CN111953923A - Network conference processing method and device, electronic equipment and storage medium - Google Patents

Abstract

The application provides a network conference processing method, a network conference processing device, electronic equipment and a computer readable storage medium; relates to the application of cloud technology in the field of network conferences; the method comprises the following steps: receiving multimedia data of the network conference; presenting the contents of the network conference in a man-machine interaction interface according to the multimedia data, and presenting a barrage editing inlet in the man-machine interaction interface; responding to the barrage editing operation in the barrage editing entry, and presenting the inputted barrage; and responding to the bullet screen sending operation, presenting the bullet screen in the man-machine interaction interface so as to send the bullet screen to the participant objects of the network conference. According to the method and the device, deep and efficient interaction aiming at the conference content can be realized in a resource intensive mode, so that the conference quality is promoted.

Description

Network conference processing method and device, electronic equipment and storage medium

Technical Field

The present application relates to the field of internet technologies, and in particular, to a method and an apparatus for processing a web conference, an electronic device, and a computer-readable storage medium.

Background

The development of internet technology has accelerated the process of digital reform in enterprises or government departments, and large-scale enterprises or government departments have begun to adopt web conferences instead of traditional conferences. The network conference is realized based on the cloud technology, the complexity and the participation threshold of conference organization are greatly reduced, and the network conference is a more economic and flexible choice for enterprises or government departments. Its preparation period is short, cost is low, at the same time it is hardly limited by time space.

However, in the course of implementing the present application, the applicant finds that the network conference technology provided by the related art only has a simple chat mode, and such a traditional interaction mode limits the depth and efficiency of information interaction of conference participants, and for this reason, the conference participants have to need other approaches to further interaction during the conference or after the conference is finished. Obviously, this is a huge waste of resources for the web conference, including computing resources and communication resources of the backend server.

In conclusion, in a resource-intensive manner, how to extend a deep and efficient interaction manner in a network conference system and promote conference quality, an effective solution is not available in the related art.

Disclosure of Invention

The embodiment of the application provides a network conference processing method and device, electronic equipment and a computer readable storage medium, which can realize deep and efficient interaction aiming at conference contents in a resource intensive manner, thereby promoting conference quality.

The technical scheme of the embodiment of the application is realized as follows:

the embodiment of the application provides a network conference processing method, which comprises the following steps:

receiving multimedia data of the network conference;

presenting the contents of the network conference in a man-machine interaction interface according to the multimedia data, and presenting a barrage editing inlet in the man-machine interaction interface;

responding to the barrage editing operation in the barrage editing entry, and presenting the inputted barrage;

and responding to the bullet screen sending operation, presenting the bullet screen in the man-machine interaction interface so as to send the bullet screen to the participant objects of the network conference.

An embodiment of the present application provides a network conference processing apparatus, including:

the receiving module is used for receiving multimedia data of the network conference;

the presentation module is used for presenting the contents of the network conference in a man-machine interaction interface according to the multimedia data and presenting a barrage editing inlet in the man-machine interaction interface;

the presentation module is further used for responding to the barrage editing operation in the barrage editing entry and presenting the inputted barrage;

and the sending module is used for responding to a bullet screen sending operation, presenting the bullet screen in the man-machine interaction interface and sending the bullet screen to the participant objects of the network conference.

In the above scheme, the presentation module is further configured to present a bullet screen setting entry in the human-computer interaction interface; and a setting interface for presenting a bullet screen in response to a bullet screen setting operation in the bullet screen setting entrance; the receiving module is further configured to receive setting information through the bullet screen setting interface, and apply the setting information to a bullet screen presentation process in the network conference; wherein the setting information includes at least one of: bullet screen attributes; all forbidden word switch settings; barrage authority; and (6) voting authority.

In the above scheme, the bullet screen attribute includes at least one of: the maximum length of a single bullet screen; the maximum number of bullet screens presented on a single screen.

In the above scheme, the apparatus further includes a determining module, configured to determine an average value of historical barrages according to the number of the historical barrages sent by each participant in the network conference and the length of the historical barrages, and use the average value as the maximum length of the single barrage; or determining the number of bullet screens capable of being presented in the maximum length in the human-computer interaction interface as the maximum number under the condition that the occupation proportion of the human-computer interaction interface does not exceed a proportion threshold.

In the above scheme, the barrage authority includes at least one of: the public chatting is used for controlling that any participant object in the network conference does not have the authority of private chatting other participant objects; the free chat is used for controlling any participant object in the network conference to have the authority of private chat on other participant objects; and the private chat conference initiator is used for controlling any participant object in the network conference to have the authority of the private chat conference initiator.

In the above scheme, the voting authority includes at least one of: the conference initiator voting authority is used for controlling the conference initiator of the network conference to have the voting initiating authority; and the participant object voting authority is used for controlling each participant object in the network conference to have the authority of initiating voting.

In the above scheme, the determining module is further configured to determine, in response to a participant object selecting operation, a participant object selected by a conference initiator as a participant object having an initiation voting right; or the participant object meeting at least one of the following conditions is determined as the participant object with the voting initiation right: the activity reaches the participation object of the activity threshold value; a meeting object having a social distance to the meeting initiator below a distance threshold; and the participant with the account number level reaching the level threshold value.

In the above scheme, the presentation module is further configured to present a bullet screen setting entry in the human-computer interaction interface; and a display unit for presenting the input voting content in response to the voting content editing operation in the bullet screen setting entrance; and the sending module is also used for responding to the voting content sending operation and sending the voting content to the participant objects of the network conference.

In the above scheme, the presentation module is further configured to continuously present the voting content in a bullet screen form; and the voting data is used for stopping presenting the voting content when the voting data submitted by corresponding to any one of the voting contents is received in the man-machine interaction interface of the participant object or the voting validity period is up; when the voting content is in a choice topic form, the voting data are selected voting options, and the voting options are used for being synchronously presented with the voting content; when the voting content is in a form of a blank question, the voting data is filled-in questionnaire data.

In the above scheme, the receiving module is further configured to receive a voting statistical result of the voting data of the participant object; the presentation module is further configured to present the voting statistic result in the human-computer interaction interface.

In the above scheme, the voting data submitted by the participant for the voting content is stored in the blockchain network; wherein, the uplink mode of the voting data comprises: and calling an intelligent contract of the block chain network to carry out consensus verification on the voting data, so that the voting data is stored in a block chain of the block chain network after the consensus verification of the voting data is passed.

In the above scheme, the voting statistical result is obtained from a block chain network; the method for acquiring the voting statistical result comprises the following steps: calling an intelligent contract of the block chain network to read voting data from a block chain of the block chain network, performing statistical processing on the read voting data to obtain a voting statistical result, and performing consensus verification on the voting statistical result; and receiving the voting statistical result after the consensus verification is passed.

In the above scheme, the receiving module is further configured to receive a bullet screen sent by any one of the participant objects to a target participant object, and filter the bullet screen sent by the participant object; wherein the filtering process comprises at least one of: deleting repeated bullet screens in the bullet screens; deleting the bullet screen containing the sensitive keywords in the bullet screen; and the sending module is also used for sending the filtered bullet screen to the target participant object.

An embodiment of the present application provides an electronic device, including:

a memory for storing executable instructions;

and the processor is used for realizing the network conference processing method provided by the embodiment of the application when the executable instructions stored in the memory are executed.

The embodiment of the present application provides a computer-readable storage medium, which stores executable instructions and is used for implementing the network conference processing method provided by the embodiment of the present application when being executed by a processor.

The embodiment of the application has the following beneficial effects:

through introducing the barrage function in the network conference to make the meeting object can exchange the interdynamic through the mode of sending the barrage, thereby alleviate the feared psychology of meeting object in the meeting network conference in-process, so, can improve the initiative and the enthusiasm of the communication interdynamic of meeting object on the one hand, on the other hand also can realize the deep and efficient interdynamic to the meeting content with resource intensive mode, realize real meeting discussion, and then improve the meeting quality.

Drawings

Fig. 1A is a schematic architecture diagram of a network conference system provided in an embodiment of the present application;

fig. 1B is a schematic architecture diagram of a network conference system provided in an embodiment of the present application;

fig. 2 is a schematic structural diagram of a terminal provided in an embodiment of the present application;

fig. 3A is a schematic flowchart of a network conference processing method provided in an embodiment of the present application;

fig. 3B is a schematic flowchart of a network conference processing method provided in an embodiment of the present application;

FIG. 4A is a schematic diagram of a human-computer interaction interface of a participant object according to an embodiment of the present disclosure;

FIG. 4B is a schematic diagram of a human-computer interaction interface of a conference initiator according to an embodiment of the present application;

FIG. 4C is a schematic diagram of a human-computer interaction interface of a participant object according to an embodiment of the present disclosure;

FIG. 4D is a schematic diagram of a human-computer interaction interface of a participant object according to an embodiment of the present disclosure;

fig. 5 is a schematic flowchart of a video conference processing method provided in an embodiment of the present application;

fig. 6 is a schematic flowchart of a video conference processing method provided in an embodiment of the present application;

fig. 7 is a schematic flowchart of a video conference processing method provided in an embodiment of the present application;

fig. 8 is a schematic flowchart of a video conference processing method according to an embodiment of the present application.

Detailed Description

In order to make the objectives, technical solutions and advantages of the present application clearer, the present application will be described in further detail with reference to the attached drawings, the described embodiments should not be considered as limiting the present application, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts shall fall within the protection scope of the present application.

In the following description, reference is made to "some embodiments" which describe a subset of all possible embodiments, but it is understood that "some embodiments" may be the same subset or different subsets of all possible embodiments, and may be combined with each other without conflict.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein is for the purpose of describing embodiments of the present application only and is not intended to be limiting of the application.

The terms referred to in the embodiments of the present application are applied to the following explanations.

1) The bullet screen is a commenting caption technology supporting real-time interaction of users when watching videos. And the user issues own comments in real time in the process of watching the video, and synchronously presents the comments and the video content by taking the video time point as a reference. The subtitle discussed by the user is displayed by scrolling on the screen, the original video picture can be covered when the number of the comments reaches the default degree, and the shape of the scrolling subtitle flies like a bullet, and is called as a bullet screen.

2) In the network conference, an interactive mode with a network (such as the internet and a local area network) as a communication medium is adopted, multimedia data in the form of voice, video and the like of a participant can be synchronized to a conference initiator and other participants in real time, and therefore the communication limit of the participants on the spatial distance is broken through.

In the process of implementing the embodiment of the application, the following is found: network conference software provided by the related art, such as online video conference software, generally has a simple chat mode, but the simple chat mode still belongs to the interactive mode of the traditional conference, and a conference initiator is an interactive initiator and takes a leading position, so that other participating objects lack of initiative and enthusiasm, and people can worry about problems or see disputes and the like, and thus, a hundred-warrior discussion cannot be formed. The conference interaction communication is in a form, lacks of inspiration on deep thought of the participant, cannot efficiently promote the conference quality, and is not beneficial to developing the conference activities. That is, the conventional interaction mode limits the depth and efficiency of information interaction of conference participants, and for this reason, the conference participants have to need other approaches to further interaction during the conference or after the conference is finished. Obviously, this is a huge waste of resources for the web conference, including computing resources and communication resources of the backend server.

In view of the foregoing technical problems, embodiments of the present application provide a network conference processing method, an apparatus, an electronic device, and a computer-readable storage medium, which on one hand can improve the enthusiasm and initiative of participant objects to promote communication and interaction between different participant objects, and on the other hand can provide a deep and efficient interaction manner for conference contents in a resource-intensive manner, thereby implementing a real conference discussion.

An exemplary application of the electronic device provided in the embodiment of the present application is described below, and the network conference processing method provided in the embodiment of the present application may be implemented by various electronic devices, for example, may be implemented by a terminal alone, or may be implemented by a server and a terminal in cooperation.

The following describes an example in which a server and a terminal cooperatively implement the network conference processing method provided in the embodiment of the present application. Referring to fig. 1A, fig. 1A is a schematic structural diagram of a network conference system 100 provided in an embodiment of the present application, where the network conference system 100 includes: the server 200, the network 300, and the terminals (the terminal 400-1 and the terminal 400-2 are exemplarily shown), which will be separately described.

The server 200 is configured to transmit multimedia data (e.g., video data, audio data, text data, etc.) of the network conference to the terminal 400-1 associated with the conference initiator and the terminal 400-2 associated with the participant, respectively. The server 200 is further configured to receive a barrage sent by any one of the conference initiator and the participant, and send the received barrage to terminals respectively associated with all users participating in the network conference (that is, including the conference initiator and the participant), for example, after receiving the barrage sent by the conference initiator, the server 200 sends the received barrage to the terminal 400-1 and the terminal 400-2, respectively.

The network 300, which is used as a medium for communication between the server 200 and the terminals 400-1 and 400-2, may be a wide area network or a local area network, or a combination of both.

The terminal 400-1 and the terminal 400-2 are respectively provided with a client 410-1 and a client 410-2, and are used for receiving the multimedia data of the network conference sent by the server 200 and presenting the content of the network conference in the man-machine interaction interface according to the received multimedia data. The client 410-1 and the client 410-2 are further configured to present a bullet screen editing entry in the human-computer interaction interface, so that when any user of the conference initiator and the participant wants to post his own opinion on the content of the network conference, the bullet screen editing operation can be performed in the bullet screen editing entry presented in the human-computer interaction interface, a bullet screen that is desired to be sent is input, and a sending button is clicked after the bullet screen editing operation is completed. Subsequently, the client 410-1 or the client 410-2 responds to the barrage sending operation, and sends the barrage input by the conference initiator or the participant to the server 200, so that the server 200 sends the received barrage to the terminals respectively associated with all the users participating in the network conference after receiving the barrage, and the received barrage can be presented in the human-computer interaction interfaces of the clients running on the terminals respectively associated with the conference initiator and the participant.

It should be noted that, the above embodiment is described by taking an example that two users (i.e., one conference initiator and one participant) participate in the network conference, in practical applications, the number of users participating in the network conference is not limited, and may be three users (i.e., one conference initiator and two participants), or more users (i.e., one conference initiator and multiple participants), and the embodiment of the present application is not particularly limited.

In some embodiments, the network conference processing method provided by the embodiment of the present application may also be implemented by the terminal alone. The terminal implements the network conference processing method provided by the embodiment of the application by running a computer program, wherein the computer program can be a native program or a software module in an operating system; may be a local (Nativ e) Application (APP), i.e. a program that needs to be installed in an operating system to run, such as a dedicated web conference client; or a web conference applet, i.e. a program that can be run only by downloading it into the browser environment of any client, thereby expanding the web conference function for the client. In general, the computer programs described above may be any form of application, module or plug-in.

For example, taking the terminal 400-1 in fig. 1A as an example, the terminal 400-1 runs with a client 410-1, and is configured to receive multimedia data of a web conference sent by the server 200, and present content of the web conference in a human-computer interaction interface according to the received multimedia data; the client 410-1 is further configured to present a bullet screen editing entry in the human-computer interaction interface, so that when a conference initiator wants to make a self opinion in a process of participating in the network conference, a bullet screen editing operation can be performed through the bullet screen editing entry presented in the human-computer interaction interface, a bullet screen that the conference initiator wants to make is input, and a sending button is clicked after the bullet screen editing operation is completed. Next, the client 410-1 transmits the barrage input by the conference initiator to the server 200 through the network 300 in response to the barrage transmission operation, so that the server 200 transmits the received barrage to the terminals associated with all the users participating in the network conference, for example, the server 200 transmits the barrage input by the conference initiator to the terminal 400-1 and the terminal 400-2, respectively.

It should be noted that the server 200 may be an independent physical server, may also be a server cluster or distributed system formed by a plurality of physical servers, and may also be a cloud server providing basic cloud computing services such as a cloud service, a cloud database, cloud computing, a cloud function, cloud storage, a network service, cloud communication, a middleware service, a domain name service, a security service, a CDN, and a big data and artificial intelligence platform. The terminal 400 may be, but is not limited to, a smart phone, a tablet computer, a notebook computer, a desktop computer, a smart speaker, a smart watch, and the like. The terminal and the server may be directly or indirectly connected through wired or wireless communication, and the embodiment of the present application is not limited herein.

In other embodiments, the network conference processing method provided in the embodiments of the present application may also be implemented by combining a block chain technology.

For example, referring to fig. 1B, the server 200 and the terminal 400-1 and the terminal 400-2 may all join the blockchain network 500 as one of the nodes. The type of blockchain network 500 is flexible and may be, for example, any of a public chain, a private chain, or a federation chain. Taking a public link as an example, an electronic device of any service subject, such as a terminal or a server, may access the blockchain network 500 without authorization, to serve as a common node of the blockchain network 500, for example, the server 200 in fig. 1A may be mapped to the common node 500-0 in the blockchain network 500 in fig. 1B, the terminal 400-1 in fig. 1A may be mapped to the common node 500-1 in the blockchain network 500 in fig. 1B, and the terminal 400-2 in fig. 1A may be mapped to the common node 500-2 in the blockchain network 500 in fig. 1B.

Taking the blockchain network 500 as an example of a federation chain, the server 200 and the terminals 400-1 and 400-2 may access the blockchain network 500 to become nodes after being authorized. And each node is provided with an intelligent contract used for completing consensus of voting data, uplink storage, voting data statistics and consensus of voting data statistics results. For example, after receiving the voting data sent by the terminal 400-1, the consensus node 500-1 may verify the voting data by invoking an intelligent contract, and sign a digital signature (i.e., endorsement) after the verification is passed, and broadcast the voting data signed with the digital signature to the blockchain network 500; wherein the condition of verification may comprise at least one of: the user who submits the voting data has voting authority (for example, the user can be set by the initiator of the network conference or the conditions for granting the voting authority are met), and the user who submits the voting data participates in the network conference (for example, the participation list can be pulled from the network conference server to determine whether to participate in the network conference). When the consensus node 500-1 collects enough signatures (e.g., more than half) for the voting data, it determines that the consensus verification for the voting data is passed and stores the voting data transmitted by the terminal 400-1 into the blockchain network 500.

After the voting is finished, when the conference initiator or the participant wants to check the voting statistical result, the client can also call an intelligent contract to read the voting data in the block chain network for statistics, so as to obtain the voting statistical result. For example, taking a conference initiator as an example, when the conference initiator wants to view the voting statistical result, a request may be sent to the blockchain network 500 through the client 400-1, so that the consensus node 500-1 invokes the intelligent contract to read the voting data stored in the blockchain network 500, and performs statistical analysis to obtain the voting statistical result. And then, performing consensus verification on the voting statistic results, so that when the consensus verification is passed, the client 400-1 receives the voting statistic results returned by the intelligent contract and presents the voting statistic results in a human-computer interaction interface. The process of consensus verification aiming at the voting statistical result comprises the following steps: each node (such as the node 500-1) sends the voting statistic result (carrying the digital signature of the node) calculated by the node) to the block chain network 500, so that other nodes (such as the node 500-0 and the node 500-2) carry out verification according to the voting data in the block chain maintained by the node, and when the two are consistent, the digital signatures of the other nodes are attached; when the voting statistic has a sufficient number (e.g., more than half) of digital signatures, the consensus verification for the voting statistic passes.

The structure of the terminal in fig. 1A is explained below. Referring to fig. 2, fig. 2 is a schematic structural diagram of a terminal 400 provided in an embodiment of the present application, where the terminal 400 shown in fig. 2 includes: at least one processor 410, memory 450, at least one network interface 420, and a user interface 430. The various components in the terminal 400 are coupled together by a bus system 440. It is understood that the bus system 440 is used to enable communications among the components. The bus system 440 includes a power bus, a control bus, and a status signal bus in addition to a data bus. For clarity of illustration, however, the various buses are labeled as bus system 440 in fig. 2.

The Processor 410 may be an integrated circuit chip having Signal processing capabilities, such as a general purpose Processor, a Digital Signal Processor (DSP), or other programmable logic device, discrete gate or transistor logic device, discrete hardware components, or the like, wherein the general purpose Processor may be a microprocessor or any conventional Processor, or the like.

The user interface 430 includes one or more output devices 431, including one or more speakers and/or one or more visual displays, that enable the presentation of media content. The user interface 430 also includes one or more input devices 432, including user interface components that facilitate user input, such as a keyboard, mouse, microphone, touch screen display, camera, other input buttons and controls.

The memory 450 may be removable, non-removable, or a combination thereof. Exemplary hardware devices include solid state memory, hard disk drives, optical disk drives, and the like. Memory 450 optionally includes one or more storage devices physically located remote from processor 410.

The memory 450 includes either volatile memory or nonvolatile memory, and may include both volatile and nonvolatile memory. The nonvolatile memory may be a Read Only Memory (ROM), and the volatile memory may be a Random Access Memory (RAM). The memory 450 described in embodiments herein is intended to comprise any suitable type of memory.

In some embodiments, memory 450 is capable of storing data, examples of which include programs, modules, and data structures, or a subset or superset thereof, to support various operations, as exemplified below.

An operating system 451, including system programs for handling various basic system services and performing hardware-related tasks, such as a framework layer, a core library layer, a driver layer, etc., for implementing various basic services and handling hardware-based tasks;

a network communication module 452 for communicating to other determining devices via one or more (wired or wireless) network interfaces 420, an exemplary network interface 420 comprising: bluetooth, wireless compatibility authentication (WiFi), and Universal Serial Bus (USB), etc.;

a presentation module 453 for enabling presentation of information (e.g., user interfaces for operating peripherals and displaying content and information) via one or more output devices 431 (e.g., display screens, speakers, etc.) associated with user interface 430;

an input processing module 454 for detecting one or more user inputs or interactions from one of the one or more input devices 432 and translating the detected inputs or interactions.

In some embodiments, the network conference processing device provided in the embodiments of the present application may be implemented in software, and fig. 2 shows the network conference processing device 455 stored in the memory 450, which may be software in the form of programs and plug-ins, and includes the following software modules: a receiving module 4551, a presenting module 4552, a sending module 4553 and a determining module 4554, which are logical and thus may be arbitrarily combined or further divided according to the functions implemented. The functions of the respective modules will be explained below.

In other embodiments, the network conference processing Device provided in this embodiment may be implemented in hardware, and for example, the network conference processing Device provided in this embodiment may be a processor in the form of a hardware decoding processor, which is programmed to execute the network conference processing method provided in this embodiment, for example, the processor in the form of the hardware decoding processor may be one or more Application Specific Integrated Circuits (ASICs), DSPs, Programmable Logic Devices (PLDs), Complex Programmable Logic Devices (CPLDs), Field Programmable Gate Arrays (FPGAs), or other electronic components.

The network conference processing method provided by the embodiment of the present application is described below, and the execution subject of the following method is mainly a terminal, and specifically, the terminal may be implemented by running the above various computer programs.

Referring to fig. 3A, fig. 3A is a schematic flowchart of a network conference processing method provided in an embodiment of the present application, and will be described with reference to the steps shown in fig. 3A.

In step S301A, the terminal receives the multimedia data of the web conference transmitted by the server.

In some embodiments, after the terminal receives a conference number input by a participant user in a man-machine interaction interface or receives a trigger operation of the participant user for a conference link, the terminal requests multimedia data of the network conference from the server. The trigger operation may be a single click, a double click, a sliding operation, or the like. The multimedia data of the web conference may be video data related to the web conference (e.g., screen video shared in real time by the conference initiator), audio data (e.g., voice data of the conference initiator), text data (conference synopsis or conference PPT), and the like.

For example, when a user a wants to join a network conference, the conference number and the password of the corresponding network conference may be input in the human-computer interaction interface of the network conference dedicated client, so that the network conference dedicated client requests the server for multimedia data of the network conference, such as screen data shared by a conference initiator in real time, and after the server verifies the conference number and the password input by the user a, the server sends the screen data shared by the conference initiator in real time to a terminal associated with the user a, so that the user a becomes a conference subject of the network conference.

In step S302A, the terminal presents the contents of the web conference in the man-machine interface according to the multimedia data, and presents the barrage editing entry in the man-machine interface.

In some embodiments, after receiving multimedia data (e.g., screen data shared by the conference initiator in real time) of the network conference sent by the server, the terminal performs rendering according to the received multimedia data to present the content of the network conference in a human-computer interaction interface of the terminal, e.g., present a screen shared by the conference initiator in real time in the human-computer interaction interface. In addition, the terminal also presents a barrage editing entry in the human-computer interaction interface, so that the participator can perform barrage editing operation in the barrage editing entry, and the viewpoint or the opinion of the participator can be expressed in a barrage sending mode.

In other embodiments, the terminal may also present other operation entries in the human-computer interaction interface, such as an invitation entry, for inviting a new participant to join the network conference; the management entrance is used for managing the participant objects participating in the network conference; and the chat entrance is used for triggering and presenting an online chat interface for interactive chat among different participant objects.

For example, referring to fig. 4A, fig. 4A is a schematic diagram of a human-computer interaction interface of a participant object provided in an embodiment of the present application. As shown in fig. 4A, the man-machine interface presents contents (for example, avatar information of a participant who is currently speaking) 41 of the web conference, a barrage edit portal 42, an invitation portal 43, a management portal 44, a chat portal 45, and the like.

According to the embodiment of the application, the barrage function is introduced into the network conference, so that the participator can express own view and opinion in a barrage sending mode, on one hand, the fear psychology of the participator is reduced, the participation discussion degree is improved, and the real conference discussion is realized; on the other hand, the conference quality can be promoted in a resource-intensive manner by providing a deep and efficient interaction manner for conference contents.

In step S303A, the terminal presents the inputted bullet screen in response to the bullet screen editing operation in the bullet screen editing entry.

In some embodiments, when the participant wants to send a bullet screen, the bullet screen editing operation may be executed in a bullet screen editing entry presented in the human-computer interaction interface, and the terminal responds when receiving the bullet screen editing operation of the user in the bullet screen editing entry and presents the bullet screen input by the participant in real time. The types of the barrage can include a plain text barrage, an expression barrage, a voice barrage, a picture barrage, a combined barrage of the text barrage and the picture barrage, and the like.

For example, referring to fig. 4A, the participant may input a bullet screen that is desired to be sent, such as a plain text bullet screen or an expression bullet screen, in a bullet screen editing entry 42 presented in the human-computer interaction interface, and the terminal responds after receiving the bullet screen input by the participant, and presents the bullet screen input by the user in real time in the bullet screen editing entry 42.

In step S304A, the terminal presents the barrage in the human-computer interaction interface in response to the barrage sending operation to send the barrage to the participant objects of the network conference.

In some embodiments, after receiving a barrage sending operation triggered by a participant object, the terminal sends the barrage to the server, so that the server sends the barrage to terminals respectively associated with all the participant objects participating in the network conference, and the barrage is presented in a human-computer interaction interface respectively corresponding to each participant object.

For example, taking the participant a as an example, when the participant a inputs a bullet screen to be transmitted in the bullet screen editing portal 42 and clicks the transmission button 46, the terminal responds to the bullet screen transmission operation and transmits the bullet screen input by the participant a to the server, so that the server transmits the bullet screen input by the participant a to all terminals respectively associated with the participants participating in the same network conference. For example, assuming that the participant objects participating in the same network conference include a participant object a, a participant object B, a participant object C, and a participant object D, the server receives the barrage transmitted by the terminal 1 associated with the participant object a, and then transmits the received barrages to the terminal 1 associated with the participant object a, the terminal 2 associated with the participant object B, the terminal 3 associated with the participant object C, and the terminal 4 associated with the participant object D, respectively, so that the barrages transmitted by the participant object a can be presented in time in the human-computer interaction interfaces corresponding to all the participant objects, respectively. At this time, after seeing the popup screen sent by the participant object a, the participant object B, the participant object C, or the participant object D can reply, so that the high-efficiency timeliness of conference feedback is achieved.

In some embodiments, the network conference processing method provided in the embodiment of the present application may further include steps S301B to S303B shown in fig. 3B, which will be described in conjunction with the steps shown in fig. 3B.

In step S301B, the terminal presents the bullet screen setting entry in the human-computer interaction interface.

In some embodiments, in order to facilitate the control of the conference order by the conference initiator, the terminal may further present a bullet screen setting entry in the human-computer interaction interface. And when the terminal receives the trigger operation of the conference initiator for setting the entrance for the bullet screen, presenting a bullet screen setting interface for the conference initiator to set information such as the attribute, the permission and the like of the bullet screen. The trigger operation may be a single-click operation, a double-click operation, a sliding operation, or the like for setting an entry to the bullet screen.

In step S302B, the terminal presents a bullet screen setting interface in response to a bullet screen setting operation in the bullet screen setting entry.

In some embodiments, after receiving a bullet screen setting operation of a conference initiator for a bullet screen setting inlet, the terminal responds and presents a bullet screen setting interface in a human-computer interaction interface so that the conference initiator can set information such as properties, bullet screen permission, voting permission and the like of a bullet screen.

For example, referring to fig. 4B, fig. 4B is a schematic diagram of a human-computer interaction interface of a conference initiator according to an embodiment of the present application. As shown in fig. 4B, a bullet screen setting entrance 47 may also be presented in the man-machine interface of the terminal, and when the conference initiator clicks the bullet screen setting entrance 47, a bullet screen setting interface 48 will be presented in the man-machine interface. Therefore, the conference initiator can set the information such as the property, the permission, the voting permission, and the all-banning switch of the barrage in the barrage setting interface 48, so as to facilitate the management of the conference initiator on the order of the network conference.

In step S303B, the terminal receives the setting information through the bullet screen setting interface, and applies the setting information to the bullet screen presentation process in the web conference; wherein the setting information includes at least one of: bullet screen attributes; all forbidden word switch settings; barrage authority; and (6) voting authority.

In some embodiments, the bullet screen attributes may include: the maximum length of a single bullet screen; the maximum number of bullet screens presented on a single screen.

For example, in order to make the conference objects speak more simply and save time, the conference initiator may set the maximum length of a single barrage that can be sent by each conference object in the barrage setting interface, for example, the maximum length of the single barrage may be set to 20 characters; in addition, in order to facilitate browsing of the participant for the barrage presented in the man-machine interaction interface, the conference initiator may also set the maximum number of barrages presented in a single screen in the barrage setting interface, for example, the maximum number of barrages presented in a single screen may be set to 20. Therefore, when each subsequent participant object sends the bullet screen, only 20 characters can be input into a single bullet screen at most, and the maximum number of the bullet screens presented in the human-computer interaction interface corresponding to each participant object is 20.

In the above embodiment, the maximum length of the single barrage that can be sent by each participant is the same. In other embodiments, the maximum length of a single barrage that can be sent by each participant can also be set differentially for different participants.

For example, the historical bullet screen average value may be determined according to the historical bullet screen number and the historical bullet screen length sent by each participant in the network conference, and the determined historical bullet screen average value is determined as the maximum length of a single bullet screen that can be sent by the corresponding participant. Therefore, when the number of the historical bullet screens sent by the participatory object is larger and the length of the sent historical bullet screens is longer, the maximum length of a single bullet screen which can be sent subsequently is longer, so that the participatory object can be promoted to send the bullet screens more, and the communication interaction efficiency of the conference is further improved.

In the above embodiment, the maximum number of barrages that can be presented by a single screen is manually set by the conference initiator. In other embodiments, the dynamic adjustment may also be performed according to the bullet screen condition sent by the participant in real time.

For example, the number of the barrages which can be presented to the maximum extent in the human-computer interaction interface may be determined under the condition that the occupation proportion of the human-computer interaction interface does not exceed the proportion threshold, and the determined number is determined as the maximum number of the barrages presented in a single screen. Therefore, dynamic adjustment can be performed according to the bullet screen conditions sent by the participator in real time, for example, when the number of the bullet screens sent by a plurality of participators in a certain time period is small, the bullet screens sent by all the participators can be presented in a human-computer interaction interface; when the number of the barrages sent by the multiple participant objects in another time period is large, the barrages which do not exceed the maximum number are only presented in the human-computer interaction interface.

In some embodiments, each participant object may also be set for the maximum number of barrages that can be presented in the respective human-computer interaction interface. For example, a bullet screen setting entry 47 similar to fig. 4B may also be presented in the human-computer interaction interface of the participant object, and when the participant object clicks the bullet screen setting entry 47, the bullet screen setting interface is presented, but at this time, only the setting options for the maximum number of bullet screens appearing in a single screen exist in the bullet screen setting interface. Each participant object can set the maximum number of the corresponding barrage which can be presented by the single screen in the barrage setting interface.

In other embodiments, in accordance with the above, setting options for the bullet screen playing speed may also be presented in the bullet screen setting interface of the participant object, for example, three options of "fast," "medium," and "slow" may be included, so that the participant object may set the corresponding bullet screen playing speed according to its browsing capability.

In some embodiments, when the terminal detects that the maximum length of the bullet screen subsequently input by the participant object is greater than the maximum length of a single bullet screen set by the conference initiator, prompt information, such as "the length of the bullet screen input by you exceeds the maximum length", may be presented in the human-computer interaction interface of the participant object to remind the participant object.

In other embodiments, the detection process may also be implemented by a background server (e.g., the server 200 in fig. 1A) of the network conference, for example, when the server receives a barrage sent by a participant, it first determines whether the length of the barrage is smaller than the set maximum length of a single barrage, and when the length of the barrage exceeds the set maximum length, a corresponding reminding message may be returned to the terminal.

In some embodiments, the conference initiator may also set for the all-bang switch in the barrage setting interface.

For example, when a conference initiator introduces an issue, at this time, conference participants do not need to discuss, the state of the all-language-forbidden switch can be set to be on, at this time, all the conference participants do not have the permission to send the bullet screen, meanwhile, the bullet screen editing entry is grayed out in the human-computer interaction interfaces of all the conference participants, and the conference participants cannot perform bullet screen editing operation. When the conference initiator needs to discuss the participated objects after introducing the issue, the state of the all banning language switch can be set to be closed, at the moment, all the participated objects have the permission of sending the barrage, can carry out barrage editing operation in the barrage editing entry presented in the corresponding human-computer interaction interface, and send the barrage editing operation after finishing the barrage editing operation.

In some embodiments, the conference initiator may further set a barrage authority in the barrage setting interface, where the barrage authority includes at least one of: the system comprises a public chat module, a network conference module and a chat module, wherein the public chat module is used for controlling that any participant object in the network conference does not have the authority of privately chatting other participant objects; the free chat is used for controlling any participant in the network conference to have the authority of private chat on other participants; wherein, other participant objects are participant objects except any participant object in the network conference; and the private chat conference initiator is used for controlling any participant object in the network conference to have the authority of the private chat conference initiator.

For example, referring to fig. 4B, three options of "open chat", "free chat", and "private chat meeting initiator" are presented in the barrage setting interface 48 for barrage privileges, and the meeting initiator can select for these three options.

When the conference initiator selects "open chat" in the bullet screen setting interface 48, all the participant objects can only open and send bullet screens, that is, any bullet screen sent by any participant object is presented in the human-computer interaction interfaces of all the participant objects.

When the conference initiator selects "free chat" in the barrage setting interface 48, all the participant objects can send barrages, and meanwhile, any participant object in all the participant objects also has the right to chat other participant objects privately. For example, when a participant object a wants to chat a participant object B privately, the participant object B may be @ in a popup editing portal, and a popup to be sent is input, at this time, the server may call the participant object B from a list of participant objects in the network conference, and send the popup input by the participant object a only to a terminal associated with the participant object B, so that the popup sent by the participant object a is only presented in a human-computer interaction interface of the participant object B, and other participant objects cannot see the popup sent by the participant object a.

In addition, in order to facilitate the participant B to determine which barrages are public barrages and which barrages are private chat barrages of the participant a, the public barrages and the private chat barrages of the participant a can be presented in different manners in the human-computer interaction interface of the participant B. For example, for public barrages, only barrage content is presented; for the bullet screen of the participant A in private chat, the head portrait or the account number of the participant A can be presented in front of the bullet screen content; the public barrage may be displayed in white; and displaying the bullet screen of the participant A in a color mode. Meanwhile, when the participant B wants to reply to the barrage of the participant A in private chat, the participant B can reply by clicking the barrage sent by the participant A, and at the moment, the @ participant A is automatically input in the barrage editing entry, so that the barrage replied by the participant B is only displayed in the human-computer interaction interface of the participant A. Therefore, the concealment is improved, and the watching effect of other participant objects is improved.

When the conference initiator selects "private chat conference initiator" in the bullet screen setting interface 48, all the participant objects only have the authority to private chat the conference initiator, but not the authority to private chat other participant objects. For example, when the participant object a needs to chat a conference initiator privately, the conference initiator may be @ in a pop-up screen editing interface, and a pop-up screen to be sent is input, at this time, the server may call the conference initiator from a list of the participant objects, and send the pop-up screen sent by the participant object a only to a terminal associated with the conference initiator, so that the pop-up screen sent by the participant object a is only presented in a human-computer interaction interface of the conference initiator, and other participant objects cannot see the pop-up screen of the participant object a private chat conference initiator.

In other embodiments, the conference initiator may further perform the following setting for the barrage authority in the barrage setting interface: participant objects among the same service group can be chatted mutually privately, and participant objects among different service groups cannot be chatted mutually privately; high-level participant objects (for example, the account levels of accounts associated with the participant objects reach a level threshold) can privately chat the low-level participant objects (for example, the account levels are lower than the level threshold), and the low-level participant objects cannot actively privately chat the high-level participant objects, but can reply the bullet screens of the high-level participant objects in private chat.

In some embodiments, the conference initiator may also set up voting permissions in the bullet screen setting interface.

For example, two options of "conference initiator" and "all participants" may be presented in the bullet screen setting interface for the voting authority. When the conference initiator selects the option 'conference initiator', only the conference initiator has the right of initiating the voting in the network conference, and simultaneously, only a character input interface for editing the voting content to be sent is presented in the man-machine interaction interface of the conference initiator; when the conference initiator selects 'all the participant objects', all the participant objects in the network conference have the authority of initiating the voting, and at the moment, character input interfaces for editing the voting content to be sent are presented in the human-computer interaction interfaces of all the participant objects.

In other embodiments, the participant having the voting authority in the web conference may also be determined in the following manner, for example, the conference initiator may randomly select from a list of the participant having the voting authority, the terminal determines the participant selected by the conference initiator as the participant having the voting authority in response to the selection operation of the conference initiator, and simultaneously, a character input interface for editing the voting content to be sent is presented in the human-computer interaction interfaces of the participant. Or, the terminal may further determine a participant object satisfying at least one of the following conditions as a participant object having the right to initiate voting: the activity reaches the participant object with the activity threshold, that is, the activity is greater than or equal to the activity threshold, for example, the participant object with the number of delivered barrage reaching the number threshold in the last period of time; for example, the social distance between the conference initiator and each participant can be determined through an interpersonal relationship social network map, and the participant with the social distance lower than the distance threshold is determined as the participant with the voting initiation permission; for example, by determining the account level of an account associated with each participant, the participant with the account level higher than the level threshold is determined as a participant with the right to initiate voting.

It should be noted that the setting of the property, the barrage authority, the voting authority, and the all banning switch for the barrage may be performed before the network conference starts, or may be performed during the network conference, and the set information is applied to the barrage presenting process in the network conference in real time.

In some embodiments, when a conference initiator or other conference participants with voting initiation rights need to initiate voting, voting content may be input in a character input interface presented in a bullet screen setting interface and used for editing voting content to be sent, and a sending button is clicked after the voting content editing operation is completed, a terminal responds to the voting content sending operation, and the voting content input by the conference initiator or other conference participants with voting initiation rights is sent to a server, so that the server sends the voting content to terminals associated with all the conference participants respectively, and the voting content is presented in a human-computer interaction interface of each conference participant.

In some embodiments, the voting content can be presented in the human-computer interaction interface of the participant object by, for example, continuously presenting the voting content in the human-computer interaction interface of the participant object in a bullet screen manner, and when the voting data submitted corresponding to any one of the voting content is received in the human-computer interaction interface of the participant object or the voting validity period arrives, stopping presenting the voting content and the corresponding voting options; when the voting content is in a choice question form, the voting data are selected voting options, and the voting options are used for being synchronously presented with the voting content so as to be selected by the participant; when the voting content is in the form of a blank question, the voting data is questionnaire data filled in by the participant.

For example, referring to fig. 4C, fig. 4C is a schematic diagram of a human-machine interaction interface of a participant according to an embodiment of the present application, and as shown in fig. 4C, the voting content may be in the form of a choice question, and after receiving the voting content sent by the server, a terminal associated with the participant presents the voting content 49 and voting options 410 (including two options of "agree" and "disagree") corresponding to the voting content 49 at a fixed position of the human-machine interaction interface, for example, directly above the human-machine interaction interface of the participant. When the participant clicks either of the two options "agree" or "disagree", the display of the voting content 49 and the corresponding voting options 410 is stopped in the human-computer interaction interface of the participant. When the participant does not click the voting choice 410 all the time, the voting content 49 and the voting choice 410 are automatically stopped from being displayed in the human-computer interaction interface of the participant after the voting validity period is ended.

For example, referring to fig. 4D, fig. 4D is a schematic diagram of a human-computer interaction interface of a participant object provided in the embodiment of the present application, as shown in fig. 4D, the voting content may also be in a form of a blank question, and after the participant object fills in questionnaire data in a blank 412, the voting process is completed, and at this time, the display of the voting content 411 in the human-computer interaction interface of the participant object is stopped.

It should be noted that the voting content and the voting options may be presented in the human-computer interaction interface of the participant object in a fixed manner as shown in fig. 4C or fig. 4D, or may be continuously presented in the human-computer interaction interface of the participant object in a dynamic manner, which is not limited in this embodiment of the application.

In some embodiments, taking a conference initiator as an example, after voting is finished, a terminal associated with the conference initiator requests voting data of each participant object from a server, and after the voting data returned by the server are received, statistical analysis is performed by using local computing power of a network conference client, a voting statistical result is calculated, and the voting statistical result is presented in a human-computer interaction interface for the conference initiator to analyze.

In other embodiments, the statistical process for the voting data may be performed on the server side. For example, a data statistics interface of the network conference server may be called to perform statistical analysis on voting data respectively sent by terminals associated with each participant object, so as to obtain a statistical analysis result, and thus, when a request sent by a terminal of a conference initiator is received, the statistical analysis result may be directly returned to the terminal of the conference initiator.

In some embodiments, in order to further facilitate the participant to watch the barrage and avoid the interference of a bad barrage, filtering may be performed before the barrage is sent to the terminal associated with the participant; wherein the filtering process may include at least one of: only one bullet screen is reserved for the repeated bullet screens in the bullet screens; and setting sensitive keywords and deleting the bullet screens containing the sensitive keywords in the bullet screens.

For example, when it is detected that any participant object (e.g., participant object a) wants to send a barrage to a target participant object (e.g., participant object B), the server first sends the barrage sent by the participant object a to the conference initiator, so that the conference initiator performs an audit on the barrage sent by the participant object a, and after the audit of the conference initiator is passed, the server sends the barrage sent by the participant object a to a terminal associated with the participant object B. When the audit is not passed, the server may refuse to send the barrage sent by the participant object a to the terminal associated with the participant object B.

For example, the filtering process may also be performed by a network conference server, for example, the server may obtain a barrage sent by the participant through a barrage system monitoring communication port, and store the barrage in a database. Then, the server may perform filtering processing on the saved barrage through a preset filtering rule, for example, delete duplicate barrages and delete barrages containing sensitive keywords. And then, sending the bullet screen after filtering to the terminals of the participator so as to present the bullet screen in a human-computer interaction interface.

According to the method for processing the network conference, the barrage function is introduced into the network conference, so that the participated objects can actively participate in conference discussion in a mode of sending the barrage, meanwhile, a conference initiator can also obtain timely feedback, and after the network conference is finished, a certain vote initiated by the conference can be analyzed and tracked according to interactive data of a barrage system, or a question point, a discussion point and the like of the participated objects are analyzed and sorted, and the conference result can be conveniently summarized.

Furthermore, for the participators, the 'instantaneity' of the conference barrage system can ensure that the participators can communicate with the conference initiator or other participators smoothly, and the participators can receive the barrages sent by the conference initiator or other participators at any time and reply; the 'mobility' of the bullet screen system also realizes the efficient communication of the conference; meanwhile, the anonymity of the bullet screen system can also reduce the fear of the participators, so that the bullet screen becomes an important way for the participators to learn and discuss.

In addition, for the conference initiator, the 'instantaneity' of the barrage system also improves the feedback rate and the feedback speed of the conference initiator, and after the conference is finished, the barrage sent by the participant during the network conference can be imported into the database, and the network conference condition is analyzed according to the barrage to make relevant evaluation, so that the conference can be conveniently summarized and improved.

Continuing with the exemplary structure of the network conference processing device 455 provided by the embodiment of the present application implemented as a software module, in some embodiments, as shown in fig. 2, the software module stored in the network conference processing device 455 of the memory 450 may include: a receiving module 4551, a presenting module 4552, a transmitting module 4553 and a determining module 4554.

A receiving module 4551, configured to receive multimedia data of a web conference; the presentation module 4552 is configured to present the content of the web conference in the human-computer interaction interface according to the multimedia data, and present a barrage editing entry in the human-computer interaction interface; a presentation module 4552, configured to, in response to a bullet screen editing operation in the bullet screen editing entry, present an input bullet screen; and the sending module 4553 is configured to, in response to the barrage sending operation, present a barrage in the human-computer interaction interface, so as to send the barrage to a participant of the network conference.

In some embodiments, the presenting module 4552 is further configured to present a bullet screen setting entry in the human-computer interaction interface; and a setting interface for presenting a bullet screen in response to a bullet screen setting operation in the bullet screen setting entrance; the receiving module 4551 is further configured to receive setting information through the bullet screen setting interface, and apply the setting information to a bullet screen presentation process in the network conference; wherein the setting information includes at least one of: bullet screen attributes; all forbidden word switch settings; barrage authority; and (6) voting authority.

In some embodiments, the bullet-screen attributes include at least one of: the maximum length of a single bullet screen; the maximum number of bullet screens presented on a single screen.

In some embodiments, the network conference processing apparatus 455 further includes a determining module 4554, configured to determine a historical bullet screen average value according to the historical bullet screen number sent by each participant in the network conference and the historical bullet screen length, and use the historical bullet screen average value as the maximum length of a single bullet screen; or determining the number of the barrages which can be presented in the maximum length in the human-computer interaction interface as the maximum number under the condition that the occupation proportion of the human-computer interaction interface does not exceed the proportion threshold.

In some embodiments, the barrage authority includes at least one of: the system comprises a public chat module, a network conference module and a chat module, wherein the public chat module is used for controlling that any participant object in the network conference does not have the authority of privately chatting other participant objects; the free chat is used for controlling any participant in the network conference to have the authority of private chat on other participants; wherein, other participant objects are participant objects except any participant object in the network conference; and the private chat conference initiator is used for controlling any participant object in the network conference to have the authority of the private chat conference initiator.

In some embodiments, the voting authority includes at least one of: the voting authority of the conference initiator is used for controlling the conference initiator of the network conference to have the authority of initiating voting; and the participant object voting authority is used for controlling each participant object in the network conference to have the authority of initiating voting.

In some embodiments, the determining module 4554 is further configured to determine, in response to a participant object selecting operation, a participant object selected by a conference initiator as a participant object having the right to initiate voting; or the participant object meeting at least one of the following conditions is determined as the participant object with the voting initiation right: the activity reaches the participation object of the activity threshold value; a participant object having a social distance to the meeting initiator below a distance threshold; and the participant with the account number level reaching the level threshold value.

In some embodiments, the presenting module 4552 is further configured to present a bullet screen setting entry in the human-computer interaction interface; and a display unit for presenting the input voting content in response to the voting content editing operation in the bullet screen setting entry; and the sending module is also used for responding to the voting content sending operation and sending the voting content to the participant objects of the network conference.

In some embodiments, the presentation module 4552 is further configured to continuously present the voting content in the form of a bullet screen; and the voting data and the corresponding voting options are stopped to be presented when the voting data submitted corresponding to any one of the voting contents are received in the man-machine interaction interface of the participant object or the voting validity period is up; when the voting content is in the form of choice questions, the voting data are selected voting options which are used for presenting synchronously with the voting content; when the voting content is in a form of a blank question, the voting data is filled questionnaire data.

In some embodiments, the receiving module 4551 is further configured to receive voting statistics of the voting data of the participant object; the presentation module 4552 is further configured to present the voting statistics in the human-computer interaction interface.

In some embodiments, the voting data submitted by the participant for the voting content is stored in the blockchain network; the uplink mode of the voting data comprises the following steps: and calling an intelligent contract of the block chain network to carry out consensus verification on the voting data so as to store the voting data into the block chain of the block chain network after the consensus verification of the voting data is passed.

In some embodiments, the voting statistics are obtained from a blockchain network; the method for acquiring the voting statistical result comprises the following steps: calling an intelligent contract of the block chain network to read voting data from the block chain of the block chain network, performing statistical processing on the read voting data to obtain a voting statistical result, and performing consensus verification on the voting statistical result; and receiving the voting statistical result after the consensus verification is passed.

In some embodiments, the receiving module 4551 is further configured to receive a bullet screen sent by any one of the participant objects to the target participant object, and perform filtering processing on the bullet screen sent by the participant object; wherein the filtering process comprises at least one of: deleting repeated bullet screens in the bullet screens; deleting the bullet screen containing the sensitive keywords in the bullet screen; the sending module 4553 is further configured to send the filtered bullet screen to the target participant object.

It should be noted that the description of the apparatus in the embodiment of the present application is similar to the description of the method embodiment, and has similar beneficial effects to the method embodiment, and therefore, the description is not repeated. The inexhaustible technical details in the network conference processing device provided by the embodiment of the application can be understood according to the description of any one of the drawings of fig. 3A or fig. 3B.

An exemplary application of the embodiment of the present application in an actual application scenario is described below by taking a web conference as an online video conference as an example.

The development of internet technology accelerates the digitalization process of enterprises and government departments, and large-scale enterprises and government departments start cloud office and cloud conference, such as online video conference. The online video conference greatly reduces the complexity and participation threshold of conference organizations, and is a more economic and flexible choice for enterprises or government departments. Its preparation period is short, cost is low, at the same time it is hardly limited by time space. However, the most important of the online meeting of government departments or enterprises is the communication of information and the interaction among the members. However, at present, the communication mode of the online video conference provided by the related art only has a simple chat mode, in this mode, the conference initiator can edit and send information, and other participants reply after seeing the information. That is to say, the above simple chat mode still belongs to the interactive mode of the traditional conference, and the conference initiator is the initiator of the interaction and occupies the dominant position, so that other participating objects lack of initiative and enthusiasm, worry about problems of the conference initiator or dispute caused by the opinion, and the like, and real conference discussion cannot be realized. The conference interaction communication is in a form, lacks of inspiration on deep thought of the participant, cannot efficiently promote the conference quality, and is not beneficial to developing the conference activities.

In order to solve the technical problems, in the online video conference by introducing the bullet screen system, based on the characteristics of the bullet screen system such as instantaneity, flowability and anonymity, the initiative and the enthusiasm of the participatory object can be improved, meanwhile, the feedback rate and the feedback speed of a conference initiator can also be improved, and after the conference is finished, the conference initiator can analyze the conference effect of the conference according to bullet screen data to make relevant evaluation, so that the conference can be improved and optimized conveniently in the follow-up process.

The video conference processing method provided by the embodiment of the application comprehensively considers the problems that efficient communication and active interaction cannot be really solved when a government department or an enterprise carries out an online video conference, and provides a scheme for carrying out communication interaction in a bullet screen mode.

The video conference processing method provided by the embodiment of the application mainly comprises the following aspects:

1. the participator can edit the barrage through the barrage system, the conference initiator can acquire the barrage sent by the participator through the barrage system monitoring port and store the barrage in the database, then the barrage is filtered through a filtering mechanism (for example, repeated barrages are deleted, sensitive keywords are set, and the barrage containing the sensitive keywords is deleted), and the remaining barrage after filtering processing is sent to the terminal associated with the participator to be displayed in the conference video.

2. In order to make the participator have a simplified speech and save time, the conference initiator can set the maximum word number of a single bullet screen through the bullet screen setting interface.

3. In order to improve the interaction effect of the conference, the repeated barrage can be deleted when the barrage is displayed, only one barrage is reserved, and meanwhile, the maximum number of the barrages appearing on each screen can be limited.

4. The conference initiator has the function of sending the barrage and @ a certain conference object, at the moment, the @ conference object can reply by clicking the barrage sent by the conference initiator, at the moment, the barrage sent by the @ conference object can be only seen by the conference initiator, so that the concealment is improved, and the watching effect of other conference objects is also improved.

5. The meeting initiator can open or close the barrage interaction in the barrage setting interface to control the order of the meeting.

6. When the conference needs voting, the conference initiator can directly send the options to the bullet screen, so that the participant can vote, then the voting data is subjected to statistical analysis to obtain voting statistical results, the use of manpower and third-party software is reduced, and the efficiency of the conference is greatly improved.

7. After the conference is finished, the conference initiator can count the barrage interaction data sent by the participatory object during the conference and analyze the result of the conference, so that the quality of the follow-up conference is improved according to the analysis result.

For example, referring to fig. 4B, fig. 4B is a schematic diagram of a human-computer interaction interface of a conference initiator according to an embodiment of the present application. As shown in fig. 4B, the conference initiator may make relevant settings for the bullet screen by clicking on the bullet screen setting entry 47 (i.e., the small arrow in fig. 4B). When the online video conference client receives the click operation of the conference initiator on the small arrow in fig. 4B, the bullet screen setting interface 48 is presented.

As shown in the bullet screen setting interface 48 presented in fig. 4B, in a default case, the maximum number of words of a single bullet screen that can be sent by each participant object is 20 words, and the conference initiator can also change the number of words by clicking an add-subtract button; the maximum number of bullet screens appearing on each screen is 20, and the conference initiator can also change the bullet screens by clicking an add-drop button. In addition, the barrage setting interface 48 also includes a banquet switch setting, which can be set only by the conference initiator, and when the conference initiator sets the state of the banquet switch to on, all the participators cannot send barrages; when the conference initiator sets the state of the all-banned language switch to off, all the participants can send a barrage. As shown in fig. 4B, the bullet screen setting interface 48 may further include options for setting bullet screen permissions, including three options of "open chat", "free chat", and "private chat conference initiator". Meanwhile, the bullet screen setting interface 48 may further include a vote initiating statistic function, which is used to send an option to the bullet screen for voting selection of the participant when voting needs to be initiated in the conference.

For example, referring to fig. 4A, fig. 4A is a schematic diagram of a human-computer interaction interface of a participant object provided in an embodiment of the present application. As shown in fig. 4A, the man-machine interface of the participant object does not have the bullet screen setting entry 47, that is, the participant object cannot perform relevant setting on the bullet screen. The participant only has the functions of sending barracks, chatting other participant objects, and selecting voting content.

For example, after the conference is finished, the online video conference server may export the bullet screen interaction data during the online video conference to the database for statistical analysis of the data, and as an auxiliary function of the conference, for example, the server may count the voting data of the participant with respect to a certain voting content, so as to obtain the voting statistical result indication table shown in table 1.

TABLE 1 vote statistical results schematic table

The following describes a network conference processing method provided in the embodiment of the present application in detail.

1. Default setup module logic and data flow process

For example, referring to fig. 5, fig. 5 is a flowchart illustrating a video conference processing method according to an embodiment of the present application, and will be described with reference to the steps shown in fig. 5.

In step S501, the video conference client responds to a conference initiation operation triggered by a conference initiator.

For example, the conference initiator may invite the participant to join the video conference through the invitation portal 43 shown in fig. 4A; or, the participant joins the video conference initiated by the conference initiator by inputting the conference number and the password in the user interface of the video conference client.

In step S502, the video conference client presents a bullet screen setting interface.

For example, the conference initiator may trigger the presentation of the bullet screen setting interface by clicking a small arrow in fig. 4B, so as to perform related setting on the bullet screen in the bullet screen setting interface.

In step S503, the videoconference client defaults to 20 words of the maximum number of words of a single barrage presented in the barrage setting interface.

For example, there may be a default value in the bullet screen setting interface for the maximum number of words of a single bullet screen, for example, the maximum number of words of a single bullet screen is defaulted to 20 words.

In step S504, the video conference client responds to the trigger operation of the conference initiator for the increase word count button.

For example, when the conference initiator needs to increase the maximum number of words of a single bullet screen, the maximum number of words of the single bullet screen can be increased by clicking the increase word number button, for example, the conference initiator can increase the maximum number of words of the single bullet screen to 30 words.

In step S505, the video conference client responds to the trigger operation of the conference initiator for the word count reduction button.

For example, when the conference initiator needs to reduce the maximum number of words of a single bullet screen, the maximum number of words of the single bullet screen can be reduced by clicking the reduced word number button, for example, the conference initiator can reduce the maximum number of words of the single bullet screen to 15 words.

In step S506, the background server calls the word count interface to change the default maximum word count of the single bullet screen.

For example, the background server of the video conference client may invoke the word count interface to update the default maximum word count in response to a setting operation of the conference initiator for the maximum word count of the single bullet screen.

In step S507, the video conference client presents the maximum number of barrages presented per screen in the barrage setting interface by default as 20.

For example, there may be a default value in the bullet screen setting interface for the maximum number of bullet screens that appear per screen, for example, the maximum number of bullet screens that appear per screen is 20.

In step S508, the video conference client responds to the trigger operation of the conference initiator for the increase number button.

For example, when the frequency of sending the barrage by the participant object is more frequent, the conference initiator may increase the maximum number of barrages that can be presented by a single screen by clicking the number-increasing button, for example, the maximum number of barrages that can be presented by a single screen may be increased to 30.

In step S509, the video conference client responds to the trigger operation of the conference initiator for the reduced number button.

For example, when the frequency of sending the barrage by the participant object is low, the conference initiator may reduce the maximum number of barrages that can be presented by a single screen by clicking the number-reduction button, for example, the maximum number of barrages that can be presented by a single screen may be reduced to 15.

In step S510, the background server calls the number interface to change the default maximum number of barrages presented in a single screen.

For example, the background server of the video conference client may invoke the number interface to update the default maximum number in response to a setting operation of the conference initiator for the maximum number of barrages presented on a single screen.

In step S511, the final value is presented in the man-machine interface of the conference initiator.

For example, after setting the maximum number of words of a single bullet screen and the maximum number of bullet screens presented on a single screen, the conference initiator presents the set values in the bullet screen setting interface, for example, after the setting operations of the above steps S503 to S510, the maximum number of words of a single bullet screen presented on the bullet screen setting interface is 30 words, and the maximum number of bullet screens presented on a single screen is 15.

2. Talk-banning/talk function setup module logic and data flow process

For example, referring to fig. 6, fig. 6 is a flowchart illustrating a video conference processing method according to an embodiment of the present application, and will be described with reference to the steps shown in fig. 6.

In step S601, the video conference client responds to the conference initiation operation triggered by the conference initiator.

In step S602, a function option of whether to start a language forbidden is presented in the barrage setting interface, and when the meeting initiator selects yes, step S603 is executed; when the conference initiator selects no, step S605 is performed.

For example, a setting option of whether to start all banners is presented in the barrage setting interface, and the conference initiator can control the order of the conference by clicking a banning/speaking switch button.

In step S603, the backend server closes the bullet-screen sending function of all the participating objects.

For example, the background server of the video conference closes the bullet screen sending function of all the participating objects in response to the trigger operation of the conference initiator for starting the all banners.

In step S604, the subtitle box is grayed out in the human-computer interaction interface of the participant.

For example, when the conference initiator selects to turn on the all dialect, at this time, the subtitle boxes presented in the human-computer interaction interfaces of all the participating objects are gray and in an unusable state.

In step S605, the background server starts the bullet screen sending function of all the participant objects.

For example, the background server of the video conference starts the barrage sending function of all the participating objects in response to the trigger operation of the conference initiator for closing the all banners.

In step S606, the video conference client presents the entered barrage in response to the barrage editing operation of the participant in the barrage editing portal.

For example, when the conference initiator selects to close the overall banners, at this time, the bullet screen frames presented in the human-computer interaction interfaces of all the participant objects are in a usable state, and the participant objects can edit the bullet screen in the bullet screen frames and click to send the bullet screen.

In step S607, the video conference client of the participant determines whether the participant starts the function of displaying the barrage, and if the participant starts the barrage, step S608 is executed; when the display bullet screen is closed, step S609 is performed.

For example, the participant may also set whether to display the bullet screen in the human-computer interaction interface by himself, for example, the participant may set whether to display the bullet screen by clicking the bullet screen display switch button 413 shown in fig. 4A.

In step S608, the bullet screen is displayed in a scrolling manner in the human-computer interaction interface of the participant.

For example, when the participant object starts the bullet screen display, the bullet screen sent by other participant objects is displayed in a rolling manner in the human-computer interaction interface of the participant object.

In step S609, no barrage is displayed in the human-computer interaction interface of the participant.

For example, when the participant object closes the bullet screen display, the bullet screen is not displayed in the human-computer interaction interface of the participant object. For example, when the participant object a closes the bullet screen display, only the human-computer interaction interface of the participant object a does not display the bullet screen, and the human-computer interaction interfaces of other participant objects still perform the bullet screen display.

3. Barrage private chat permission module logic and data transfer process

For example, referring to fig. 7, fig. 7 is a flowchart illustrating a video conference processing method according to an embodiment of the present application, and will be described with reference to the steps shown in fig. 7.

In step S701, the video conference client responds to a conference initiation operation triggered by a conference initiator.

In step S702, the video conference client presents setting options of the barrage authority in the barrage setting interface.

For example, the video conference client presents a bullet screen setting interface in response to a trigger operation of the conference initiator for the bullet screen setting entry. The bullet screen setting interface comprises bullet screen authority setting options, and can comprise three options of 'free chat', 'open chat' and 'private chat conference initiator', for example.

In step S703, the video conference client responds to the selection operation of the conference initiator for the "free chat" option.

Illustratively, when the conference initiator selects "free chat" in the barrage setting interface, the background server of the video conference responds and performs the subsequent steps S704 to S705.

In step S704, the backend server controls all the participating objects in the video conference to send the barrage.

In step S705, the backend server controls any one of all the participant objects to have the right of private chat with other participant objects, and the private chat popup is only visible to the private chat object.

For example, when the barrage authority is "free chat", all participant objects can send barrages, and meanwhile, any participant object can chat other participant objects privately. For example, when a participant object a needs to chat a participant object B, the participant object B may be @ in a pop-up screen frame, at this time, the backend server may call the participant object B from the database, and send the pop-up screen input by the participant object a only to a terminal associated with the participant object B, so that only the participant object B may see the pop-up screen sent by the participant object a, and other participant objects may not see the pop-up screen.

In step S706, the video conference client responds to the selection operation of the conference initiator for the "open chat" option.

Illustratively, when the conference initiator selects "open chat" in the barrage setting interface, the background server of the video conference responds and performs the subsequent steps S707 to S708.

In step S707, the backend server controls all participating objects to only openly send the barrage.

In step S708, the backend server controls the barrage sent by any one of all the participant objects to be visible to all the participant objects.

For example, when the barrage authority is "open chat", all the participant objects can send barrages, and only the barrage can be sent in a public way, and private chat with other participant objects cannot be performed. For example, taking the participant object a as an example, the bullet screen sent by the participant object a is sent to the terminals respectively associated with all the participant objects by the server, so as to be presented in the human-computer interaction interface respectively corresponding to each participant object. That is, when the barrage authority is "open chat", any barrage sent by any participant object is visible to all participant objects.

In step S709, the video conference client responds to the selection operation of the conference initiator for the "private chat conference initiator" option.

For example, when the conference initiator selects "private chat conference initiator" in the barrage setting interface, the background server of the video conference responds, and the subsequent steps S710 to S711 are performed.

In step S710, the backend server controls all the participating objects to send the barrage.

In step S711, the backend server controls any participant object in all the participant objects to have the authority of the private chat conference initiator, and only the conference initiator is visible for the pop screen of the private chat conference initiator.

For example, when the barrage authority is "private chat conference initiator", all participant objects may send barrages, and meanwhile, any participant object may also be a private chat conference initiator. For example, when the participant object a needs to chat a conference initiator privately, the conference initiator may be @ in the pop-up screen frame, at this time, the backend server may call the conference initiator from the database, and send the pop-up screen input by the participant object a only to the terminal associated with the conference initiator, so that only the conference initiator may see the pop-up screen sent by the participant object a, and other participant objects may not see the pop-up screen.

In step S712, after the meeting is finished, the backend server saves all the data in the database.

For example, after the video conference is finished, the background server stores the barrage interaction data sent by the participant object during the video conference into the database, so that statistical analysis can be performed subsequently according to the stored barrage interaction data, for example, question points, discussion points, and the like of the participant object are extracted according to the stored barrage interaction data.

4. Initiating vote statistics function module logic and data flow process

For example, referring to fig. 8, fig. 8 is a flowchart illustrating a video conference processing method according to an embodiment of the present application, and will be described with reference to the steps shown in fig. 8.

In step S801, the video conference client responds to a conference initiation operation triggered by a conference initiator.

In step S802, the video conference client presents a character input interface for editing the voting content to be sent in the bullet screen setting interface, so that the conference initiator inputs the voting content in the character input interface.

In step S803, the background server sends the voting content input by the conference initiator to all the participating objects to be displayed in a stationary and non-mobile manner in the human-computer interaction interfaces of all the participating objects, and at the same time, the background server also automatically adds two buttons of "agree" and "disagree" after the voting content.

For example, referring to fig. 4C, after receiving the voting content sent by the server, the terminals of the participating objects display the voting content 49 and the voting options 410 corresponding to the voting content in a stationary and non-mobile manner in the human-computer interaction interface, including two buttons of "agree" and "disagree" for the participating objects to select.

In step S804, the videoconference client responds to the triggering operation of the participant for the "agree" button.

For example, when the participant clicks the "agree" button, the client of the video conference associates the related information of the participant (for example, the account information of the participant) with the agree result, and sends the associate information and the agree result to the background server, so that the background server can count the voting data subsequently.

In step S805, the video conference client responds to a trigger operation of the participant object for the "disagree" button.

For example, when the participant object clicks the "disagree" button, the video conference client associates the relevant information of the participant object with the disagree result, and sends the associated information and the disagree result to the background server together, so that the background server counts the voting data subsequently.

In step S806, the background server performs statistics on the voting data respectively sent by each participant to obtain a voting statistical result table.

Illustratively, after the voting is finished, the background server collects the voting data sent by each participant, performs statistical analysis to obtain a voting statistical result table, and sends the obtained voting statistical result table to the conference initiator so as to be presented in a human-computer interaction interface of the conference initiator.

According to the video conference processing method provided by the embodiment of the application, the bullet screen system is introduced into the online video conference, so that the participator can actively participate in conference discussion, and meanwhile, a conference initiator can also obtain feedback in time. In addition, after the conference is finished, the conference situation can be analyzed according to the barrage interaction data during the conference, for example, statistical analysis is performed on the situation of a certain voting item, or summary analysis is performed on the question point and the discussion point of the participant object, so as to summarize and improve the conference according to the analysis result.

Embodiments of the present application provide a computer program product or computer program comprising computer instructions stored in a computer readable storage medium. The processor of the computer device reads the computer instructions from the computer-readable storage medium, and the processor executes the computer instructions, so that the computer device executes the network conference processing method described in the embodiment of the present application.

Embodiments of the present application provide a computer-readable storage medium storing executable instructions, which when executed by a processor, will cause the processor to perform a method provided by embodiments of the present application, for example, a network conference processing method as shown in fig. 3A or fig. 3B.

In some embodiments, the storage medium may be a memory such as FRAM, ROM, PROM, EPROM, EE PROM, flash, magnetic surface memory, optical disk, or CD-ROM; or may be various devices including one or any combination of the above memories.

In some embodiments, executable instructions may be written in any form of programming language (including compiled or interpreted languages), in the form of programs, software modules, scripts or code, and may be deployed in any form, including as a stand-alone program or as a module, component, subroutine, or other unit suitable for use in a particular environment.

By way of example, executable instructions may correspond, but do not necessarily have to correspond, to files in a file system, may be stored in a portion of a file that holds other programs or data, e.g., in one or more scripts in a Hyper-log Markup Language (HT ML) document, in a single file dedicated to the program in question, or in multiple coordinated files (e.g., files that store one or more modules, sub-programs, or portions of code).

By way of example, executable instructions may be deployed to be executed on one computing device or on multiple computing devices at one site or distributed across multiple sites and interconnected by a communication network.

In summary, the embodiments of the present application have the following beneficial effects:

according to the method for processing the network conference, the barrage function is introduced into the network conference, so that the participated objects can actively participate in conference discussion in a mode of sending the barrage, meanwhile, a conference initiator can also obtain timely feedback, and after the network conference is finished, a certain vote initiated by the conference can be analyzed and tracked according to interactive data of a barrage system, or a question point, a discussion point and the like of the participated objects are analyzed and sorted, and the conference result can be conveniently summarized.

Furthermore, for the participators, the 'instantaneity' of the conference barrage system can ensure that the participators can communicate with the conference initiator or other participators smoothly, and the participators can receive the barrages sent by the conference initiator or other participators at any time and reply; the 'mobility' of the bullet screen system also realizes the efficient communication of the conference; meanwhile, the anonymity of the bullet screen system can also reduce the fear of the participators, so that the bullet screen becomes an important way for the participators to learn and discuss.

In addition, for the conference initiator, the 'instantaneity' of the barrage system also improves the feedback rate and the feedback speed of the conference initiator, and after the conference is finished, the barrage sent by the participant during the network conference can be imported into the database, and the network conference condition is analyzed according to the barrage to make relevant evaluation, so that the conference can be conveniently summarized and improved.

The above description is only an example of the present application, and is not intended to limit the scope of the present application. Any modification, equivalent replacement, and improvement made within the spirit and scope of the present application are included in the protection scope of the present application.

Claims (15)

1. A method for processing a web conference, the method comprising:

receiving multimedia data of the network conference;

presenting the contents of the network conference in a man-machine interaction interface according to the multimedia data, and presenting a barrage editing inlet in the man-machine interaction interface;

responding to the barrage editing operation in the barrage editing entry, and presenting the inputted barrage;

and responding to the bullet screen sending operation, presenting the bullet screen in the man-machine interaction interface so as to send the bullet screen to the participant objects of the network conference.

2. The method of claim 1, further comprising:

presenting a bullet screen setting inlet in the human-computer interaction interface;

responding to the bullet screen setting operation in the bullet screen setting inlet, and presenting a bullet screen setting interface;

receiving setting information through the bullet screen setting interface, and applying the setting information to a bullet screen presenting process in the network conference;

wherein the setting information includes at least one of: bullet screen attributes; all forbidden word switch settings; barrage authority; and (6) voting authority.

3. The method of claim 2,

the bullet screen attribute comprises at least one of the following:

the maximum length of a single bullet screen;

the maximum number of bullet screens presented on a single screen.

4. The method of claim 3, further comprising:

determining the average value of historical bullet screens according to the quantity and the length of the historical bullet screens sent by each participant in the network conference, and taking the average value as the maximum length of the single bullet screen; or

And under the condition that the occupation proportion of the human-computer interaction interface does not exceed a proportion threshold, determining the number of the bullet screens which can be presented in the maximum length in the human-computer interaction interface, and taking the number as the maximum number.

5. The method of claim 2,

the barrage authority comprises at least one of the following:

the public chatting is used for controlling that any participant object in the network conference does not have the authority of private chatting other participant objects;

the free chat is used for controlling any participant object in the network conference to have the authority of private chat on other participant objects;

and the private chat conference initiator is used for controlling any participant object in the network conference to have the authority of the private chat conference initiator.

6. The method of claim 2,

the voting authority comprises at least one of:

the conference initiator voting authority is used for controlling the conference initiator of the network conference to have the voting initiating authority;

and the participant object voting authority is used for controlling each participant object in the network conference to have the authority of initiating voting.

7. The method of claim 6, further comprising:

responding to the participant object selection operation, and determining the participant object selected by the conference initiator as the participant object with the voting initiation permission; or

Determining the participant object meeting at least one of the following conditions as the participant object with the voting initiation right:

the activity reaches the participation object of the activity threshold value;

a meeting object having a social distance to the meeting initiator below a distance threshold;

and the participant with the account number level reaching the level threshold value.

8. The method of claim 1, further comprising:

presenting a bullet screen setting inlet in the human-computer interaction interface;

responding to the voting content editing operation in the bullet screen setting inlet, and presenting the input voting content;

and responding to the voting content sending operation, and sending the voting content to the participant objects of the network conference.

9. The method of claim 8,

the interaction mode of the voting content in the man-machine interaction interface of the participant object comprises the following steps:

continuously presenting the voting content in a bullet screen mode;

when voting data submitted corresponding to any one of the voting contents is received in a human-computer interaction interface of the conference participating object or the voting validity period is up, stopping presenting the voting contents;

when the voting content is in a choice topic form, the voting data are selected voting options, and the voting options are used for being synchronously presented with the voting content;

when the voting content is in a form of a blank question, the voting data is filled-in questionnaire data.

10. The method of claim 8, further comprising:

receiving voting statistics of the voting data of the participant, an

And presenting the voting statistical result in the human-computer interaction interface.

11. The method of claim 8,

the voting data submitted by the participant objects aiming at the voting content is stored in a block chain network; wherein, the uplink mode of the voting data comprises:

and calling an intelligent contract of the block chain network to carry out consensus verification on the voting data, so that the voting data is stored in a block chain of the block chain network after the consensus verification of the voting data is passed.

12. The method of claim 10,

the voting statistics are obtained from a blockchain network; the method for acquiring the voting statistical result comprises the following steps:

calling an intelligent contract of the block chain network to read voting data from a block chain of the block chain network, performing statistical processing on the read voting data to obtain a voting statistical result, and performing consensus verification on the voting statistical result;

and receiving the voting statistical result after the consensus verification is passed.

13. A network conference processing apparatus, characterized in that the apparatus comprises:

the receiving module is used for receiving multimedia data of the network conference;

the presentation module is used for presenting the contents of the network conference in a man-machine interaction interface according to the multimedia data and presenting a barrage editing inlet in the man-machine interaction interface;

the presentation module is further used for responding to the barrage editing operation in the barrage editing entry and presenting the inputted barrage;

and the sending module is used for responding to a bullet screen sending operation, presenting the bullet screen in the man-machine interaction interface and sending the bullet screen to the participant objects of the network conference.

14. An electronic device, comprising:

a memory for storing executable instructions;

a processor for implementing the network conference processing method of any one of claims 1 to 12 when executing the executable instructions.

15. A computer-readable storage medium on which a computer program is stored, the computer program, when being executed by a processor, implementing the network conference processing method according to any one of claims 1 to 12.

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