CN114930279A - Cooperative operation method, device, terminal and storage medium - Google Patents

Abstract

The embodiment of the application provides a cooperative operation method, a cooperative operation device, a terminal and a storage medium, wherein the cooperative operation method comprises the following steps: displaying a first collaboration interface containing first data of each remote terminal and second data of the local terminal; adding the local terminal into the first group, and converting the first collaborative interface into a third collaborative interface, wherein the third collaborative interface is a collaborative interface corresponding to the first group; displaying the first whiteboard interface in the third collaboration interface; displaying a first writing track in a first whiteboard interface; sending the first writing track to a remote terminal in the first group, so that the remote terminal displays the first writing track in a second whiteboard interface; receiving a second writing track sent by a remote terminal in the first group; displaying the second writing track in the first whiteboard interface. By adopting the method, the technical problems that the process of sharing the written content is complex and the written content can only be shared facing all participants in a network conference scene in some technologies can be solved.

Description

Cooperative operation method, device, terminal and storage medium Technical Field

The embodiment of the application relates to the technical field of network conferences, in particular to a cooperative operation method, a cooperative operation device, a terminal and a storage medium.

Background

The network conference refers to a conference in which people located at two or more places realize conversation through communication equipment and a network. With the development of internet technology, video conferencing has become a common network conferencing method. Under the existing video conference scene, the conference participants can share the video pictures of the conference participants and can also share the desktop pictures of the conference participants. In the process of implementing the present application, the inventors found that some technologies have the following defects: when the participants need to write and share content, the interface of the video conference needs to be switched to the background to run, the related writing application program is started in the desktop to write, and after the writing is finished, the front desk runs the interface of the video conference and shares the desktop picture of the front desk, so that the writing content of the writing application program in the shared desktop picture is realized, the complexity of the shared writing content is greatly increased, and the conference efficiency of the video conference is reduced. In addition, in the sharing process, some participants do not need to receive the shared written content, but in some technologies, the written content can only be shared to all participants in the video conference, and at this time, the participants who do not receive the shared written content need to leave the video conference or recreate the video conference without the participants, so that the conference experience of the participants is very poor.

In summary, how to make the process of sharing the written content simpler and only share the written content with some participants in the network conference scene becomes a technical problem that needs to be solved urgently.

Disclosure of Invention

The embodiment of the application provides a cooperative operation method, a cooperative operation device, a terminal and a storage medium, and aims to solve the technical problems that in some technologies, the process of sharing written contents under a network conference scene is complex and sharing can only be performed facing all participants.

In a first aspect, an embodiment of the present application provides a cooperative operation method, including:

displaying a first collaboration interface, wherein first data of each remote terminal participating in collaboration and second data of a local terminal are displayed in the first collaboration interface, a second collaboration interface is displayed in each remote terminal, and the first data and the second data respectively comprise at least one of video picture data, audio data and identification data;

receiving a first grouping instruction, wherein the first grouping instruction is used for indicating a local terminal to join a first group; the first group comprises the local terminal and at least one allopatric terminal;

in response to the first grouping instruction, transforming the first collaboration interface into a third collaboration interface, where the third collaboration interface displays the second data, a shared whiteboard control, and first data of each remote terminal in the first group, and each remote terminal in the first group transforms the second collaboration interface into a fourth collaboration interface;

receiving a first control operation acting on the shared whiteboard control;

responding to the first control operation, displaying a first whiteboard interface in the third cooperative interface, and instructing allopatric terminals in the first group to display a second whiteboard interface in the fourth cooperative interface;

receiving a second control operation acting on the first whiteboard interface;

responding to the second control operation, and displaying a corresponding first writing track in the first whiteboard interface;

sending the first writing track to a remote terminal in the first group, so that the remote terminal displays the first writing track in the second whiteboard interface;

receiving a second writing track sent by a different-place terminal in the first group, wherein the second writing track is displayed in a second whiteboard interface corresponding to the different-place terminal;

displaying the second writing trajectory in the first whiteboard interface.

In a second aspect, an embodiment of the present application further provides a cooperative apparatus, including:

the system comprises a first display module, a first collaboration interface and a second display module, wherein the first collaboration interface displays first data of each remote terminal participating in collaboration and second data of a local terminal, a second collaboration interface is displayed in each remote terminal, and the first data and the second data respectively comprise at least one of video image data, audio data and identity data;

a first receiving module, configured to receive a first grouping instruction, where the first grouping instruction is used to instruct a local terminal to join a first group, and the first group includes the local terminal and at least one remote terminal;

a second display module, configured to respond to the first grouping instruction, convert the first collaboration interface into a third collaboration interface, where the third collaboration interface displays the second data, the shared whiteboard control, and first data of each remote terminal in the first group, and each remote terminal in the first group converts the second collaboration interface into a fourth collaboration interface;

the second receiving module is used for receiving a first control operation acting on the shared whiteboard control;

a third display module, configured to display a first whiteboard interface in the third collaborative interface in response to the first control operation, and instruct a remote terminal in the first group to display a second whiteboard interface in the fourth collaborative interface;

a third receiving module, configured to receive a second control operation that acts on the first whiteboard interface;

the fourth display module is used for responding to the second control operation and displaying a corresponding first writing track in the first whiteboard interface;

the first sharing module is used for sending the first writing track to the remote terminals in the first group so that the remote terminals display the first writing track in the second whiteboard interface;

a fourth receiving module, configured to receive a second writing track sent by a different-place terminal in the first group, where the second writing track is displayed in a second whiteboard interface corresponding to the different-place terminal;

and the fifth display module is used for displaying the second writing track in the first whiteboard interface.

In a third aspect, an embodiment of the present application further provides a cooperative operation terminal, including:

the display screen is used for displaying the first collaboration interface;

one or more processors;

a memory for storing one or more programs;

when the one or more programs are executed by the one or more processors, the one or more processors are caused to implement the co-operating method as described in the first aspect.

In a fourth aspect, the present application further provides a computer-readable storage medium, on which a computer program is stored, where the computer program is executed by a processor to implement the cooperative operation method according to the first aspect.

The cooperative operation method, the device, the terminal and the storage medium display a first cooperative interface containing first data of each remote terminal and second data of the local terminal, then add the local terminal into a first group according to a received first grouping instruction, change the first cooperative interface into a third cooperative interface, and simultaneously change a second cooperative interface of the remote terminal in the first group into a fourth cooperative interface, wherein a shared whiteboard control is displayed in the third cooperative interface, when a first control operation acting on the shared whiteboard control is received, the first whiteboard interface is displayed in the third cooperative interface, and the remote terminal in the first group is instructed to display a second whiteboard interface in the fourth cooperative interface, and then a corresponding first writing track is displayed in the first whiteboard interface according to a second control operation acting on the first whiteboard interface, and the first writing track is sent to the remote terminal in the first group, so that the remote terminal displays the first writing track in a second whiteboard interface in real time, and meanwhile, the technical means of receiving the second writing track sent by the remote terminal in the first group and displaying the second writing track in the local first whiteboard interface can solve the technical problems that in some technologies, the process of sharing writing content under a network conference scene is complex and only all participants can be shared. By adding the local terminal into the first group, group discussion in the cooperative process can be realized, and the applicable scene of cooperative operation is enlarged, such as the scene needing group discussion in a conference, a teaching meeting, a competition and the like. The control for starting the shared whiteboard function is displayed in the third collaborative interface, the electronic whiteboard function is quickly started in the third collaborative interface in a mode of calling an electronic whiteboard application program, and the shared whiteboard function only in the group is realized in a mode of carrying out data communication with the remote terminal in the first group without quitting the third collaborative interface, so that the starting process is simplified, the collaborative efficiency is ensured, and the use experience of the participators is improved. And after the first whiteboard interface and the second whiteboard interface are started, the local first writing track is shared, and the second writing track of the terminal at different places in the first group can be shared, namely, the writing track sharing in the group in the collaborative process is realized, so that the whiteboard sharing function is further enriched, the whiteboard sharing process is simplified, and the collaborative experience is improved.

Drawings

Fig. 1 is a flowchart of a cooperative operation method according to an embodiment of the present application;

FIG. 2 is a flow chart of a method of collaborative operation according to another embodiment of the present application;

FIG. 3 is a schematic diagram of a collaboration interface provided by an embodiment of the present application;

FIG. 4 is a schematic illustration of another collaboration interface provided by an embodiment of the present application;

FIG. 5 is a schematic illustration of yet another collaboration interface provided by an embodiment of the present application;

FIG. 6 is a flow chart of a method of collaborative operation according to yet another embodiment of the present application;

FIG. 7 is a schematic illustration of yet another collaboration interface provided in accordance with an embodiment of the present application;

FIG. 8 is a schematic structural diagram of a cooperative apparatus according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of a cooperative operation terminal according to an embodiment of the present application.

Detailed Description

The present application will be described in detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are for purposes of illustration and not limitation. It should be further noted that, for the convenience of description, only some of the structures related to the present application are shown in the drawings, not all of the structures.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action or object from another entity or action or object without necessarily requiring or implying any actual such relationship or order between such entities or actions or objects. For example, "first" and "second" of the first control operation and the second control operation are used to distinguish two different control operations.

The cooperative operation method provided in the embodiment of the present application may be executed by a cooperative operation terminal, where the cooperative operation terminal may be implemented in a software and/or hardware manner, and the cooperative operation terminal may be formed by two or more physical entities, or may be formed by one physical entity. The cooperative operation terminal can be a desktop, a mobile phone, a notebook, a tablet computer or an interactive intelligent tablet and other terminals.

For convenience of understanding, the interactive smart tablet is exemplarily described as the cooperative operation terminal in the embodiment. The interactive intelligent panel can be integrated equipment for controlling contents displayed on the display panel and realizing man-machine interaction operation through a touch technology, and integrates one or more functions of a projector, an electronic whiteboard, a curtain, a sound box, a television, a video conference terminal and the like.

Generally, an interactive smart tablet includes at least one display screen. It can be understood that the display screen configured by the interactive intelligent tablet refers to a touch screen, a touch screen and a touch panel with a touch function, and is an inductive liquid crystal display device. According to the working principle of touch and the medium for transmitting information, the touch modes can be divided into four types: resistive, capacitive, electromagnetic, and infrared. When a user touches the display screen by using a finger or a touch pen, the parameters collected by the electrical appliance element corresponding to the touch position are detected to be changed, the interactive intelligent panel generates operation data according to the parameter change condition, and the operation data is processed to realize the response to the touch operation. In an embodiment, the display screen may integrate a single touch mode or a combined touch mode, where the combined touch mode refers to at least two touch modes, for example, the display screen adopts a combined mode of an infrared induction type + an electromagnetic induction type, a capacitive induction type, and the like.

In one embodiment, the interactive smart tablet is installed with at least one type of operating system, wherein the operating system includes but is not limited to an android system, a Linux system, and a Windows system. On this basis, the interactive smart tablet may install at least one application based on the operating system. For example, an electronic whiteboard application is installed in the interactive smart tablet to implement an electronic whiteboard function. For another example, a collaborative application is installed in the interactive intelligent tablet to implement a collaborative function, where the collaborative function refers to that devices in multiple locations perform communication of video, voice, and the like through the collaborative application, and desktop content, files, and the like can also be shared in the communication process, that is, the interactive intelligent tablets in multiple locations cooperate with each other to complete an event. In the embodiment, the application scenario in which the web conference is used as a collaboration function is described, and accordingly, the collaboration application may be understood as an application for performing the web conference. It is understood that the application may be an application carried by the operating system, or an application downloaded from a third party device or server. The cooperating terminal may also be the application itself. At this time, the cooperative operation method may be realized by one application program or realized by a plurality of application programs.

Fig. 1 is a flowchart of a cooperative operation method according to an embodiment of the present application. Referring to fig. 1, the cooperative operation method includes the steps of:

step 110, displaying a first collaboration interface, where first data of each remote terminal participating in collaboration and second data of the local terminal are displayed in the first collaboration interface, and a second collaboration interface is displayed in each remote terminal, where the first data and the second data each include at least one of video picture data, audio data, and identification data.

In the embodiment, under a network conference scene, a network conference is realized through cooperation of a plurality of cooperative operation terminals. The cooperative operation terminal located locally is marked as a local terminal, and other non-local cooperative operation terminals are marked as remote terminals. It is understood that there are typically a plurality of remote terminals. It should be noted that the local terminal and the remote terminal are both cooperative terminals currently participating in the cooperation, which are relative concepts, and each cooperative terminal currently participating in the cooperation may be used by one person participating in the cooperation or used by multiple persons.

The collaboration interface is an interface for users of the collaborative operation terminals to view and operate under the collaborative function, and in the embodiment, the collaboration interface is a conference interface displayed by each collaborative operation terminal. In an embodiment, a collaboration interface displayed after the local terminal enters the web conference (i.e., after the start of the collaboration operation) is a first collaboration interface, and a collaboration interface displayed after the remote terminal enters the web conference (i.e., after the start of the collaboration operation) is a second collaboration interface. And each remote terminal correspondingly displays a second collaborative interface.

The display content of the first collaboration interface can be set according to actual conditions. In the embodiment, the first collaboration interface displays display data corresponding to each collaboration operation terminal participating in the network conference (i.e., participating in collaboration), and for convenience of distinguishing, the display data of the local terminal is recorded as the second data, and the display data of the remote terminal is recorded as the first data. The specific type of the first data and the second data may be selected according to the actual application, and in an embodiment, each of the first data and the second data includes at least one of video picture data, audio data, and identification data. The video picture data refers to video data obtained when people participating in the collaboration are shot, and each collaborative operation terminal corresponds to one video picture data. In the embodiment, the video picture data is specifically video data obtained when the conference participants are shot. Optionally, a camera is further disposed in the cooperative operation terminal, and the camera captures the video image data in real time. Optionally, the cooperative operation terminal establishes a connection with the external camera, and the cooperative operation terminal instructs the external camera to perform shooting to obtain the shot video image data. The audio data refers to data obtained after peripheral sounds of the cooperative operation terminals are collected, and each cooperative operation terminal corresponds to one audio data. In the embodiment, the audio data is specifically data obtained when voices of people participating in the network conference are collected. Optionally, a microphone is further disposed in the cooperative operation terminal, and the microphone collects audio data. Optionally, the cooperative operation terminal establishes a connection with the external microphone, and the cooperative operation terminal instructs the external microphone to collect audio data. The identification data refers to data indicating the identity of persons participating in the collaboration, and in the embodiment, the identification data is specifically the identity of persons who participate in the network conference. Identification data includes, but is not limited to: head portrait, nickname, name, etc. After the cooperative application program is started, the personnel using the cooperative operation terminal can set, register or log in the corresponding identification data. Optionally, in the same collaboration interface, the types of the first data and the second data may be different, for example, in the first collaboration interface, some first data is audio data and identification data, and the remaining first data and second data are audio data and video picture data. It should be noted that the first collaboration interface and each second collaboration interface may be the same or different. For example, when a host (i.e., a person serving as a manager during the collaborative operation) exists in the web conference, the collaborative interface corresponding to the host is different from other collaborative interfaces, and at this time, compared with other collaborative interfaces, a control for managing the web conference is also displayed in the collaborative interface corresponding to the host, such as a culling control for culling other collaborative terminals, a grouping discussion control for grouping each collaborative terminal, and other controls. As another example, when no moderator is present in the web conference, the collaboration interfaces are the same.

In an embodiment, after the coordination function is started, the local terminal acquires the second data and the first data sent by each different place terminal, then displays a first coordination interface containing the first data and the second data, and simultaneously, each different place terminal acquires the first data of itself and the first data sent by other different place terminals and the second data sent by the local terminal, and displays a second coordination interface containing the first data and the second data. The display areas and the position relationship embodiments of the first data and the second data in the first collaborative interface and the second collaborative interface are not limited.

The specific implementation manner of the cooperative function is not limited. In the embodiment, the network conference starting function is described by taking the example that a local terminal joins a network conference, for example, after a collaboration application program is started, a network conference serial number input by a person participating in collaboration locally is received, and a corresponding network conference is joined according to the network conference serial number to enter the network conference. For another example, after the collaborative application is started, a new network conference is created, and after the creation is successful, the network conference is determined to enter, and then, the network conference serial number is displayed, so that the local personnel participating in the collaboration inform the remote personnel participating in the collaboration, and further the remote personnel participating in the collaboration controls the corresponding remote terminal to join in the network conference through the network conference number. The network conference sequence number may be considered as a network identifier, and a specific generation method embodiment thereof is not limited. Through the network conference serial number, each person can accurately join the unique network conference. It can be understood that after one cooperative operation terminal joins the network conference, the joined cooperative operation terminal in the network conference can be made clear, and the joined cooperative operation terminal can be made clear of the newly joined cooperative operation terminal, so that data communication can be performed between the cooperative operation terminals in the subsequent network conference.

Step 120, receiving a first grouping instruction, where the first grouping instruction is used to instruct a local terminal to join a first group, and the first group includes the local terminal and at least one remote terminal.

The grouping instruction is an instruction for instructing the cooperative operation terminal to join the group. In the embodiment, a grouping instruction currently received by the local terminal is recorded as a first grouping instruction, and a group to which the local terminal should join currently is recorded as a first group. It will be appreciated that the first sub-group, in addition to the home terminal, will also include at least one displaced terminal. In addition, a foreign terminal that does not join the first group may join the corresponding group according to the corresponding grouping instruction.

In one embodiment, a network conference is taken as an example, and a host exists in the network conference, and the host can create the network conference, manage and group the cooperative operation terminals, manage the groups, and the like. The cooperative operation terminal used by the host is recorded as a management terminal, and the management terminal can be a local terminal or a remote terminal. When the management terminal exists, the first grouping instruction is sent to the local terminal by the management terminal, and the first grouping instruction may include an identifier of the first group (e.g., information indicating the identity of the target group, such as a group name and/or a group number). And the local terminal joins the corresponding first group according to the identifier carried in the first group command. It should be noted that, the embodiment of the method for generating the first grouping instruction by the management terminal is not limited. Optionally, the local terminal automatically joins the first group after receiving the first grouping instruction. Optionally, the local terminal has a right to select whether to join the first group, at this time, after receiving the first grouping instruction, the local terminal may pop up a prompt in the first collaboration interface to prompt whether local personnel join the first group, and generate a determination instruction when the local personnel determine to join, and feed back the determination instruction to the management terminal, so that the management terminal determines, according to the determination instruction, that the local terminal joins the first group. And if the local personnel determine not to add, the local terminal generates a rejection instruction and feeds the rejection instruction back to the management terminal, so that the management terminal feeds the rejection instruction back to the host, and the host reselects the first group for the local terminal.

In another embodiment, taking a network conference as an example, and when a host exists in the network conference, the local terminal receives an instruction sent by the management terminal and used for freely selecting the group, and prompts local personnel to select the first group according to the instruction. At this time, a free team forming prompt and the identification of each team are displayed in the first collaborative interface, so that local personnel can select the first team to join according to the identification. And then, the local terminal feeds back the selected first group to the management terminal so that the management terminal can clearly group the data according to the feedback result. The command sent when the local personnel select the first group can be recorded as a first grouping command. Optionally, the manner in which the local person selects the first group may be set according to actual conditions, for example, after the local terminal displays the identifiers of the groups, if a click operation is received for a certain identifier, it is determined that the first grouping instruction is received, the group corresponding to the identifier selected by the first grouping instruction is determined as the first group, and then the first group is fed back to the management terminal.

In another embodiment, taking a web conference as an example, and not setting up a host of the web conference, at this time, any participating person may play the role of the host, and implement grouping in the manner described above.

Step 130, responding to the first grouping instruction, converting the first collaboration interface into a third collaboration interface, wherein second data, a shared whiteboard control and first data of each remote terminal in the first group are displayed in the third collaboration interface, and each remote terminal in the first group converts the second collaboration interface into a fourth collaboration interface.

In an embodiment, after receiving the first grouping instruction, the local terminal only receives first data sent by the remote terminals in the first group. At this time, the number of the first data that needs to be displayed is reduced, and therefore, the current first collaboration interface needs to be adjusted to obtain the collaboration interface suitable for the group discussion. And the third cooperative interface displays the first data of each remote terminal in the first group and the second data of the local terminal. In one embodiment, the third collaboration interface also displays a shared whiteboard control. The shared whiteboard control is used for starting a shared whiteboard function, wherein the shared whiteboard function refers to sharing the content on the electronic whiteboard of the local terminal to other terminals in different places so that other people can clearly determine the content on the electronic whiteboard. And after the local terminal joins the first group, the shared whiteboard control is used for starting the shared whiteboard function in the first group. In the embodiment, the collaborative interface after the adjustment of the remote terminal is denoted as a fourth collaborative interface, and it can be understood that the fourth collaborative interface displays the first data of each remote terminal in the first group, the second data of the local terminal, and the shared whiteboard control, and the process of transforming the second collaborative interface into the fourth collaborative interface is the same as the process of transforming the first collaborative interface into the third collaborative interface.

It can be understood that, in practical applications, a control for starting another function may also be displayed in the third collaboration interface, and the embodiment does not limit this. For example, a microphone control is further displayed in the third collaborative interface, and the microphone control is used for starting or closing a call function, and for example, a camera control is further displayed in the third collaborative interface, and the camera control is used for starting or closing to acquire video picture data. For example, a list control is further displayed in the third collaborative interface, and the list control is used for displaying or hiding a group list, where the group list is a list of local terminals and remote terminals in the first group. Optionally, the controls displayed by the third collaboration interface may be collectively displayed in a control bar, and the control bar may be located on one side of the third collaboration interface, for example, below the third collaboration interface. The embodiment of the arrangement order and the arrangement mode of each control in the control column is not limited. In one embodiment, the control bar may be hidden or evoked in the third collaboration interface, for example, the control bar is synchronously displayed when the third collaboration interface is displayed, and then local personnel may slide the control bar toward the edge of the third collaboration interface to hide the control bar, or slide the control bar inward from the edge of the third collaboration interface to evoke the control bar. It should be noted that the control bar may also be displayed in the fourth collaborative interface, and the control is displayed in the control bar. In one embodiment, the controls may also be displayed on the first collaborative interface and the second collaborative interface before the change, and the controls are retained when the change is made to the third collaborative interface and the fourth collaborative interface. In this case, the controls in the control bar are not limited to a group, for example, the shared whiteboard control is used to share the content on the electronic whiteboard of the local terminal to each remote terminal, and the list control is used to display or hide a list including the local terminal and the remote terminals.

Optionally, a control related to the group discussion may be further added to the third collaboration interface, for example, a group management control is displayed, and the group management control is used for managing each group. Optionally, if a group leader needs to be selected in the group discussion, a control for determining whether the group leader is a group leader is further displayed in the third collaboration interface. In the embodiment, an example is described in which a local person is selected as a group leader, and if the local person is selected as the group leader of the first group, the local person sets a control on whether to become the group leader to "yes" to notify that the local terminal itself is selected as the group leader, at this time, the local person manages the first group through the group management control displayed in the third collaboration interface, and the remote terminal in the first group cannot operate the group management control, and when the local terminal authorizes the remote terminal in the first group, the remote terminal may operate the group management control. For example, after the remote person in the first group sets the control of whether the remote terminal becomes the group leader to be "yes", the remote terminal sends a notification to the local terminal, and then the local terminal displays the notification to prompt the local person whether to authorize the remote person, and after the local person makes a selection, the local terminal notifies the remote terminal of the authorization result.

It should be noted that after each cooperative operation terminal joins one group, it cannot join other groups at the same time, and only after exiting from the current group, it can join other groups again.

Step 140, receiving a first control operation acting on the shared whiteboard control.

In an embodiment, the control operation acting on the shared whiteboard control is denoted as a first control operation. It is understood that the first control operation may be a touch operation, or an operation sent by an external device (e.g., a mouse). The operation form of the first control operation may be set according to actual conditions. For example, when the shared whiteboard control is detected to receive a single-click operation, it is determined that the first control operation is received.

Optionally, the current first control operation is used to start the shared whiteboard function in the first group. And subsequently, if the first control operation aiming at the shared whiteboard control is received again, determining that the first control operation is used for ending the shared whiteboard function in the first group. Optionally, the current first control operation is used to start the shared whiteboard function, and after the start, a control used to stop the shared whiteboard function is added to the third collaborative interface, and the shared whiteboard control is hidden or deleted in the third collaborative interface. And then, if the control operation for the shared whiteboard function stopping control is detected, stopping the shared whiteboard function, deleting the control for stopping the shared whiteboard function and resuming to display the shared whiteboard control.

And 150, responding to the first control operation, displaying the first whiteboard interface in the third cooperative interface, and indicating the allopatric terminals in the first group to display the second whiteboard interface in the fourth cooperative interface.

Illustratively, the shared whiteboard functionality is implemented in response to a first control operation. When the shared whiteboard function is realized, a local electronic whiteboard interface is firstly displayed in the third collaborative interface, and in the embodiment, the electronic whiteboard interface displayed in the third collaborative interface is marked as the first whiteboard interface. The display position of the first whiteboard interface in the third collaborative interface can be set according to actual conditions. Optionally, when the first whiteboard interface is displayed, the display content and the layout of the third collaborative interface may be adjusted, so that the third collaborative interface is adapted to the first whiteboard interface. The specific rule for adjusting the display content and layout of the third collaborative interface may be set according to the actual situation, for example, delete the first data displayed in the third collaborative interface, and adjust the second data to the edge position, so as to display the first whiteboard interface at the blank position. For another example, each of the first data and the second data displayed in the third collaborative interface is reduced to display the first whiteboard interface in a blank position. It is understood that the local terminal can be currently considered as an initiator of the shared whiteboard function. In practical application, other terminals in the first group in different places may also become an initiating end for sharing the whiteboard function, at this time, the initiating end notifies the local terminal to display the first whiteboard interface in the third collaboration interface, and correspondingly, only the first data corresponding to the initiating end is reserved in the third collaboration interface, and other first data is deleted.

Optionally, after the first whiteboard interface is displayed, the first whiteboard interface may be fixed in the third collaboration interface, or a display position of the first whiteboard interface in the third collaboration interface may be adjusted by local personnel according to a requirement of the local personnel. In an embodiment, when the shared whiteboard function is finished, the third collaborative interface is restored to the display content and layout before the first whiteboard interface is displayed.

In an embodiment, when the first whiteboard interface is displayed, if the collaborative application has an electronic whiteboard function of its own, the electronic whiteboard function of its own is automatically started and the first whiteboard interface is displayed, and if the collaborative application does not have an electronic whiteboard function of its own, the collaborative application accesses the application having an electronic whiteboard function to call the electronic whiteboard function, where the call rule embodiment is not limited.

In an embodiment, when responding to the first control operation, the local terminal sends a notification to each remote terminal in the first group, so that each remote terminal similarly starts a shared whiteboard function, that is, a whiteboard interface is displayed in a fourth collaboration interface corresponding to each remote terminal in the first group. It can be understood that, in the first group, the process of displaying the second whiteboard interface by the remote terminal is the same as the process of displaying the first whiteboard interface by the local terminal, and details are not described herein. In general, the second whiteboard interface and the first whiteboard interface are the same size and are in the same relative position as the collaboration interface. It can be understood that sending a notification to each remote terminal in the first group is specifically that the collaborative application sends a notification to the collaborative application of each remote terminal in the first group, so that the collaborative application of the remote terminal displays the second whiteboard interface in the fourth collaborative interface. The embodiment of the communication rule adopted when sending the notification is not limited.

Step 160, receiving a second control operation acting on the first whiteboard interface.

In one embodiment, the second control operation is a writing operation on the first whiteboard interface. It is understood that the second control operation may be a touch operation, or an operation sent by an external device (e.g., a mouse). And when the control operation acting in the first whiteboard interface is detected and the first whiteboard interface is in a writing state, determining that the second control operation is received.

And 170, responding to the second control operation, and displaying a corresponding first writing track in the first whiteboard interface.

In one embodiment, a second control operation is received, coordinates of the second control operation in the first whiteboard interface are determined, and then a corresponding writing track is displayed at the coordinates. In the embodiment, the writing track corresponding to the second control operation is recorded as the first writing track. It can be understood that the line thickness, line color, etc. of the first writing track can be modified according to the actual situation and can be modified by the local conference participant according to the actual situation.

It should be noted that the local participant may write a plurality of writing tracks at intervals, and in the embodiment, as long as the writing operation on the first whiteboard interface is detected, it is considered that the second control operation is received, and the corresponding first writing track is displayed.

It can be understood that when the local terminal receives the second control operation, the local terminal sends the coordinates of the second control operation to the electronic whiteboard application program, so that the electronic whiteboard application program displays the first writing track in the first whiteboard interface. The electronic whiteboard application program refers to an application program with an electronic whiteboard function.

And step 180, sending the first writing track to the remote terminal in the first group, so that the remote terminal displays the first writing track in the second whiteboard interface.

In order to implement the function of sharing a whiteboard in the first group, in the embodiment, when the local terminal obtains the first writing track according to the second control operation, the local terminal synchronously sends the first writing track to each remote terminal in the first group in real time. And after the remote terminal receives the first writing track, displaying the first writing track in the second whiteboard interface. In one embodiment, the process of the local terminal sending the first writing track to each offsite terminal in the first group in real time is as follows: and sending metadata corresponding to the first writing track, wherein the metadata can be understood as necessary data for displaying the first writing track, such as line color, line thickness, coordinates and the like of the first writing track. And after receiving the second control operation, the metadata of the first writing track is acquired besides the first writing track is displayed, and then the metadata is sent to the different-place terminal in the first group. And when the remote terminal receives the metadata, determining corresponding coordinates in the second whiteboard interface according to the coordinates in the metadata, and displaying a first writing track on the coordinates according to the line color and the line thickness in the metadata.

It can be understood that in the embodiment, the first whiteboard interface and the second whiteboard interface have the same coordinate system, and the coordinate ranges are consistent. For example, the coordinate ranges of the first whiteboard interface and the second whiteboard interface are 1280 × 1024, and the origin of the coordinate system is located at the upper left vertex of the first whiteboard interface. In practical application, the coordinate systems and coordinate ranges of the first whiteboard interface and the second whiteboard interface may be different, at this time, when the local terminal notifies the remote terminal to start the second whiteboard interface, the coordinate system and the coordinate range of the first whiteboard interface of the local terminal are synchronously sent, so that the remote terminal determines a coordinate mapping relationship by combining the coordinate system and the coordinate range of the second whiteboard interface, and then, after receiving the coordinate of the first writing track, the corresponding coordinate in the second whiteboard interface can be determined according to the coordinate mapping relationship.

In an embodiment, when the electronic whiteboard application displays the first writing track, metadata of the first writing track is obtained, and the metadata is sent to the collaborative application program through a software development kit provided by the collaborative application program, so that the collaborative application program sends the metadata to the collaborative application program of each different-place terminal in the first group, and then the collaborative application program of each different-place terminal in the first group sends the metadata to the electronic whiteboard application program corresponding to the second whiteboard interface, so that the electronic whiteboard application program corresponding to the second whiteboard interface displays the first writing track in the second whiteboard interface. Optionally, when the first writing track is sent, the first writing track and the second data may be mixed and then sent, so as to save network resources, where an embodiment of the mixing rule is not limited. Accordingly, the step specifically includes steps 181 to 184:

and step 181, acquiring metadata of the first writing track.

In an embodiment, the electronic whiteboard application synchronously acquires the metadata while displaying the first writing track. It can be understood that, since writing is a continuous process, the electronic whiteboard application continuously receives the second control operation, displays the first writing track in real time according to the second control operation, and acquires metadata of the first writing track in real time.

At step 182, the metadata is encoded to obtain encoded data.

The electronic whiteboard application encodes the metadata according to an internal protocol. In the embodiment, the encoded metadata is referred to as encoded data. The internal protocol of the electronic whiteboard application program is a protocol set during development of the electronic whiteboard application program, and the metadata can be transmitted after being encoded by the protocol. It is understood that the metadata acquired in real time is encoded in real time to obtain encoded data in real time.

And step 183, mixing the coded data and the second data to obtain a data packet.

In an embodiment, the electronic whiteboard application realizes sending data to the collaborative application by calling a software development kit of the collaborative application, and in an embodiment, the electronic whiteboard application realizes sending coded data to the collaborative application by calling the software development kit of the collaborative application. The collaborative application mixes the encoded data with the second data after receiving the encoded data. In an embodiment, the hybrid embodiment is not limited, for example, when a data packet is generated, two data are written into the data packet at the same time. After mixing, data packets for data communication can be obtained. It can be understood that, since the encoded data and the second data have real-time property, the obtained data packet also has real-time property, that is, each frame of the second data and the corresponding encoded data are mixed to obtain the data packet of the corresponding frame.

And step 184, sending the data packet to the remote terminal in the first group, so that the remote terminal obtains second data and encoded data through the data packet and displays a first writing track obtained based on the encoded data in the second whiteboard interface.

In one embodiment, after the data packet is generated, the data packet is sent to each remote terminal in the first group. At this time, the cooperative application program of each remote terminal in the first group may receive the data packet transmitted from the network through its own software development kit, and obtain the second data and the encoded data in the data packet. And then displaying the second data on a fourth collaborative interface, sending the coded data to the electronic whiteboard application program by calling the electronic whiteboard application program, decoding the electronic whiteboard application program by using an internal protocol to obtain metadata, and displaying the first writing track in the second whiteboard interface based on the metadata.

Optionally, when the whiteboard sharing function is finished, the local terminal notifies the remote terminals in the first group to finish the whiteboard sharing function, and then the local terminal and the remote terminals in the first group can store the first writing track. Or popping up a saving prompt, and determining whether to save the first writing track according to the selection of local personnel.

In practical application, besides the shared whiteboard function, a local whiteboard function may be set in the collaborative application, and the difference from the shared whiteboard function is that only the whiteboard interface is displayed in the third collaborative interface under the local whiteboard function, and the content in the whiteboard interface is not shared to the remote terminal. At this time, a local whiteboard control for starting the local whiteboard function may be set in the third collaborative interface, and when a control operation acting on the local whiteboard control is received, a whiteboard interface is displayed in the third collaborative interface, and a technical means adopted when the whiteboard interface is displayed is the same as that adopted when the first whiteboard interface is displayed. Optionally, different operation modes may be set for the shared whiteboard control, for example, when a single-click operation for the shared whiteboard control is detected, it is determined that the shared whiteboard function is started. And when the long-press operation on the shared whiteboard control is detected, determining to start the local whiteboard function.

And 190, receiving a second writing track sent by the different-place terminal in the first group, wherein the second writing track is displayed in a second whiteboard interface corresponding to the different-place terminal.

Since the shared whiteboard functionality within the first group is mutual, the remote terminals within the first group may also perform the shared whiteboard functionality. In an embodiment, when a remote terminal in the first group receives a writing operation applied to the second whiteboard interface, a corresponding writing track is displayed in the second whiteboard interface. And the technical means adopted when the second writing track is displayed in the second whiteboard interface is the same as the technical means adopted when the first writing track is displayed in the first whiteboard interface. And then, the remote terminal sends the second writing track to the local terminal and the rest remote terminals in the first group, wherein the sending mode of the second writing track is the same as that of the first writing track.

Step 1100, displaying the second writing track in the first whiteboard interface.

And displaying the second writing track in the first whiteboard interface after the second writing track received by the local terminal. It can be understood that the technical means adopted when the second writing track is displayed in the first whiteboard interface is the same as that adopted when the first writing track is displayed in the second whiteboard interface. It is understood that the color and thickness of the lines of the first writing track and the second writing track may be the same or different, and the embodiment is not limited thereto.

It is understood that the embodiment of the sequence of the local terminal sending the first writing track to the first intra-group foreign terminal and the first intra-group foreign terminal sending the second writing track to the local terminal is not limited.

The method comprises the steps of displaying a first collaboration interface containing first data of each remote terminal and second data of the local terminal, adding the local terminal into a first group according to a first group command, changing the first collaboration interface into a third collaboration interface, and changing a second collaboration interface in the first group into a fourth collaboration interface, wherein a shared whiteboard control is displayed in the third collaboration interface, displaying the first whiteboard interface in the third collaboration interface when receiving a first control operation acting on the shared whiteboard control, and indicating the remote terminals in the first group to display a second whiteboard interface in the fourth collaboration interface, displaying a corresponding first writing track in the first whiteboard interface according to a second control operation acting on the first whiteboard interface, and sending the first writing track to the remote terminals in the first group, so that the remote terminals display the first writing track in the second whiteboard interface in real time, meanwhile, the technical means of receiving the second writing track sent by the remote terminal in the first group and displaying the second writing track in the local first whiteboard interface can solve the technical problems that in some technologies, the process of sharing writing content under a network conference scene is complex and sharing can only be performed for all participants. By adding the local terminal into the first group, group discussion in the cooperative process can be realized, and the applicable scene of cooperative operation is enlarged, such as the scene needing group discussion in a conference, a teaching meeting, a competition and the like. The control for starting the shared whiteboard function is displayed in the third collaborative interface, the electronic whiteboard function is quickly started in the third collaborative interface in a mode of calling an electronic whiteboard application program, and the shared whiteboard function only in the group is realized in a mode of carrying out data communication with the remote terminal in the first group without quitting the third collaborative interface, so that the starting process is simplified, the collaborative efficiency is ensured, and the use experience of the participators is improved. In an embodiment, when the first writing track is sent to the remote terminal in the first group, the encoded data corresponding to the first writing track is obtained through a software development kit, and is mixed with the second data and then sent, so that network resources can be effectively utilized. In an embodiment, after the first whiteboard interface and the second whiteboard interface are started, the local first writing track is shared, and the second writing track of the terminal at a different place in the first group can be shared, that is, the writing tracks in the group are shared in the collaborative process, so that the whiteboard sharing function is further enriched, the whiteboard sharing process is simplified, and the collaborative experience is improved.

On the basis of the above embodiment, after any one cooperative operation terminal joins the corresponding group, it is impossible to join another group, and only after exiting the group, it is possible to join another group. In the embodiment, the local terminal exits from the first group and joins in another group as an example. At this time, after the second writing trajectory is displayed in the first whiteboard interface, the method further includes: receiving an exit group instruction; restoring the third collaborative interface to the first collaborative interface in response to the group exiting instruction; receiving a second grouping instruction, wherein the second grouping instruction is used for indicating the local terminal to join a second group; and responding to the second grouping instruction, and converting the first collaborative interface into a fifth collaborative interface, wherein the fifth collaborative interface displays the second data, the shared whiteboard control and the first data of each remote terminal in the second group.

Illustratively, the exit group instruction is for instructing the local terminal to exit the first group. In one embodiment, the exit team command may be issued by a person local to the team. Correspondingly, an exit control for exiting the group is also displayed in the third collaboration interface, and the exit control may be a sub-control in the group management control or an independent control. And when the control operation received by the exit control is detected, determining that an exit group instruction is received. Or when the quitting control is detected to receive the control operation, a quitting prompt pops up on the third collaboration interface, a control for confirmation is displayed in the quitting prompt, and when the control is detected to receive the control operation, the received quitting group instruction is determined. In another embodiment, the exit group instruction may also be sent by the management terminal used by the moderator to the local terminal when the moderator is present. And an exit control used for exiting the group is displayed in the collaborative interface of the management terminal. And when the exit control is detected to receive the touch operation, determining the cooperative operation terminal selected by the host. The host selects a cooperative operation terminal in the cooperative interface (the cooperative operation terminal is selected by clicking second data of the cooperative operation terminal or the cooperative operation terminal is selected in the cooperative list), and then generates a group exiting instruction when detecting that the exit control receives the control operation, and sends the group exiting instruction to the selected cooperative operation terminal (the embodiment is a local terminal). Or after detecting that the exit control receives the control operation, prompting the host to select the cooperative operation terminal, generating an exit group instruction after detecting that the host selects the cooperative operation terminal, and sending the exit group instruction to the selected cooperative operation terminal (in the embodiment, the local terminal). And the local terminal responds after receiving the group exit instruction, namely exiting the first group. At this time, the local terminal is restored to the first cooperative interface from the third cooperative interface, that is, all the first data of the remote terminal are displayed. Optionally, when the first collaboration interface is restored, all the contents displayed in the first whiteboard interface (in the embodiment, the first writing track and the second writing track) may be saved.

In an embodiment, the second grouping instruction is a grouping instruction received after the local terminal exits the first group. In an embodiment, the subgroup corresponding to the second grouping instruction is denoted as a second subgroup. It can be understood that the generation manner of the second grouping instruction is the same as the generation manner of the first grouping instruction, and the manner in which the local terminal joins the second group is the same as the manner in which the local terminal joins the first group, and details are not described here. In an embodiment, after the local terminal joins the second group, the local terminal only receives the first data sent by the remote terminal in the second group. At this time, the current first collaboration interface is adjusted to obtain a collaboration interface suitable for the group discussion, and in the embodiment, the adjusted collaboration interface is denoted as a fifth collaboration interface. It will be appreciated that the fifth collaboration interface is similar to the third collaboration interface, except that the third collaboration interface displays the first data for each of the disparate terminals within the first group, and the fifth collaboration interface displays the first data for each of the disparate terminals within the second group.

As described above, the local terminal can exit the first group by the exit group instruction, and the local terminal can rejoin the new second group by the second grouping instruction, so that the grouping process of the cooperative function is more flexible.

On the basis of the above embodiments, in order to facilitate management of each cooperative operation terminal to implement a cooperative function, it is limited that a host exists among persons participating in the cooperation. For example, in a network conference scenario, a host may create a network conference, manage, group, and manage groups of cooperating terminals, and so on. Optionally, the presenter may be replaced in conjunction with the actual situation during the course of the collaborative operation. For example, an identification control of whether the local person is the host is displayed in the first collaborative interface, and when the local person is changed to be the host, the identification control can be set to the yes side, so that the local terminal can make sure that the local person is the host. At this time, the cooperative operation terminal of the original host automatically sets the identification control to the no side to make sure that the corresponding person is no longer the host. Meanwhile, each cooperative operation terminal in the cooperative operation can clearly indicate the change condition of the host.

In the embodiment, the above cooperating method is exemplarily described with a local person as a host. Fig. 2 is a flowchart of a cooperative operation method according to another embodiment of the present application. In this embodiment, the local terminal is a terminal used by a host, that is, the local terminal is a management terminal that manages all remote terminals participating in the collaboration. And, the first collaborative interface also displays a group discussion control. The group discussion control is used for starting a grouping function, and after the grouping function is started, the host can group different terminals. Optionally, a group discussion control may be displayed in the control bar.

Referring to fig. 2, the video conference implementation method further includes:

step 210, receiving a fourth control operation acting on the grouping discussion control.

It can be understood that the moderator may issue the control operation acting on the group discussion control at any time between the time when the first collaboration interface is displayed for the first time and the time when the collaboration operation (in the embodiment, the time when the network conference is finished) is finished.

In an embodiment, the control operation acting on the group discussion control is denoted as a fourth control operation. It is understood that the fourth control operation may be a touch operation, or an operation sent by an external device (e.g., a mouse). The operation form of the fourth control operation may be set according to the actual situation. For example, when the grouping discussion control is detected to receive the single-click operation, the fourth control operation is determined to be received.

Optionally, a group discussion control may also be displayed in the second collaboration interface. When the remote personnel has a request for group discussion, the voice acquisition function of the remote terminal can be started, and the group request is explained to the host in a voice mode. The group discussion control can also be operated (such as single-clicking), then after detecting the control operation aiming at the group discussion control, the remote terminal sends a group request to the management terminal, and the management terminal receives the group request and then displays the request in the first collaboration interface, so that the host sends out a fourth control operation according to the request. Optionally, the group discussion control may not be displayed in the second collaboration interface of the remote terminal, that is, the group discussion control is only displayed in the collaboration interface corresponding to the management terminal.

Step 220, responding to the fourth control operation, converting the first collaborative interface into a sixth collaborative interface, wherein a group management control and a plurality of grouping areas are displayed in the sixth collaborative interface, each grouping area corresponds to one group, and the group management control is used for realizing group management.

And the sixth collaborative interface is a collaborative interface for the management of the host during grouping. And a group management control is displayed in the sixth collaborative interface, and the moderator can manage each group through the group management control. In an embodiment, the group management control may include a main control and a plurality of sub-controls, where each sub-control corresponds to a function, and the specific content of each function may be according to the actual situation. Such as child controls including, but not limited to: the group number setting method comprises at least one of a searching sub-control for searching for participators, an adding sub-control for indicating a cooperative operation terminal to be added into a group, a kicking-out sub-control for kicking the cooperative operation terminal out of the group, an exiting sub-control for exiting the group, an ending sub-control for ending a grouping discussion, a group number sub-control for setting the number of the group, an autonomous group sub-control for starting a free group, a display whiteboard sub-control for displaying a whiteboard interface or a desktop in the group, a group list sub-control for displaying a group list and the like. Each sub-control can be integrated and displayed in one area, and the area can be marked as a management sub-control area. The general control is used for displaying or hiding the management sub-control area. Generally, the overall control is continuously displayed in the sixth collaboration interface. And when the fact that the main control receives a control operation (such as a single-click operation) is detected, displaying a management sub-control area in the sixth collaborative interface. And then, when detecting that the main control part receives the control operation (such as clicking operation) again, hiding the management sub-control area in the sixth collaborative interface.

The sixth collaborative interface further displays each grouping region, in this case, each grouping region represents a small group, and the grouping regions may be arranged in the sixth collaborative interface from left to right and from top to bottom. Each grouping region occupies the same size area in the sixth collaboration interface. In an embodiment, the management terminal is preset with an initial number of grouping areas when the sixth collaboration interface is displayed, and displays each grouping area according to the initial number, and then the host may modify the number of grouping areas, that is, modify the group number, through the group number sub-control. Optionally, the size of the display area of each grouping area in the sixth collaborative interface may be adaptively adjusted according to the number of the grouping areas, for example, when the number of the current grouping areas is large, the size of each grouping area may be appropriately reduced, so as to display all the grouping areas in the sixth collaborative interface. Correspondingly, when the number of the current grouping areas is small, the size of each grouping area can be increased appropriately, so that the aesthetics of the sixth collaboration interface is improved. Optionally, the size of the display area of each grouping area in the sixth collaboration interface is not adaptively adjusted according to the number of the grouping areas, at this time, if the number of the grouping areas is large, a part of the grouping areas may be hidden, and then, the host may display the hidden grouping areas by sliding the sixth collaboration interface, and simultaneously hide the displayed grouping areas. For example, if the hidden grouped area is located on the right side of the displayed grouped area, the host may perform a left-sliding operation in the sixth collaborative interface to move the grouped area to the left in the entirety, that is, display the hidden grouped area on the right side and hide the displayed grouped area on the left side.

In one embodiment, the sixth meeting interface of the plurality of grouping areas and the group management control is automatically displayed after the fourth control operation is received. At this time, no cooperative terminal has joined in each group area, i.e., each group is currently created only by the moderator, and therefore, the content displayed in each group area may include only the group name and/or the group number, etc. The group name and/or the group number may be generated by the management terminal according to a default generation logic, or may be set by the host, which is not limited in the embodiment.

Optionally, second data may be further displayed in the sixth collaboration interface. The size and display position of the second data in the sixth collaboration interface are not limited in this embodiment. In practical application, the moderator can also replace the second data with the first data to be displayed according to practical conditions. Optionally, a control bar for displaying the first collaboration interface may also be reserved in the sixth collaboration interface, so that a host may start a function corresponding to each control in the control bar.

And step 230, sending a third grouping instruction to each remote terminal so that the remote terminals join the corresponding group according to the third grouping instruction.

The third grouping instruction is a grouping instruction issued by the management terminal. In one embodiment, the co-operating terminals within each group are specified by the moderator. At this time, the host may determine the group to which each cooperative operation terminal needs to join through the management child control area, and then the management terminal generates a corresponding third grouping instruction and sends the third grouping instruction to the corresponding cooperative operation terminal, so that the cooperative operation terminal explicitly joins the group. The host does not limit the operation logic embodiment of the management sub-control area, for example, the host searches for a cooperative operation terminal by searching for the sub-control, then selects a target grouping area in each grouping area through control operation (such as click operation) as a group to which the cooperative operation terminal needs to be added, and then instructs the management terminal to add the cooperative operation terminal to a corresponding group by clicking the addition sub-control. At this time, the management terminal generates a third grouping instruction, where the third grouping instruction may include information indicating a group identity, such as an identifier of the group (e.g., a group name and/or a group number), and each cooperating terminal corresponds to one third grouping instruction, and each third grouping instruction includes information indicating a group identity corresponding to the cooperating terminal. And then, the management terminal sends the third grouping instruction to the corresponding cooperative operation terminal, and the cooperative operation terminal determines the group to be added when receiving the third grouping instruction. The manner of adding the cooperative operation terminal to the corresponding group is the same as the manner of adding the local terminal to the first group, which is not described herein again. In another embodiment, the cooperative operation terminal may freely group, at this time, the host may start a free group grouping function through the autonomous group grouping child control in the management child control area, and correspondingly, the management terminal generates a third grouping instruction, and at this time, the third grouping instruction is used to instruct the cooperative operation terminal to freely select a group. The third grouping instruction may include an identification of each group (e.g., group name and/or group number) and an identification of the free team. And then, the management terminal sends a third grouping instruction to each cooperative operation terminal. Each cooperating terminal receives the same third grouping instruction. And then, each cooperative operation terminal displays a free team formation prompt and the identification of each team in a local second cooperative interface according to the third grouping instruction, so that personnel of the cooperative operation terminal can select the participating team according to the identification. And finally, the cooperative operation terminal feeds back the selected group to the management terminal so that the management terminal can clearly group the group according to the feedback result.

Optionally, after the grouping is completed, the first data of the joined cooperating terminal may be displayed in each grouping area. Or after the grouping is completed, the number of the joined cooperative terminals is displayed in each grouping area.

Optionally, the management terminal notifies each different terminal of the grouping condition, so that each different terminal receives the data transmitted by each different terminal in the group when the different terminal discusses the group. Optionally, the group identifier is added when the different terminals perform data communication, so as to ensure that the different terminals only receive data containing the current group identifier. And for the remote terminal, after the corresponding group is added, the second collaboration interface is converted into a fourth collaboration interface. In an embodiment, the fourth collaborative interface may further display a group management control, and at this time, the management sub-control area in the group management control is only used for implementing management of the fourth collaborative interface. Optionally, the remote terminals in each group may further perform data transmission with the management terminal, so as to notify the host to perform group management when there is a group management requirement (e.g., group addition, whiteboard sharing, etc.). In another embodiment, the host may select a group leader for each group, where an embodiment of selecting the group leader is not limited, for example, when the host selects a group area, the management terminal displays a collaboration list of remote terminals in the group area or first data of the remote terminals in the group area, where the collaboration list may also display names of participating collaboration people. Then, the host may select a remote terminal in the cooperation list or select a first data in each first data, and then the management terminal determines the remote terminal selected by the host as a group leader and notifies the remote terminal. At this time, the remote terminal determines to be selected as the group leader, and notifies other remote terminals within its own group. Meanwhile, the remote terminal serving as the group leader displays a group management control in addition to the first data of the same group in a fourth collaborative interface of the remote terminal, so that the group members are managed through the group management control. Optionally, the remote terminal as the group leader may perform data transmission with the management terminal, so as to notify the host to perform group management when there is a group management requirement (e.g., group addition, whiteboard sharing, etc.). In another embodiment, each panelist may select a group leader by himself, at this time, a control whether the panelist becomes the group leader is also displayed in a fourth collaboration interface of each different terminal in addition to the first data of the same group, if a participant in the group is selected as the group leader, the participant collaborator sets a control whether the panelist becomes the group leader in the fourth collaboration interface to "yes", at this time, the different terminal determines that the participant is selected as the group leader, and displays a group management control in the fourth collaboration interface, so as to manage the panelist in the group through the group management control. Optionally, the remote terminal as the group leader may perform data transmission with the management terminal, so as to notify the host to perform group management when there is a group management requirement (e.g., group addition, whiteboard sharing, etc.). In yet another embodiment, only the group participant list is displayed in the fourth collaboration interface, and the group management control is not displayed.

It is understood that the host can also join its own management terminal to the group to be joined.

Optionally, when the group discusses, the whiteboard or the desktop may be shared in each group, and at this time, the content of the shared whiteboard or the content of the shared desktop may not be viewed by other groups. If the content of the shared whiteboard or the content of the shared desktop in a certain group needs to be displayed in other groups, the corresponding remote terminal informs the host through the management terminal, so that the host determines to display the shared whiteboard content or the shared desktop content of the group through the display whiteboard child control, and at the moment, other groups can view the shared whiteboard content or the shared desktop content. The embodiment of the manner of notifying the moderator by other participants is not limited.

In one embodiment, the moderator may view the collaboration interface of any of the groups. At this time, in the cooperative operation method, after sending the third group command to each remote terminal so that the remote terminal joins the corresponding group according to the third group command, the method further includes: receiving a fifth control operation for the first target packet zone; and responding to the fifth control operation, and displaying the collaborative interface of the group corresponding to the first target grouping area in the sixth collaborative interface.

The fifth control operation is to display the collaboration interfaces within the group in a sixth collaboration interface. The triggering mode of the fifth control operation may be set according to actual conditions, for example, when it is detected that a certain packet area receives a long press or a double-click operation, it is determined that the fifth control operation is received, and the packet area is used as the first target packet area selected by the fifth control operation. And then, determining a group corresponding to the first target grouping area, and acquiring a collaborative interface corresponding to the group. It can be understood that the collaboration interface corresponding to the group only displays the second data of the terminals at different places in the group, and after the whiteboard sharing function is turned on, the whiteboard interface in the group is also displayed. The obtaining of the collaboration interface corresponding to the group may be obtaining a current fourth collaboration interface of a remote terminal (recommended by the group or selected by the host) in the group. And then, displaying the collaborative interface corresponding to the group in the sixth collaborative interface, namely displaying the collaborative interface corresponding to the first target grouping area. Therefore, the host can view the collaborative interfaces of all the groups. It can be understood that after the collaborative interfaces corresponding to the group are displayed, the quit interface control is synchronously displayed, and when the quit interface control is detected to receive the control operation, the collaborative interfaces corresponding to the group are cancelled to be displayed in the sixth collaborative interface, so that the flexible management of the host is facilitated. In practical application, after the management terminal selects the first target grouping area, the host can perform voice call with the group corresponding to the first target grouping area through the management terminal except for displaying the corresponding collaboration interface.

In one embodiment, the moderator may also share the collaboration interface of a certain group to at least one other group. At this time, in the cooperative operation method, after sending the third grouping instruction to each remote terminal so that the remote terminal joins the corresponding group according to the third grouping instruction, the method further includes: receiving a sixth control operation for the second target packet zone and a seventh control operation for the third target packet zone; and responding to the sixth control operation and the seventh control operation, and sending the collaborative interface of the group corresponding to the second target grouping area to the collaborative interface of the group corresponding to the third target grouping area for displaying.

And the sixth control operation and the seventh control operation are association operations, and the association operations are used for sending the collaboration interface corresponding to the grouping area selected by the sixth control operation to the different terminals in the grouping area selected by the seventh control operation, so that the different terminals display the received collaboration interface in the fourth collaboration interface. In the embodiment, the grouping region selected by the sixth control operation is referred to as a second target grouping region, and the grouping region selected by the seventh control operation is referred to as a third target grouping region, it is understood that the third target grouping region may be one or more, and in the embodiment, the third target grouping region is exemplarily described as one. An embodiment of a triggering form of the sixth control operation and the seventh control operation is not limited, for example, a collaborative interface shared control is displayed in a sixth collaborative interface, and when it is detected that the control is triggered, the host is prompted to select two grouping areas, where an operation of selecting a first grouping area is the sixth control operation and marks the selected grouping area as a second target grouping area, an operation of selecting a second grouping area is marked as a seventh control operation and marks the selected grouping area as a third target grouping area. For another example, when it is detected that a long-press or double-click operation is received by a certain packet zone, the host is prompted whether to select another packet zone, and when it is confirmed that another packet zone is selected by the host, it is determined that a sixth control operation is received and the currently selected packet zone is recorded as a second target packet zone, and then, when it is detected that a long-press or double-click operation is received by another packet zone, it is determined that a seventh control operation is received and the currently selected packet zone is recorded as a third target packet zone. And then, the management terminal acquires the collaboration interface in the second target grouping area and sends the collaboration interface to the different ground terminals of the group corresponding to the third target grouping area so as to display the collaboration interface in the fourth collaboration interface of the different ground terminals. In practical applications, the management terminal may further notify the group corresponding to the second target grouping area and the third target grouping area, so that a different terminal in the second target grouping area (randomly selected or selected by a person in the group) sends its fourth collaboration interface to the group corresponding to the third target grouping area, so that different terminals in the group display the received another group of fourth collaboration interface in the fourth collaboration interface. The manner adopted when the cooperative interface corresponding to the third target grouping region displays the cooperative interface corresponding to the second target grouping region is the same as the manner adopted when the cooperative interface corresponding to the first target grouping region is displayed in the sixth cooperative interface, which is not described herein again.

For example, fig. 3 is a schematic view of a collaboration interface provided in an embodiment of the present application, which is a schematic view of a first collaboration interface of a management terminal. Referring to fig. 3, the first collaboration interface includes six first data (corresponding to the first data 21-the first data 26 in fig. 3), a second data 27, and a control bar 28, where the control bar 28 includes a local whiteboard control 2801, a shared whiteboard control 2802, a microphone control 2803, a camera control 2804, a group discussion control 2805, and a collaboration list control 2806. Upon detecting a fourth control operation for the group discussion control 2805, the first collaboration interface of FIG. 3 is changed to the sixth collaboration interface of FIG. 4. Fig. 4 is a schematic view of another collaboration interface provided in an embodiment of the present application. Referring to fig. 4, the current grouping areas are 4, and the subgroups corresponding to the respective grouping areas are a subgroup a, a subgroup B, a subgroup C, and a subgroup D, respectively. A group management control is also displayed in the sixth collaborative interface, and the group management control includes a main control 2901 and a plurality of sub-controls, the plurality of sub-controls are located in a management sub-control area 2902, and the plurality of sub-controls include a search sub-control 2903, an add sub-control 2904, a kick sub-control 2905, an exit sub-control 2906, an end sub-control 2907, a whiteboard display sub-control 2908, a group number sub-control 2909, and an autonomous group team sub-control 29010. It will be appreciated that since all of the controls of the control bar 28 in the sixth collaborative interface cannot be fully displayed, some of the controls may be hidden and the hidden controls may be displayed when the presenter clicks on the hidden area. In an embodiment, the sixth collaboration interface further displays the second data 27, and in practical application, the second data 27 may be switched to other first data. It will be appreciated that a maximum number of offsite terminals that each team may join is shown in fig. 4 as 4 people (4 people icons per group). In practical applications, instead of showing the maximum number of terminals that can be joined, a character icon may be displayed when a remote terminal joins the group, and in this case, the character icon in fig. 4 may indicate the number of terminals that have joined. Optionally, if it is detected that the group a receives the fifth control operation, a collaborative interface corresponding to the group a is displayed in a sixth collaborative interface shown in fig. 4. At this time, the sixth cooperative interface of fig. 4 is changed to fig. 5. Fig. 5 is a schematic view of another collaboration interface provided in the embodiment of the application, and referring to fig. 5, a collaboration interface 21001 corresponding to the group a is displayed in a sixth collaboration interface, where the collaboration interface 21001 includes a whiteboard interface.

Above-mentioned, realize grouping the discussion in the collaborative operation through grouping the discussion controlling part, and can realize the management to each group through group management controlling part, the host of being convenient for is to the global control of grouping the condition, has richened the cooperative function, and the form is nimble various when grouping, has promoted participation cooperative personnel's use and has experienced.

On the basis of the foregoing embodiment, fig. 6 is a flowchart of a cooperative operation method according to another embodiment of the present application. The present embodiment embodies the scenario of packet discussion. In this embodiment, whether or not there is a moderator is not limited. Referring to fig. 6, the video conference implementation method specifically includes:

and 310, displaying a first collaboration interface, wherein first data of each remote terminal participating in collaboration and second data of the local terminal are displayed in the first collaboration interface, a second collaboration interface is displayed in each remote terminal, and the first data and the second data respectively comprise at least one of video picture data, audio data and identity data.

Step 320, receiving a first grouping instruction, where the first grouping instruction is used to instruct a local terminal to join a first group, and the first group includes the local terminal and at least one remote terminal.

Step 330, in response to the first grouping instruction, converting the first collaboration interface into a third collaboration interface, where the third collaboration interface displays the second data, the shared whiteboard control, and the first data of each remote terminal in the first group, and each remote terminal in the first group converts the second collaboration interface into a fourth collaboration interface.

Step 340, receiving a first control operation acting on the shared whiteboard control.

And 350, responding to the first control operation, displaying the first whiteboard interface in the third cooperative interface, and indicating the allopatric terminals in the first group to display the second whiteboard interface in the fourth cooperative interface.

For example, fig. 7 is a schematic view of another collaboration interface provided in the present application, which is a schematic view of a third collaboration interface. Referring to fig. 7, a first whiteboard interface 31, a group list 32 of offsite terminals within the first group, and a control bar 33 are currently displayed in the third collaboration interface. In the control bar 33, a control 3301 for stopping the whiteboard sharing function is displayed, and a part of the controls is hidden. Also displayed in the third conference interface is data 34 of the current speaker. It is understood that if the local person is the current speaker, the data 34 is the second data, and if the person at any one of the terminals in the first group is the current speaker, the data 34 is the first data.

And step 360, receiving a second control operation acting on the first whiteboard interface.

Step 370, in response to the second control operation, displaying a corresponding first writing track in the first whiteboard interface.

And 380, sending the first writing track to the remote terminal in the first group, so that the remote terminal displays the first writing track in the second whiteboard interface.

And 390, receiving a second writing track sent by the remote terminal in the first group, wherein the second writing track is displayed in a second whiteboard interface corresponding to the remote terminal.

Step 3100, displaying the second writing trace in the first whiteboard interface.

Step 3110 receives an end group command.

The end group command is a command for ending the group discussion. In one embodiment, when both a local terminal and a remote terminal in a first group can use a group management control, each person participating in collaboration in the first group can control the end of group discussion, in the embodiment, the group discussion is ended by taking the local person as an example for description, after the group discussion is completed, if the local terminal detects that an end sub-control receives a click operation, it is determined that a group ending instruction is received, and the group ending instruction is sent to the remote terminal in the first group. Or only the terminal corresponding to the group leader in the first group can control the end of the group discussion, if the local terminal is the terminal used by the group leader, the local terminal displays a group management control, and when detecting that the end sub-control receives the click operation, the local terminal determines to receive the group ending instruction and sends the group ending instruction to the remote terminal in the first group. In another embodiment, the group discussion is ended by the moderator when the moderator is present. The host can send a group ending instruction through an ending sub-control displayed in the management terminal, and then the management terminal sends the group ending instruction to the local terminal and the remote terminals in the first group, so that the local terminal and the remote terminals in the first group receive the group ending instruction.

It is understood that the reception of the end group instruction may be performed at any time after the local terminal joins the first group.

And 3120, responding to the group ending instruction, and restoring the third cooperative interface to the first cooperative interface.

In an embodiment, the group discussion exits according to the group ending instruction, and at this time, the third collaborative interface is restored to the first collaborative interface, that is, the first data of all the remote terminals are restored and displayed. Correspondingly, the remote terminals in the group are restored to the second collaboration interface from the fourth collaboration interface. It can be appreciated that other teams still only display the collaboration interfaces within their team if they are still engaged in a team discussion. If the host exists, after a group discussion is finished by a certain group, the management terminal of the host displays the grouping area corresponding to the group in the sixth collaboration interface in a distinguishing manner, or deletes the grouping area corresponding to the group in the sixth collaboration interface to prompt the host that the group discussion is finished. In an embodiment, after all the group discussions are finished, the management terminal used by the moderator may restore the sixth collaborative interface to the first collaborative interface, or prompt whether to restore the sixth collaborative interface to the first collaborative interface in the sixth collaborative interface, and restore the sixth collaborative interface to the first collaborative interface when the moderator selects "yes".

In an embodiment, when the group ending instruction is received, the first whiteboard interface of the third collaboration interface further displays a first writing track and a second writing track. Therefore, when the third collaboration interface is restored to the first collaboration interface, the shared whiteboard function in the first group should be ended, and the content of the first whiteboard interface is saved, so as to facilitate subsequent query and use. At this time, when responding to the instruction of finishing the group, the method further comprises: and saving the first interface content in the first whiteboard interface. It should be noted that the first interface content includes a first writing track and a second writing track in the current first whiteboard interface. If the contents such as pictures, documents, audio, video and the like are inserted into the first whiteboard interface, the contents of the first interface also include the inserted contents. The embodiment of the storage format of the first interface content is not limited. Optionally, saving the first interface content may be performed by the electronic whiteboard application, and the collaborative application may call the saved first interface content in combination with its own condition. It is understood that the offsite terminals within the first group may also store the first interface content.

In an embodiment, the first interface content in the first group may also be shared with other groups, and at this time, after the displaying the first whiteboard interface in the third collaborative interface in response to the first control operation in the collaborative operation method, the method further includes: receiving an inter-group whiteboard sharing instruction; and responding to the inter-group whiteboard sharing instruction, and sending the first interface content of the first whiteboard interface to the remote terminal outside the first group, so that the remote terminal displays the first interface content in the corresponding second whiteboard interface.

In one embodiment, the inter-group whiteboard sharing instruction is used for sharing a first whiteboard interface in a first group to a remote terminal of at least one other group. In the embodiment, a description is given by taking an example in which a local terminal serves as an initiator of whiteboard content sharing and shares the whiteboard content with other groups. According to an optional mode, when group discussion is carried out, a local terminal displays a group management control, a display white board sub-control used for displaying a white board interface in a group exists in the group management control, when the display white board sub-control is detected to receive control operation (such as clicking operation), a sharing instruction of the group white board is determined to be received, and all allopatric terminals of other groups are informed, so that the allopatric terminals definitely need to receive and display the first interface content of the local terminal. At this time, the local terminal may first confirm the grouping situation (where, the embodiment of the means for determining the grouping situation is not limited, for example, a request for querying the group to which the local terminal belongs is sent to all other groups, and an identifier of the group to which the other groups belong is received according to the request, and then, the grouping situation is determined according to the identifier, and then, a request for querying the grouping situation is sent to the management terminal where the host is located, and grouping information fed back by the management terminal according to the request is received, where the grouping information may include the identifier of the group and the remote terminals included in the group, and the local terminal may determine the grouping situation according to the grouping information), and then, the local person selects the shared group according to the grouping situation. It can be understood that the local person may issue the inter-group whiteboard sharing instruction during the group discussion, or may issue the inter-group whiteboard sharing instruction after the group discussion is finished. Optionally, after the group discussion is finished, if the group management control is also displayed on the current collaborative interface, local personnel may send an inter-group whiteboard sharing instruction by displaying the whiteboard sub-control. If the group management control is not displayed on the current conference interface, local personnel may start the sharing whiteboard function after the first collaboration interface is restored, and then, sharing may be implemented by displaying the saved first interface content in the first whiteboard interface, and at this time, the instruction for displaying the first interface content in the first whiteboard interface may be regarded as an inter-group whiteboard sharing instruction. Another optional mode is that when a host exists in the video conference, the local terminal can perform data communication with the management terminal so that the management terminal informs the host of the current requirement of sharing the whiteboard, then the host selects a grouping area where the first group is located in the management terminal, and sends control operation aiming at the display whiteboard sub-control, at this moment, the management terminal informs the local terminal of agreeing to the requirement of sharing the whiteboard according to the operation of the host, and at present, the notification of agreeing to the requirement of sharing the whiteboard can be regarded as an inter-group whiteboard sharing instruction. Correspondingly, the host informs all the remote terminals in the group which needs to display the first whiteboard content (the group which needs to display the first whiteboard content can be determined by selecting the grouping area), so that the remote terminals definitely need to receive and display the first whiteboard content of the local terminal.

Illustratively, the process of responding to the command for sharing the whiteboard between groups is as follows: and sending the first interface content to the remote terminals of the other selected groups so that the remote terminals can display in the second whiteboard interfaces. Optionally, if the remote terminal is in a group discussion state, the local terminal may send the first interface content to a remote terminal in another group, and correspondingly, the remote terminal that receives the first interface content starts a shared whiteboard function in its group, so as to share the first interface content in the group. It can be understood that, when the first writing content is shared, the remote terminal does not display the second whiteboard interface, the second whiteboard interface is displayed first, and then the shared first interface content is displayed.

It should be noted that the remote terminal receiving the share only displays the first interface content, but cannot perform the operation.

It is understood that in addition to the first team sharing the first interface content to other teams, other teams may also share their corresponding interface content to the first team and/or at least one other team. In an embodiment, taking an example that another group shares corresponding interface content with the first group as an example for description, at this time, the cooperative operation method further includes: receiving second interface content sent by the third group, wherein the second interface content is shared whiteboard interface content in the third group; and displaying the second interface content in the first whiteboard interface.

In one embodiment, the group that initiated sharing of interface content with the first group is designated as the third group. The interface content shared by the third team is marked as second interface content. Any of the displaced terminals in the third group (as may be determined by the discussion of the people within the third group) may act as the initiator of the sharing. The process of sharing the second interface content by the third team is the same as the process of sharing the first interface content by the first team, and is not repeated herein. In the embodiment, the example that the local terminal receives the second interface content is taken as an example for description, at this time, the local terminal displays the second interface content in the first whiteboard interface.

As described above, after the discussion is over, the first whiteboard interface can be saved for subsequent viewing and use. In an embodiment, the content in the electronic whiteboard in the group can be shared to a non-local terminal in the non-group for displaying, so that remote personnel can clearly discuss the group, and the sharing flexibility of the electronic whiteboard is increased.

On the basis of the above embodiment, in addition to sharing the first writing track in the group, the desktop of any terminal can be shared in the group. In the embodiment, the shared local terminal is taken as an example for description. At this time, a desktop sharing control is also displayed in the third collaborative interface; after the first whiteboard interface is displayed in the third collaborative interface, the method further includes: receiving a third control operation acting on the desktop sharing control; responding to a third control operation, and replacing the third cooperative interface with a local desktop; and sending the local desktop to a remote terminal in the first group, so that the remote terminal can replace the corresponding fourth collaboration interface with the local desktop.

The desktop sharing control is used for achieving desktop sharing functions. The display position of the desktop sharing control can be set according to actual conditions, for example, the desktop sharing control is integrated in a control bar where the shared whiteboard control is located. In the embodiment, the control operation applied to the desktop sharing control is recorded as a third control operation, the third control operation is used for starting the shared desktop function, and the third control operation may be a touch operation or an operation sent by an external device (such as a mouse). Optionally, after the shared desktop function is started, if a third control operation for the desktop sharing control is received again, it is determined that the third control operation is used to end the shared desktop function. Optionally, after the shared desktop function is started, the desktop sharing control is changed into a sharing stopping control, where the sharing stopping control is used to stop the shared desktop function. And if the local terminal detects the operation aiming at the stop sharing control, determining to finish the sharing desktop function.

In an embodiment, when the shared desktop function is started, the third collaborative interface is switched to the background and the local desktop is displayed. And then, recording the local desktop (namely the display content of the display screen), and sending the recorded data to each remote terminal in the first group. The embodiment of the recording means is not described herein. During the recording process, local personnel can operate in the desktop, and the operation process can be recorded by the local terminal. It will be appreciated that the process of sending the recorded data to each offsite terminal within the first group is equivalent to the process of sending the local desktop to the offsite terminal within the first group.

And after the remote terminal receives the local desktop, displaying a sub-interface for displaying the local desktop in the fourth cooperative interface. In one embodiment, the sub-interface and the second whiteboard interface are located in the same area, that is, the change process of the fourth collaborative interface when the sub-interface is displayed is the same as the change process when the second whiteboard interface is displayed in the fourth collaborative interface. In an embodiment, after the sub-interface is displayed, the received local desktop is displayed in the sub-interface, so as to realize the function of sharing the desktop in the group.

Since the local terminal is currently in a group discussion state, the shared desktop function is specifically to share a desktop within the first group. In practical applications, if the local terminal is not in the group discussion state, the desktop sharing function may be to share the desktop among all the remote terminals participating in the collaboration, and the process is the same as the process of sharing the desktop in the first group.

In an embodiment, after the desktop sharing function is finished, the local terminal switches the third collaboration interface back to the foreground for display. And deleting the sub-regions in the fourth collaboration interface by the remote terminals in the first group, and restoring to display the contents between the sub-regions.

It should be noted that the operation of receiving the third control operation acting on the desktop sharing control may also be performed after the first collaborative interface is transformed into the third collaborative interface. The examples are not intended to limit the scope thereof.

By the aid of the desktop sharing control, local desktops are shared in groups during group discussion, collaboration functionality is enriched, and use experience of collaboration participants is improved.

Fig. 8 is a schematic structural diagram of a cooperative operation apparatus according to an embodiment of the present application. Referring to fig. 8, the cooperative operation device includes: a first display module 401, a first receiving module 402, a second display module 403, a second receiving module 404, a third display module 405, a third receiving module 406, a fourth display module 407, a first sharing module 408, a fourth receiving module 409, and a fifth display module 4010.

The system comprises a first display module 401, a first display module, a second display module and a second display module, wherein the first display module is used for displaying a first collaboration interface, first data of each remote terminal participating in collaboration and second data of a local terminal are displayed in the first collaboration interface, a second collaboration interface is displayed in each remote terminal, and the first data and the second data respectively comprise at least one of video image data, audio data and identification data; a first receiving module 402, configured to receive a first grouping instruction, where the first grouping instruction is used to instruct a local terminal to join a first group, where the first group includes the local terminal and at least one different-location terminal; a second display module 403, configured to, in response to the first grouping instruction, convert the first collaborative interface into a third collaborative interface, where the third collaborative interface displays the second data, a shared whiteboard control, and first data of each remote terminal in the first group, and each remote terminal in the first group converts the second collaborative interface into a fourth collaborative interface; a second receiving module 404, configured to receive a first control operation acting on the shared whiteboard control; a third display module 405, configured to, in response to the first control operation, display a first whiteboard interface in the third collaborative interface, and instruct a remote terminal in the first group to display a second whiteboard interface in the fourth collaborative interface; a third receiving module 406, configured to receive a second control operation applied to the first whiteboard interface; a fourth display module 407, configured to display, in response to the second control operation, a corresponding first writing track in the first whiteboard interface; a first sharing module 408, configured to send the first writing track to a remote terminal in the first group, so that the remote terminal displays the first writing track in the second whiteboard interface; a fourth receiving module 409, configured to receive a second writing track sent by a different-place terminal in the first group, where the second writing track is displayed in a second whiteboard interface corresponding to the different-place terminal; a fifth display module 4010, configured to display the second writing trajectory in the first whiteboard interface.

On the basis of the above embodiment, the method further includes: a fifth receiving module, configured to receive a group ending instruction; and a sixth display module, configured to restore the third collaborative interface to the first collaborative interface in response to the end group instruction.

On the basis of the above embodiment, the method further comprises the following steps: and the storage module is used for storing the first interface content in the first whiteboard interface when responding to the group ending instruction.

On the basis of the above embodiment, the method further comprises the following steps: a sixth receiving module, configured to receive a group exit instruction after the second writing trajectory is displayed in the first whiteboard interface; a seventh display module, configured to restore the third collaborative interface to the first collaborative interface in response to the instruction to exit from the group; a seventh receiving module, configured to receive a second grouping instruction, where the second grouping instruction is used to instruct the local terminal to join the second group; and an eighth display module, configured to convert, in response to the second grouping instruction, the first collaboration interface into a fifth collaboration interface, where the fifth collaboration interface displays the second data, the shared whiteboard control, and the first data of each remote terminal in the second group.

On the basis of the above embodiment, the method further comprises the following steps: an eighth receiving module, configured to receive an inter-group whiteboard sharing instruction after the first whiteboard interface is displayed in the third collaborative interface in response to the first control operation; and the second sharing module is used for responding to the inter-group whiteboard sharing instruction, and sending the first interface content of the first whiteboard interface to a remote terminal outside the first group so as to enable the remote terminal to display the first interface content in a corresponding second whiteboard interface.

On the basis of the above embodiment, the method further includes: a ninth receiving module, configured to receive second interface content sent by the third group, where the second interface content is whiteboard interface content shared in the third group; and the ninth display module is used for displaying the second interface content in the first whiteboard interface.

On the basis of the foregoing embodiment, a desktop sharing control is further displayed in the third collaboration interface, which further includes: a tenth receiving module, configured to receive a third control operation that acts on the desktop sharing control after the first whiteboard interface is displayed in the third collaboration interface; a tenth display module, configured to change the third collaboration interface to a local desktop in response to the third control operation; and the third sharing module is used for sending the local desktop to a different-place terminal in the first group so that the different-place terminal can replace a corresponding fourth collaboration interface with the local desktop.

On the basis of the above embodiment, the local terminal is a management terminal that manages all the remote terminals participating in the collaboration, and a group discussion control is also displayed in the first collaboration interface; further comprising: an eleventh receiving module, configured to receive a fourth control operation acting on the grouped discussion control; an eleventh display module, configured to transform the first collaborative interface into a sixth collaborative interface in response to the fourth control operation, where a group management control and a plurality of grouping regions are displayed in the sixth collaborative interface, each grouping region corresponds to one group, and the group management control is used to implement group management; and the first sending module is used for sending a third grouping instruction to each remote terminal so that the remote terminals join the corresponding group according to the third grouping instruction.

On the basis of the above embodiment, the method further includes: a twelfth receiving module, configured to send a third grouping instruction to each remote terminal, so that after the remote terminal joins a corresponding group according to the third grouping instruction, the remote terminal receives a fifth control operation for the first target grouping area; a twelfth display module, configured to display, in response to the fifth control operation, a collaborative interface of a group corresponding to the first target grouping area in the sixth collaborative interface.

On the basis of the above embodiment, the method further comprises the following steps: a thirteenth receiving module, configured to send a third grouping instruction to each remote terminal, so that after the remote terminal joins a corresponding group according to the third grouping instruction, the remote terminal receives a sixth control operation for the second target grouping area and a seventh control operation for the third target grouping area; and a second sending module, configured to send, in response to the sixth control operation and the seventh control operation, the collaborative interface of the group corresponding to the second target grouping area to the collaborative interface of the group corresponding to the third target grouping area for display.

On the basis of the above embodiment, the first sharing module 408 includes: a metadata acquisition unit configured to acquire metadata of the first writing track; a data encoding unit for encoding the metadata to obtain encoded data; the data mixing unit is used for mixing the coded data and the second data to obtain a data packet; and the data sending unit is used for sending the data packet to a remote terminal in the first group so that the remote terminal can obtain the second data and the coded data through the data packet and display a first writing track obtained based on the coded data in the second whiteboard interface.

The cooperative operation device provided by the above is integrated in the cooperative operation terminal, can be used for executing the operation related to the cooperative operation method provided by any of the above embodiments, and has corresponding functions and beneficial effects.

It should be noted that, in the embodiment of the above-mentioned cooperative operation apparatus, the included units and modules are merely divided according to the functional logic, but are not limited to the above-mentioned division as long as the corresponding functions can be realized; in addition, specific names of the functional units are only used for distinguishing one functional unit from another, and are not used for limiting the protection scope of the application.

Fig. 9 is a schematic structural diagram of a cooperative operation terminal according to an embodiment of the present application. As shown in fig. 9, the cooperative operation terminal is described by taking an interactive smart tablet as an example, and in this case, the cooperative operation terminal 10 includes at least one processor 11, at least one network interface 12, a user interface 13, a memory 14 and at least one communication bus 15.

Wherein a communication bus 15 is used to enable the connection communication between these components.

The user interface 13 includes a display screen and a camera, and the selectable user interface 13 may further include a standard wired interface and a standard wireless interface. The display screen may display the first collaboration interface and update the display according to the control of the processor 11.

The network interface 12 may optionally include a standard wired interface, a wireless interface (e.g., a Wi-Fi interface), among others.

Processor 11 may include one or more processing cores, among other things. The processor 11 connects various parts within the overall cooperative terminal 10 using various interfaces and lines, and performs various functions of the cooperative terminal 10 and processes data by executing or executing instructions, programs, code sets, or instruction sets stored in the processor 11 and calling data stored in the memory 14. Alternatively, the processor 11 may be implemented in at least one hardware form of Digital Signal Processing (DSP), Field-Programmable Gate Array (FPGA), and Programmable Logic Array (PLA). The processor 11 may integrate one or a combination of a Central Processing Unit (CPU), a Graphics Processing Unit (GPU), a modem, and the like. The CPU mainly processes an operating system, a user interface, an application program and the like; the GPU is used for rendering and drawing the content required to be displayed by the display screen; the modem is used to handle wireless communications. It is understood that the above modem may not be integrated into the processor 11, and may be implemented by a single chip.

The Memory 14 may include a Random Access Memory (RAM) or a Read-Only Memory (Read-Only Memory). Optionally, the memory 14 includes a non-transitory computer-readable medium. The memory 14 may be used to store instructions, programs, code sets or instruction sets. The memory 14 may include a program storage area and a data storage area, wherein the program storage area may store instructions for implementing an operating system, instructions for at least one function (such as a touch function, a sound playing function, an image playing function, etc.), instructions for implementing the various method embodiments described above, and the like; the storage data area may store data and the like referred to in the above respective method embodiments. The memory 14 may alternatively be at least one memory device located remotely from the aforementioned processor 11. As shown in fig. 9, the memory 14, which is a kind of computer storage medium, may include therein an operating system, a network communication module, a user interface module, and an operation application program of a cooperative operation terminal.

In the cooperative operation terminal 10 shown in fig. 9, the user interface 13 is mainly used as an interface for providing input for a user, and acquiring data input by the user; and the processor 11 may be configured to call the operation application of the cooperative operation terminal stored in the memory 14, and specifically perform the relevant operation in the cooperative operation method in the above-described embodiment.

The cooperative operation terminal can be used for executing the cooperative operation method provided by any embodiment, and has corresponding functions and beneficial effects.

In addition, the present application also provides a storage medium containing computer-executable instructions, which when executed by a computer processor, are used for performing relevant operations in the cooperative operation method provided in any embodiment of the present application, and have corresponding functions and advantages.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product.

Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein. The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks. These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks. These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

In one exemplary configuration, a computing device includes one or more processors (CPUs), an input/output interface, a network interface, and memory. The memory may include forms of volatile memory in a computer readable medium, Random Access Memory (RAM) and/or non-volatile memory, such as Read Only Memory (ROM) or flash memory (flash RAM). The memory is an example of a computer-readable medium.

Computer-readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, phase change memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices, or any other non-transmission medium that can be used to store information that can be accessed by a computing device. As defined herein, computer readable media does not include transitory computer readable media (transmyedia) such as modulated data signals and carrier waves.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in the process, method, article, or apparatus that comprises the element.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present application and the technical principles employed. It will be understood by those skilled in the art that the present application is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the application. Therefore, although the present application has been described in more detail with reference to the above embodiments, the present application is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present application, and the scope of the present application is determined by the scope of the appended claims.

Claims (14)

1. A method of collaborative operation, comprising:

   displaying a first collaboration interface, wherein first data of each remote terminal participating in collaboration and second data of a local terminal are displayed in the first collaboration interface, a second collaboration interface is displayed in each remote terminal, and the first data and the second data respectively comprise at least one of video picture data, audio data and identity data;

   receiving a first grouping instruction, wherein the first grouping instruction is used for indicating a local terminal to join a first group, and the first group comprises the local terminal and at least one allopatric terminal;

   in response to the first grouping instruction, transforming the first collaborative interface into a third collaborative interface, where the third collaborative interface displays the second data, a shared whiteboard control, and first data of each offsite terminal in the first group, and each offsite terminal in the first group transforms the second collaborative interface into a fourth collaborative interface;

   receiving a first control operation acting on the shared whiteboard control;

   responding to the first control operation, displaying a first whiteboard interface in the third cooperative interface, and instructing allopatric terminals in the first group to display a second whiteboard interface in the fourth cooperative interface;

   receiving a second control operation acting on the first whiteboard interface;

   responding to the second control operation, and displaying a corresponding first writing track in the first whiteboard interface;

   sending the first writing track to a remote terminal in the first group, so that the remote terminal displays the first writing track in the second whiteboard interface;

   receiving a second writing track sent by a different-place terminal in the first group, wherein the second writing track is displayed in a second whiteboard interface corresponding to the different-place terminal;

   displaying the second writing trajectory in the first whiteboard interface.
2. The cooperative operation method according to claim 1, further comprising:

   receiving an end group instruction;

   restoring the third collaborative interface to the first collaborative interface in response to the end group instruction.
3. The co-operating method of claim 1, wherein the responding to the end-team instruction further comprises:

   and saving the first interface content in the first whiteboard interface.
4. The collaborative method according to claim 1, wherein the displaying the second writing trajectory in the first whiteboard interface, includes:

   receiving an exit group instruction;

   restoring the third collaborative interface to the first collaborative interface in response to the exit team instruction;

   receiving a second grouping instruction, wherein the second grouping instruction is used for indicating the local terminal to join a second group;

   and responding to the second grouping instruction, and transforming the first collaborative interface into a fifth collaborative interface, wherein the second data, the shared whiteboard control and the first data of each allopatric terminal in the second group are displayed in the fifth collaborative interface.
5. The collaborative method according to claim 1, wherein the displaying, in response to the first control operation, a first whiteboard interface in the third collaborative interface further comprises:

   receiving an inter-group whiteboard sharing instruction;

   and responding to the inter-group whiteboard sharing instruction, and sending the first interface content of the first whiteboard interface to a remote terminal outside the first group, so that the remote terminal displays the first interface content in a corresponding second whiteboard interface.
6. The cooperative operation method according to claim 5, further comprising:

   receiving second interface content sent by the third group, wherein the second interface content is shared whiteboard interface content in the third group;

   and displaying the second interface content in the first whiteboard interface.
7. The collaborative operation method according to claim 1, wherein a desktop sharing control is further displayed in the third collaborative interface;

   after the displaying the first whiteboard interface in the third collaborative interface, the method further includes:

   receiving a third control operation acting on the desktop sharing control;

   responding to the third control operation, and replacing the third cooperative interface with a local desktop;

   and sending the local desktop to a remote terminal in the first group, so that the remote terminal can replace the corresponding fourth collaboration interface with the local desktop.
8. The cooperative operation method according to claim 1, wherein the local terminal is a management terminal that manages all the remote terminals participating in the cooperation, and a group discussion control is further displayed in the first cooperative interface;

   further comprising:

   receiving a fourth control operation acting on the grouped discussion control;

   responding to the fourth control operation, transforming the first collaborative interface into a sixth collaborative interface, wherein a group management control and a plurality of grouping areas are displayed in the sixth collaborative interface, each grouping area corresponds to one group, and the group management control is used for realizing group management;

   and sending a third grouping instruction to each remote terminal so that the remote terminals join the corresponding groups according to the third grouping instruction.
9. The method of claim 8 wherein said sending a third grouping instruction to each of said displaced terminals to cause said displaced terminals to join a respective group according to said third grouping instruction further comprises:

   receiving a fifth control operation for the first target packet zone;

   and responding to the fifth control operation, and displaying the collaborative interface of the group corresponding to the first target grouping area in the sixth collaborative interface.
10. The method of claim 8 wherein said sending a third grouping instruction to each of said displaced terminals to cause said displaced terminals to join a respective group according to said third grouping instruction further comprises:

    receiving a sixth control operation for the second target packet zone and a seventh control operation for the third target packet zone;

    and responding to the sixth control operation and the seventh control operation, and sending the collaborative interface of the group corresponding to the second target grouping area to the collaborative interface of the group corresponding to the third target grouping area for displaying.
11. The collaborative method of claim 1, wherein the sending the first writing trace to a displaced terminal within the first group to cause the displaced terminal to display the first writing trace in the second whiteboard interface comprises:

    acquiring metadata of the first writing track;

    encoding the metadata to obtain encoded data;

    mixing the coded data and the second data to obtain a data packet;

    and sending the data packet to a remote terminal in the first group, so that the remote terminal obtains the second data and the encoded data through the data packet and displays a first writing track obtained based on the encoded data in the second whiteboard interface.
12. A cooperative operation apparatus, comprising:

    the system comprises a first display module, a first collaboration interface and a second display module, wherein the first collaboration interface displays first data of each remote terminal participating in collaboration and second data of a local terminal, a second collaboration interface is displayed in each remote terminal, and the first data and the second data respectively comprise at least one of video image data, audio data and identity data;

    a first receiving module, configured to receive a first grouping instruction, where the first grouping instruction is used to instruct a local terminal to join a first group, and the first group includes the local terminal and at least one remote terminal;

    a second display module, configured to transform the first collaborative interface into a third collaborative interface in response to the first grouping instruction, where the third collaborative interface displays the second data, a shared whiteboard control, and first data of each remote terminal in the first group, and each remote terminal in the first group transforms the second collaborative interface into a fourth collaborative interface;

    the second receiving module is used for receiving a first control operation acting on the shared whiteboard control;

    a third display module, configured to, in response to the first control operation, display a first whiteboard interface in the third collaborative interface, and instruct a remote terminal in the first group to display a second whiteboard interface in the fourth collaborative interface;

    a third receiving module, configured to receive a second control operation that acts on the first whiteboard interface;

    the fourth display module is used for responding to the second control operation and displaying the corresponding first writing track in the first whiteboard interface;

    the first sharing module is used for sending the first writing track to a remote terminal in the first group so that the remote terminal can display the first writing track in the second whiteboard interface;

    a fourth receiving module, configured to receive a second writing track sent by a different-place terminal in the first group, where the second writing track is displayed in a second whiteboard interface corresponding to the different-place terminal;

    and the fifth display module is used for displaying the second writing track in the first whiteboard interface.
13. A cooperative terminal, comprising:

    the display screen is used for displaying the first collaboration interface;

    one or more processors;

    a memory for storing one or more programs;

    when executed by the one or more processors, cause the one or more processors to implement a co-operating method as claimed in any one of claims 1-11.
14. A computer-readable storage medium, on which a computer program is stored, wherein the program, when executed by a processor, implements a co-operating method as claimed in any one of claims 1 to 11.

Images