WO2015106496A1 - Method and apparatus for processing resource sharing - Google Patents

Abstract

Provided in the present invention are a method and apparatus for processing resource sharing, the method comprising: by means of a sharing screen method, a sharing receiver terminal shares sharing resources provided by a sharing host terminal; the sharing receiver terminal establishes with the sharing host terminal a reverse channel used for performing operations on the sharing screen; and the sharing receiver terminal performs control and processing of the sharing screen via the established return channel. The present invention resolves the problems of poor interactivity and user experience in related screen sharing technology due to control only being performed by the sharing host terminal during sharing, and enables not only screen sharing, but also effective control of sharing resources by the sharing receiver terminal, thus improving interactive sharing and user experience.

Description

TECHNICAL FIELD The present invention relates to the field of communications, and in particular to a resource sharing processing method and apparatus. BACKGROUND With the rapid popularization of smart phones, users are increasingly interacting with mobile phones and mobile phones, mobile phones and tablets, and mobile phones and televisions. In order to meet the needs of users to quickly transfer video, pictures, and games between different devices, Wireless audio and video technology came into being, allowing users to browse the photos taken by the smart phone on the big screen TV, share the mobile phone screen in real time through the conference room projector, or share the mobile phone screen on the tablet. However, in the related art, when the screen sharing technology is shared, the only control is to share the host side, so there is a problem that the sharing interaction is not strong and the user experience is not high. SUMMARY OF THE INVENTION The present invention provides a resource sharing processing method and apparatus. When at least the related technology screen sharing technology is used for sharing, the only control is to share the host, so there is a problem that the sharing interaction is not strong and the user experience is not high. . According to an aspect of the present invention, a resource sharing processing method is provided, including: sharing a receiving end sharing a shared resource provided by a shared host in a screen sharing manner; and establishing, by the shared receiving end, with the shared host end a return channel that operates on the shared screen; the shared receiving end performs control processing on the shared screen according to the established return channel. Preferably, after the shared receiving end shares the shared resource provided by the shared host in a screen sharing manner, the method further includes: sending, by the shared receiving end, downloading and downloading the shared resource to the shared host The request is: downloading the shared resource from the shared host end after receiving the response to the download sent by the shared host. Preferably, the sharing receiving end performs control processing on the shared screen according to the established return channel: the sharing receiving end sends an operation command for controlling the shared screen to the shared host end. The shared receiving end receives the shared resource after the shared host side operates the shared resource according to the operation command. According to another aspect of the present invention, a resource sharing processing method is provided, including: sharing a host to share a shared resource to a shared receiving end in a screen sharing manner; and establishing, between the shared host and the shared receiving end, a return channel that operates on the shared screen; the shared host performs control processing on the shared screen by the shared receiving end according to the established return channel. Preferably, after the sharing of the shared resource to the shared receiving end in the screen sharing manner, the method further includes: the sharing host receiving the downloading of the shared resource sent by the shared receiving end The shared host provides the shared resource for downloading by the shared receiving end according to the download request. Preferably, the performing, by the shared host, the control processing performed by the shared receiving end on the shared screen according to the established backhaul channel, includes: the shared host end receiving, by the shared receiving end, a An operation command for controlling the shared screen to be controlled; the shared host side shares the shared resource after the operation of the shared resource according to the operation command to the shared receiving end. Preferably, the shared host is triggered to share the shared resource to the shared receiving end in a screen sharing manner by at least one of: by detecting a manner of a button press operation for triggering a start sharing operation, Triggering the shared host to share the shared resource to the shared receiving end in a screen sharing manner; triggering the shared host to screen by sensing a manner in which a terminal acceleration for triggering a start sharing operation exceeds a predetermined threshold Sharing the shared resource to the shared receiving end; triggering, by means of the near field communication FC, the sharing host to share the shared resource to the shared receiving end in a screen sharing manner; In a manner, the shared host is triggered to share the shared resource to the shared receiving end in a screen sharing manner. According to another aspect of the present invention, a resource sharing processing apparatus is provided, which is located at a shared receiving end, and includes: a first sharing module configured to share a shared resource provided by a shared host by sharing a screen; And being configured to establish a return channel for operating the shared screen with the shared host end; and the first processing module is configured to perform control processing on the shared screen according to the established return channel. Preferably, the device further includes: a sending module, configured to send a download request for downloading the shared resource to the shared host; and a downloading module, configured to: after receiving the response of the shared download sent by the shared host, Downloading the shared resource from the shared host. Preferably, the first processing module includes: a sending unit, configured to send an operation command for controlling the shared screen to the shared host end; the first receiving unit is configured to receive the shared host end according to The operation command is a shared resource after the operation of the shared resource. According to still another aspect of the present invention, a resource sharing processing apparatus is provided, located at a shared host, and includes: a second sharing module configured to share a shared resource to a shared receiving end in a screen sharing manner; a second establishing module, setting a second processing module is configured to perform the shared receiving end on the shared screen according to the established return channel, in order to establish a return channel for operating the shared screen with the shared receiving end; Control processing performed. Preferably, the device further includes: a receiving module, configured to receive a download request sent by the shared receiving end to download the shared resource; and a providing module, configured to provide the shared resource for the shared receiving according to the download request Download. Preferably, the second processing module includes: a second receiving unit, configured to receive an operation command sent by the shared receiving end for controlling the shared screen; and a sharing unit, configured to be to the shared receiving end Sharing the shared resource after the operation of the shared resource according to the operation command. Preferably, the device further includes a triggering module, configured to trigger the shared host to share the shared resource to the shared receiving end in a screen sharing manner by at least one of: by detecting that the sharing is triggered for triggering The operation of the button press operation, triggering the shared host to share the shared resource to the shared receiving end in a screen sharing manner; by sensing the manner in which the terminal acceleration for triggering the start sharing operation exceeds a predetermined threshold And triggering the shared host to share the shared resource to the shared receiving end in a screen sharing manner; triggering, by the near field communication FC, the sharing host to share the shared receiving end in a screen sharing manner The shared resource is triggered by the screen contact to share the shared resource to the shared receiving end in a screen sharing manner. With the present invention, the shared receiving end is used to share the shared resources provided by the shared host in a screen sharing manner; the shared receiving end establishes a return channel for operating the shared screen with the shared host; The shared receiving end performs control processing on the shared screen according to the established return channel, and solves the problem that when the related technology screen sharing technology is shared, only the shared host end is realized, and thus the sharing interaction is not strong. The user experience is not high, and thus the screen sharing can be realized, and the shared receiving end can also effectively control the shared resources, improve the sharing interaction effect, and the effect of the user experience. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are set to illustrate,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, In the drawings: FIG. 1 is a flowchart of a method 1 for resource sharing processing according to an embodiment of the present invention; 2 is a flowchart of a resource sharing processing method 2 according to an embodiment of the present invention; FIG. 3 is a structural block diagram of a resource sharing processing apparatus 1 according to an embodiment of the present invention; FIG. 4 is a resource sharing processing apparatus according to an embodiment of the present invention. FIG. 5 is a block diagram showing a preferred structure of the first processing module 36 in the resource sharing processing apparatus 1 according to an embodiment of the present invention; FIG. 6 is a structural block diagram of the resource sharing processing apparatus 2 according to an embodiment of the present invention; FIG. 8 is a block diagram showing a preferred structure of a resource sharing processing device 2 according to an embodiment of the present invention; FIG. 8 is a block diagram showing a preferred configuration of a second processing module 66 in a resource sharing processing device 2 according to an embodiment of the present invention; FIG. 10 is a flowchart of a multi-screen sharing overall control processing method according to a preferred embodiment of the present invention; FIG. 11 is a user backhaul control host method according to a preferred embodiment of the present invention; Flow chart. BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the embodiments in the present application and the features in the embodiments may be combined with each other without conflict. In this embodiment, a resource sharing processing method is provided. FIG. 1 is a flowchart of a resource sharing processing method according to an embodiment of the present invention. As shown in FIG. 1, the process includes the following steps: Step S102: Sharing a receiving end Sharing the shared resources provided by the shared host in a screen sharing manner; Step S104: The shared receiving end establishes a return channel for operating the shared screen between the shared host and the shared host; and step S106, the shared receiving end is based on the established backhaul The channel performs control processing on the shared screen. Through the above steps, from the shared receiving end, the shared receiving end operates on the shared screen through the return channel for operating the shared screen, and is shared by the shared host end only when sharing the screen in the related art. The screen operates, and the shared receiving end can only passively share the shared screen, resulting in shared interaction. The problem of low sexuality, through the above scheme, effectively realizes that not only the shared host can directly control the shared screen, but also the shared receiving end can operate on the shared screen, thereby greatly improving the interactiveness of the screen sharing. To some extent, the user experience has been effectively improved. Preferably, after the shared receiving end shares the shared resources provided by the shared host in a screen sharing manner, the shared receiving end may also actively request the shared host to transfer the required resources, that is, download the corresponding resources from the shared host. For example, the following processing may be adopted: the shared receiving end sends a download request for downloading the shared resource to the shared host end; after receiving the response to the download sent by the shared host, downloading the shared resource from the shared host. Through such processing, the shared function is effectively expanded, and the shared resources are efficiently improved. When the shared receiving end performs control processing on the shared screen according to the established return channel, a plurality of processing manners may be adopted. For example, the following processing manner may be adopted: The shared receiving end sends the shared screen to the shared host end for sharing the screen. After the shared host performs the corresponding operation on the shared resource according to the operation command, the shared receiving end receives the shared resource after the shared host performs the operation on the shared resource according to the operation command. The control operation of the shared receiving end on the shared screen is realized by transmitting an operation command to the shared host. Of course, other control processing methods can also be used, and are not enumerated here. In this embodiment, a resource sharing processing method is also provided. FIG. 2 is a flowchart of a resource sharing processing method 2 according to an embodiment of the present invention. As shown in FIG. 2, the process includes the following steps: Step S202: Sharing The host side shares the shared resource with the shared receiving end in a screen sharing manner; Step S204: The shared host end establishes a return channel for operating the shared screen between the shared receiving end and the shared receiving end; Step S206, the shared host end is established according to the established The return channel performs control processing on the shared screen by the shared receiving end. Through the above steps, from the shared host side, the shared receiving end operates on the shared screen through the return channel for operating the shared screen, and is shared only by the shared host end when sharing the screen in the related art. The operation of the screen, the shared receiving end can only passively share the shared screen, resulting in the problem of low sharing of interaction. Through the above scheme, the sharing operation can be effectively realized not only by the shared host but also by the shared host. The receiving end can also operate on the shared screen, which greatly improves the interactiveness of the screen sharing, and effectively improves the user experience to a certain extent. Similarly, after the shared host provides shared resources to the shared receiving end in a screen sharing manner, the method further includes: the shared host receives the download request of the download shared resource sent by the shared receiving end; the shared host provides the shared resource according to the download request. Shared receiver download. Preferably, the shared host performs control processing on the shared screen by the shared receiving end according to the established return channel. The operation corresponding to the shared receiving end may be adopted. For example, the following processing may be adopted: the shared host receives the shared receiving end and sends the same. An operation command for controlling the shared screen; the shared host side shares the shared resource after the shared resource is operated according to the operation command to the shared receiving end. Preferably, the method for triggering the shared host to share the shared resource to the shared receiving end in a screen sharing manner may be performed in multiple manners. For example, at least one of the following manners may be triggered to trigger the shared host to share the shared receiving end in a screen sharing manner. Shared resource: triggers the shared host to share the shared resource to the shared receiving end in a screen sharing manner by detecting a button press operation for triggering the start sharing operation; by sensing the terminal acceleration for triggering the start sharing operation If the predetermined threshold is exceeded, the shared host is triggered to share the shared resource to the shared receiving end in a screen sharing manner; the near-field communication FC is used to trigger the shared host to share the shared resource to the shared receiving end in a screen sharing manner; In the manner of contact, the shared host is triggered to share the shared resources to the shared receiving end in a screen sharing manner. It should be noted that the manner of triggering is not enumerated here. In this embodiment, a resource sharing processing device is also provided, which is used to implement the foregoing embodiments and preferred embodiments, and has not been described again. As used hereinafter, the term "module" may implement a combination of software and/or hardware of a predetermined function. Although the apparatus described in the following embodiments is preferably implemented in software, hardware, or a combination of software and hardware, is also possible and conceivable. FIG. 3 is a structural block diagram of a resource sharing processing apparatus 1 according to an embodiment of the present invention. As shown in FIG. 3, the apparatus is located at a shared receiving end, and includes a first sharing module 32, a first establishing module 34, and a first processing module 36. The device will be described below. The first sharing module 32 is configured to share the shared resources provided by the shared host in a screen sharing manner; the first establishing module 34 is connected to the first sharing module 32, and is configured to establish and share with the shared host. The first processing module 36 is connected to the first establishing module 34, and is configured to perform control processing on the shared screen according to the established return channel. 4 is a block diagram of a preferred structure of a resource sharing processing apparatus according to an embodiment of the present invention. As shown in FIG. 4, the apparatus includes a transmitting module 42 and a downloading module 44, in addition to all the modules shown in FIG. This preferred structure will be described. The sending module 42 is connected to the first sharing module 32, and is configured to send a download request for downloading the shared resource to the shared host. The downloading module 44 is connected to the sending module 42 and configured to receive the downloading sent by the shared host. After the response, download the shared resource from the shared host. FIG. 5 is a block diagram showing a preferred structure of the first processing module 36 in the resource sharing processing apparatus 1 according to the embodiment of the present invention. As shown in FIG. 5, the first processing module 36 includes a sending unit 52 and a first receiving unit 54, below. The first processing module 36 will be described. The sending unit 52 is configured to send an operation command for controlling the shared screen to the shared host. The first receiving unit 54 is connected to the sending unit 52, and is configured to receive the shared host according to the operation command. Shared resources. FIG. 6 is a structural block diagram of a resource sharing processing apparatus 2 according to an embodiment of the present invention. As shown in FIG. 6, the apparatus is located at a shared host, and includes a second sharing module 62, a second establishing module 64, and a second processing module 66. The device will be described below. The second sharing module 62 is configured to share the shared resource to the shared receiving end in a screen sharing manner; the second establishing module 64 is connected to the second sharing module 62, and is configured to establish a shared screen with the shared receiving end. The returning channel is operated. The second processing module 66 is connected to the second establishing module 64, and is configured to perform control processing on the shared screen by the shared receiving end according to the established return channel. FIG. 7 is a block diagram of a preferred structure of a resource sharing processing apparatus 2 according to an embodiment of the present invention. As shown in FIG. 7, the apparatus includes a receiving module 72 and a providing module 74, in addition to all the modules shown in FIG. The device will be described. The receiving module 72 is connected to the second sharing module 62, and is configured to receive a download request for downloading the shared resource sent by the shared receiving end. The providing module 74 is connected to the receiving module 72, and configured to provide the shared resource for sharing and receiving according to the download request. Download. FIG. 8 is a block diagram showing a preferred structure of a second processing module 66 in a resource sharing processing apparatus 2 according to an embodiment of the present invention. As shown in FIG. 8, the second processing module 66 includes a second receiving unit 82 and a sharing unit 84. The second processing module 66 will be described. The second receiving unit 82 is configured to receive an operation command sent by the shared receiving end for controlling the shared screen. The sharing unit 84 is connected to the second receiving unit 82, and is configured to share with the shared receiving end according to the operation command. A shared resource after the resource has been manipulated. FIG. 9 is a block diagram of a preferred structure of a resource sharing processing apparatus 2 according to an embodiment of the present invention. As shown in FIG. 9, the apparatus includes a triggering module 92, in addition to all the modules shown in FIG. The trigger module 92 is described. The triggering module 92 is connected to the second sharing module 62, and is configured to trigger the shared host to share the shared resource to the shared receiving end in a screen sharing manner by at least one of the following: by detecting a button for triggering the start sharing operation Pressing the operation mode, triggering the shared host to share the shared resource to the shared receiving end in a screen sharing manner; triggering the shared host to share the screen by sensing that the terminal acceleration for triggering the start sharing operation exceeds a predetermined threshold The method shares the shared resources with the shared receiving end; triggers the shared host to share the shared resources to the shared receiving end by means of the near field communication FC; and triggers the shared host to share the screen by means of screen contact. The shared receiving shared shared resources. The screen sharing technology is mainly based on the wireless audio and video transmission architecture. It can perform 1080P video streaming between mobile phones, tablets and TVs. It can also be used with 5.1CH multi-channel audio transmission. It has a fast wireless audio and video transmission architecture and is easy to operate. Supporting mainstream video and audio quality requirements, etc., can realize device sharing, video sharing, and screen sharing functions through device discovery, pairing, and online processes without WIFI AP. Currently, many mainstream mobile phones support this function, for example: Nexus 4, Galaxy S3/S4/Note 2 Sony Xperia Z/ZL/T/V, etc. In the present embodiment, a solution for quickly sharing screens and operation controls between media devices such as mobile phones, TVs, and tablets is provided in the present embodiment. The solution includes the following processes:

A. Device discovery: The host and receiving device use WIFI P2P to find nearby devices that support screen sharing.

B. The host initiates a shared pairing: After the host discovers the receiving device, the host prompts the user to let the user choose whether to pair with the receiving device according to the need. Once the pairing is successful, the host can initiate screen and share operations at any time.

C. Select the content to share: The host can share the following content to the receiving device: The application, for example, can include local applications such as games, libraries, video players, browsers, etc.; pictures, the host can select single or multiple pictures Sharing to the receiving device; video, the host can select one or more videos to share to the receiving device; music, the host can select one or more audios to share to the receiving device.

D. The host initiates a screen sharing operation: The host initiates a sharing operation in the following manners. After the host selects the programs and resources to be shared, the sharing operation is performed, and the sharing operation can be performed in various ways. For example, the sliding screen processing mode can be used to provide the virtual button for the model with the virtual button. Gestures for sharing features, such as swiping from left to right is to turn on sharing, swiping from right to left is to turn off sharing. For another example, by providing a processing method of shaking the host switch sharing function, after the host selects the program and resources to be shared, the host can be turned on to open the sharing function of the slave (ie, the receiving device) with vibration. After the host selects the program and resources to be shared, the host and the receiving device can quickly share the program and resources to the receiving device through FC contact. After the host selects the programs and resources to be shared, the host and the receiving device can quickly share the programs and resources to the receiving device through the Hotknot technology.

E. The receiving device can control the device to browse content such as shared video pictures or operate the shared application. For example, the following processing may be included: The receiving device may operate on the shared application. The receiving device can perform volume adjustment, fast forward, rewind, pause, zoom, and maximize operations on the shared video and audio. The receiving device can also initiate a request to the host to transfer the file to the local machine. The receiving device can browse, enlarge, and reduce the request to transfer the file to the local device.

F. The host can monitor the receiving device in real time. G. The host can disconnect the entire shared connection. Through the sharing operation implemented by the host to the receiving device, not only can the screen sharing be realized, but also the receiving device can perform remote operation sharing on the screen of the main device. Compared with the related art, the main device can only share the screen of the main device in real time, and the main device in the solution can cut the shared application to the background while sharing. In addition, the receiving device can also actively request the host device to transmit audio, video, pictures, applications and other files. And the process of establishing sharing is more diverse, and can be paired by gestures, touches, electromagnetic induction, and the like. The following description is made in conjunction with the preferred embodiments of the invention. In a preferred embodiment of the present invention, a multi-screen sharing overall control processing scheme is provided. FIG. 10 is a flowchart of a multi-screen sharing overall control processing method according to a preferred embodiment of the present invention. The shared overall control processing method includes the following steps: Step S1002: The device searches, that is, the host and the receiving device turn on the WIFI, and the host starts the SmartShare (smart sharing host application) program, and the receiving device starts the Share (Sink-end application) program, and broadcasts the program to the external device. a Sink end device; In step S1004, the host confirms the device type by the host user, that is, the host enters the sharing mode selection interface, and the user can select the TV mode and the mobile mode. If the TV mode is selected, the host immediately searches for the surrounding WIFI P2P receiving device. If it is found, it directly enters the shared content selection interface. If the mobile mode is selected, the process proceeds to step S1006. In step S1006, the host and the receiving end (ie, the receiving device) establish WIFI P2P. Link, ie the host through WIFI

The P2P link searches for the surrounding Sink device that starts the Share application; Step S1008, if the available Sink device is found, the agreement is made with the audio, video, resolution, and channel parameters; Step S1010, after the agreement with the receiving end, After the parameter is entered, the host enters the shared content selection interface for the host user to select the shared content, for example, selecting a local video file in the content selection interface. In step S1012, the host establishes a Real Time Streaming Protocol (RTSP) to the receiving end. The transmission link request is sent; in step S1014, the receiving end returns an RTSP link success response to the host; in step S1016, the host initiates an RTSP play request to the receiving end; in step S1018, the receiving end returns an RTSP playback response to the host; and in step S1020, the host locally Video is packaged into streaming media format for sharing via RTSP transmission link to receive

In step S1022, the receiving device driver module scans the user's touch event, and receives the control device user's control playback operation. For example, the receiving device user clicks the "pause" button, and the receiving terminal drives the scan to the user to click the "pause" button and The event instruction is packaged into a data format for the wireless transfer protocol. In step S1024, the receiving end sends a request for establishing a user control return channel to the host, that is, the receiving end starts to initiate a request for establishing a dedicated channel for user control; and in step S1026, the host sends the request to the receiving end. The user controls the return channel response, that is, the host receives the user control channel transmission request from the receiving end, and allows the user control channel to be established; in step S1028, the host and the receiving end perform TP control signaling signal transmission; Step S1030, the host and the receiving end perform audio and video playback pause, fast forward, volume adjustment and the like, and the host receives the "suspend" button event command packet of the receiving end as an example for description: the host wireless transmission protocol module parses the "pause" button event. The instruction package, the host driver module executes a "pause" button event, the video player application receives a "pause" event of the driver module to perform a pause operation, and the host feedbacks the successful execution result of the button event instruction to the receiving device; step S1032, the receiving end receives Receiving a request download operation by the receiving end user; Step S1034: The receiving end initiates a request download to the host; Step S1036, the host receives a command that the host user allows downloading; Step S1038, the host allows downloading, and transmits the request data, that is, transmits the audio through WIFI Direct Step S1040: The receiving end downloads the completion data, and saves the data to the local storage path. Step S1042: The host receives the command of the host user to disconnect the shared link. Step S1044, the receiving end receives the receiving end user exiting. Sharing degree operation; step S1046, main And receiving demolition shared link, share link is broken. Based on the above-mentioned multi-screen sharing overall control processing scheme, in the embodiment, the process of the user backhauling the control host is described by taking the pause operation of the shared application by the receiving end user as an example, and FIG. 11 is a preferred embodiment according to the present invention. The flow chart of the user return control host method, as shown in FIG. 11, the method includes the following steps:

 Less S1102, the receiving end receives the operation of the receiving end user to pause;

 Less S1104, the driver module at the receiving end scans to the pause event and packs it into a wireless data packet;

 Less S1106, the receiving end sends a request to establish a user control return channel to the host;

 Less S1108, the host sends a response to the receiving end to allow the establishment of the backhaul control channel;

 Less S1110, the receiving end sends a wireless data packet to the host for the pause event;

 Less S1112, the wireless protocol module receives and parses the pause event packet;

Less S1114, the drive module performs a "pause" button operation; Step S1116, the host sends a video player application to the receiving end to receive the driving instruction and performs a pause operation; in step S1118, the host sends a user control return instruction execution success feedback to the receiving end; in step S1120, the driving module continues to scan the user key operation. Obviously, those skilled in the art should understand that the above modules or steps of the present invention can be implemented by a general-purpose computing device, which can be concentrated on a single computing device or distributed over a network composed of multiple computing devices. Alternatively, they may be implemented by program code executable by the computing device, such that they may be stored in the storage device by the computing device and, in some cases, may be different from the order herein. The steps shown or described are performed, or they are separately fabricated into individual integrated circuit modules, or a plurality of modules or steps are fabricated as a single integrated circuit module. Thus, the invention is not limited to any specific combination of hardware and software. The above are only the preferred embodiments of the present invention, and are not intended to limit the present invention, and various modifications and changes can be made to the present invention. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and scope of the present invention are intended to be included within the scope of the present invention. INDUSTRIAL APPLICABILITY As described above, a resource sharing processing method and apparatus provided by an embodiment of the present invention have the following beneficial effects: When the related technology screen sharing technology is shared, only the shared host end is realized, and thus there is a shared interaction. The problem is not strong, the user experience is not high, and thus the screen sharing can be realized, and the shared receiving end can also effectively control the shared resources, improve the sharing interaction effect, and the effect of the user experience.

Claims

Claim

A resource sharing processing method, comprising: sharing a receiving end to share a shared resource provided by a shared host in a screen sharing manner; and establishing, between the shared receiving end and the shared host end, for sharing the shared screen An operation of the return channel; the shared receiving end performs control processing on the shared screen according to the established return channel.

The method according to claim 1, wherein after the shared receiving end shares the shared resource provided by the shared host in a screen sharing manner, the method further includes: the sharing receiving end to the sharing The host sends a download request for downloading the shared resource; after receiving the response to the download sent by the shared host, downloading the shared resource from the shared host.

3. The method according to claim 1, wherein the controlling the receiving end to perform the control processing on the shared screen according to the established return channel comprises:

 The shared receiving end sends an operation command for controlling the shared screen to the shared host end;

 The shared receiving end receives the shared resource after the shared host side operates the shared resource according to the operation command.

A resource sharing processing method, comprising: sharing a shared resource to a shared receiving end in a screen sharing manner; and establishing, by the shared host end, an operation between the shared receiving end and the shared receiving end Return channel

 The shared host performs control processing on the shared screen by the shared receiving end according to the established backhaul channel.

The method of claim 4, after the sharing of the shared resource to the shared receiving end in a screen sharing manner, the method further includes:

Receiving, by the shared host, a download request sent by the shared receiving end to download the shared resource; The shared host provides the shared resource for downloading by the shared receiving end according to the download request.

The method according to claim 4, wherein the performing, by the shared host, the control processing performed by the shared receiving end on the shared screen according to the established backhaul channel comprises:

 The shared host end receives an operation command sent by the shared receiving end to control the shared screen;

 The shared host side shares the shared resource after the shared resource is operated according to the operation command to the shared receiving end.

The method according to claim 4, wherein the shared host is triggered to share the shared resource to the shared receiving end in a screen sharing manner by at least one of the following manners:

 The shared host is triggered to share the shared resource to the shared receiving end in a screen sharing manner by detecting a button press operation for triggering a start sharing operation;

 The shared resource is triggered to share the shared resource to the shared receiving end in a screen sharing manner by sensing the terminal acceleration for triggering the start sharing operation to exceed a predetermined threshold; Trimming the shared host to share the shared resource to the shared receiving end in a screen sharing manner;

 The shared host is triggered to share the shared resource to the shared receiving end in a screen sharing manner by way of screen contact.

A resource sharing processing device, located at the shared receiving end, comprising: a first sharing module configured to share a shared resource provided by the shared host by sharing the screen; a first establishing module, configured to establish and share the shared host a return channel between the terminals for operating the shared screen;

 The first processing module is configured to perform control processing on the shared screen according to the established return channel.

The device according to claim 8, further comprising: a sending module, configured to send a download request for downloading the shared resource to the shared host; and a downloading module, configured to receive the shared host After the sent response to the download is sent, the shared resource is downloaded from the shared host.

The device according to claim 8, wherein the first processing module comprises: a sending unit, configured to send an operation command for controlling the shared screen to the shared host end;

 The first receiving unit is configured to receive the shared resource after the shared host side operates the shared resource according to the operation command.

A resource sharing processing device, located at the shared host, includes: a second sharing module, configured to share the shared resource to the shared receiving end in a screen sharing manner; and a second establishing module, configured to establish and share the receiving end a return channel for operating the shared screen;

 And a second processing module, configured to perform control processing performed by the shared receiving end on the shared screen according to the established return channel.

The device according to claim 11, further comprising: a receiving module, configured to receive a download request sent by the shared receiving end to download the shared resource;

 And providing a module, configured to provide the shared resource for downloading by the shared receiving end according to the download request.

The device according to claim 11, wherein the second processing module comprises: a second receiving unit, configured to receive an operation command for controlling the shared screen sent by the shared receiving end;

 The sharing unit is configured to share the shared resource after the shared resource is operated according to the operation command to the shared receiving end.

The device according to claim 11, further comprising a triggering module, configured to trigger the shared host to share the shared resource to the shared receiving end in a screen sharing manner by at least one of the following manners:

 The shared host is triggered to share the shared resource to the shared receiving end in a screen sharing manner by detecting a button press operation for triggering a start sharing operation;

The shared host is triggered to share the shared resource to the shared receiving end in a screen sharing manner by sensing a manner in which a terminal acceleration for triggering a start sharing operation exceeds a predetermined threshold; The shared host is triggered to share the shared resource to the shared receiving end in a screen sharing manner by means of a near field communication FC;

 The shared host is triggered to share the shared resource to the shared receiving end in a screen sharing manner by way of screen contact.