first touch input occurs are determined, and the gesture control command corresponding to the sub-areas is recognized according to the respective first touch input operations occurring in the sub-areas; therefore, as long as the limitation of the touch performance of the touch screen 03 is not exceeded, remote control of the signal source 06 can be achieved.

In addition, the invention also provides a device for realizing the interactive control of multiple signal sources, which comprises: a processor and a memory; the memory is to store one or more program instructions; the processor is configured to execute one or more program instructions to perform the method of any of the above.

Compared with the prior art, the embodiment of the invention can carry out interactive operation on one or more signal sources on the same touch screen, has low delay of the operation process and good experience; when a plurality of signal sources are subjected to remote interactive operation at the same time, simultaneous control without mutual influence can be truly realized.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (12)

1. A method for implementing interactive control of multiple signal sources is characterized in that the method comprises the following steps:

accessing a multi-channel signal source;

calling and displaying a first display interface;

selecting at least one signal source to be controlled on a first display interface to generate a signal source calling instruction;

calling and displaying the real-time content of the selected signal source screen according to the signal source calling instruction;

performing first touch input on a display interface of the real-time content of the selected signal source screen;

acquiring first touch input information and identifying the first touch input information as a gesture control instruction of a corresponding signal source;

sending the gesture control instruction to a corresponding signal source; and

and receiving and displaying the signal source feedback information.

2. The method for implementing multi-signal source interactive control of claim 1, wherein the retrieving and displaying the first display interface comprises:

acquiring second touch input information on a second display interface and identifying the second touch input information as a command for calling a corresponding display scene, wherein a plurality of first identifications corresponding to the display scene one by one are arranged on the second display interface;

and acquiring a first display interface corresponding to the display scene by touching the first identifier.

3. The method as claimed in claim 2, wherein the first display interface and/or the second display interface is further provided with a plurality of second identifiers, and the real-time content of the corresponding signal source screen is displayed on the non-touch display terminal by touching the second identifiers.

4. The method according to claim 1, wherein the selecting at least one signal source to be manipulated on the first display interface to generate the signal source retrieving instruction comprises:

and selecting a signal source to be controlled to generate a signal source calling instruction on the first display interface each time, when a next signal source is required to be controlled, exiting the currently controlled signal source, returning to the first display interface, and selecting the next signal source to be controlled to generate the signal source calling instruction.

5. The method according to claim 1, wherein the selecting at least one signal source to be manipulated on the first display interface to generate the signal source retrieving instruction comprises:

and the first display interface is provided with a plurality of subregions which correspond to the signal sources one to one, and a plurality of signal sources needing to be controlled are simultaneously selected on the subregions on the first display interface to generate signal source calling instructions.

6. The method as claimed in claim 5, wherein the retrieving and displaying the real-time content of the selected signal source screen according to the signal source retrieving instruction comprises:

calling the selected real-time content of the signal source screen according to the signal source calling instruction;

determining a sub-region corresponding to the calling instruction according to the signal source calling instruction;

and displaying the called real-time content of the signal source screen in the corresponding sub-area.

7. The method as claimed in claim 6, wherein the acquiring the first touch input information and recognizing the first touch input information as the gesture control command corresponding to the signal source comprises:

and acquiring first touch input information in the sub-area and identifying the first touch input information as a corresponding signal source gesture control instruction according to the first touch input information.

8. The method as claimed in claim 7, wherein said receiving and displaying the signal source feedback information comprises:

judging a subarea where the first touch input occurs according to the first touch input information;

converting the first touch input information into actual control information corresponding to the signal source, wherein the actual control information is control information determined by taking the resolution of a screen area corresponding to the signal source as a coordinate system;

and receiving and displaying the signal source feedback information.

9. The method as claimed in claim 1, further comprising:

performing third touch input at any position on the first display interface;

collecting the third touch input information and identifying the third touch input information as a command for returning to a second display interface;

and recalling and displaying the second display interface.

10. A system for implementing interactive control of multiple signal sources, the system comprising: the system comprises a control terminal, an interactive information processor and a server;

the control terminal is used for displaying a second display interface and acquiring the first display interface output by the interactive information processor through touch input on the second display interface; selecting at least one signal source to be controlled on a first display interface to generate a signal source calling instruction, identifying a signal source corresponding to the signal source calling instruction by a server, and sending the signal calling instruction to the corresponding signal source; receiving and displaying the signal source feedback information;

the mutual information processor is used for accessing the multi-channel signal source; the control terminal is used for calling the first display interface according to the touch input on the second display interface, outputting the first display interface to the control terminal and sending the signal source feedback information acquired through the first touch input to the control terminal.

And the server is used for receiving the signal source calling instruction from the control terminal and sending the signal source calling instruction to the corresponding signal source.

11. A system for implementing interactive control of multiple signal sources is characterized in that the system further comprises: an interface terminal;

the interface terminal is used for providing a second display interface, a plurality of first identifications corresponding to display scenes one by one are arranged on the second display interface, and the first display interface corresponding to the display scenes is obtained through touch control of the first identifications.

12. An apparatus for implementing interactive control of multiple signal sources, the apparatus comprising: a processor and a memory;

the memory is to store one or more program instructions;

the processor, configured to execute one or more program instructions to perform the method of any of claims 1-9.

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