CN112988318A - Method, system and readable storage medium for sensing sharing result and state - Google Patents

Abstract

The invention discloses a method, a system and a readable storage medium for sensing a sharing result and a sharing state, wherein the method comprises the following steps: starting a shared application desktop, selecting shared data for sharing, displaying a shared state window, and enabling the shared state window to enter an initialization state; sending the shared data to all the participant clients through the conference server; respectively receiving confirmation information of the shared data returned by each participant client, and updating a shared state window in real time based on the confirmation information returned by each participant client so that a speaker can know the results and the states of all the participant clients for receiving the shared data; and when confirmation information returned by all the participant clients is received and the shared state window is finally updated, automatically hiding the shared state window after a preset time period. The invention can enable the speaker of the network conference to perceive the sharing effect of the participant side from the perspective of the participants, and is convenient for the speaker to better host and develop the network conference process.

Description

Method, system and readable storage medium for sensing sharing result and state

Technical Field

The invention relates to the technical field of desktop sharing, in particular to a method and a system for sensing a sharing result and a sharing state and a readable storage medium.

Background

At present, with the development of computer technology, network technology and communication technology, the application of netmeeting is more and more extensive, such as remote monitoring, remote teaching, remote medical diagnosis and the like. By using the conference system, people far away from thousands of miles can hold various conferences together or discuss academic problems with technicians far away. The system greatly facilitates real and intuitive communication among the cooperative members by transmitting the video and audio information of the writing members; at present, a network conference system can provide a desktop sharing function, that is, a client of a desktop sharer can acquire information of a client interface in real time, and then send the information of the client interface to clients of other participants through a server.

However, during the current web conference, the following scenario often occurs: the main speaker (namely, the desktop sharer) shares the desktop of the main speaker, but the data volume of the desktop content is large, a certain time is needed for transmitting the desktop content to other participants, the main speaker confirms whether the other participants have seen the desktop content shared by the main speaker, and the main speaker asks that people see my desktop in a bar in a subconscious meeting until the other participants reply and see the desktop, so that the main speaker can start the next operation. The frequency that above-mentioned condition appears is very big, and in fact, the speaker is not knowing the effect of the sharing of property for a lot of time, and the speaker can only learn the sharing state of desktop content through other participant's feedback, in case other participant's feedback is untimely, will influence the process of follow-up meeting certainly, and then causes the relatively poor situation of experience sense of network conference.

Disclosure of Invention

In view of the above problems, it is an object of the present invention to provide a method, system and readable storage medium for sensing sharing results and status, which enables a speaker of a netmeeting to sense a final sharing effect from a participant perspective.

The first aspect of the present invention provides a method for sensing a sharing result and a sharing state, including the following steps:

starting a shared application desktop, selecting corresponding shared data for sharing, displaying a shared state window, and enabling the shared state window to enter an initialization state;

sending the shared data to all the participant clients through the conference server;

respectively receiving confirmation information of the shared data returned by each participant client, and updating a shared state window in real time based on the confirmation information returned by each participant client so that a speaker can know the results and the states of all the participant clients for receiving the shared data;

and when confirmation information returned by all the participant clients is received and the shared state window is finally updated, automatically hiding the shared state window after a preset time period.

In this scheme, send shared data to all participant's clients through the conference server, still include specifically:

sending the shared data to a conference server;

receiving confirmation information of receiving shared data returned by the conference server;

updating the initialization state of the shared state window based on confirmation information of received shared data returned by the conference server, and enabling the shared state window to present a globally fuzzy shared data mapping image, wherein the shared data mapping image corresponds to the original image of the shared data, the shared state window corresponds to the shared application desktop, and the proportional size and the position relationship of the shared data mapping image in the shared state window correspond to the proportional size and the position relationship of the original image of the shared data in the shared application desktop.

In this scheme, after the shared state window is made to present a globally blurred shared data mapping image, the method further includes:

respectively receiving confirmation information of the shared data returned by each participant client, and sequentially and clearly processing the fuzzy shared data mapping images based on the quantity of the confirmation information returned by each participant client;

and until receiving confirmation information of the received shared data returned by all the participant clients, completely clarifying the fuzzy shared data mapping image.

In this embodiment, the method further includes:

after the shared state window enters an initialization state and before the shared state window is automatically hidden, if a new participant client is accessed to a conference server, the conference server sends the shared data to the new participant client, updates the total number of current participants and feeds back the shared data to a speaker client;

updating, by the presenter client, the shared status window based on the current total number of participants and the number of acknowledgement messages that have currently received the shared data.

In this embodiment, the method further includes:

when the sharing state indicating information presented by the sharing state window is the ratio of the number of the confirmation information of the received sharing data to the total number of the participants, the numerator item is the number of the confirmation information of the received sharing data, the denominator item is the total number of the participants, and after the sharing state window enters the initialization state and before the sharing state window is automatically hidden, if the participant client is disconnected from the conference server, the conference server feeds the disconnected participant client back to the speaker client;

judging whether the disconnected participant client side returns confirmation information of receiving the shared data or not by the speaker client side;

if so, subtracting the number of the disconnected participant client sides from the numerator items and the denominator items of the ratio respectively, and recalculating to generate a new ratio as the currently presented sharing state indication information of the sharing state window;

and if not, subtracting the number of the disconnected participant clients from the denominator item of the ratio, keeping the numerator item unchanged, and recalculating to generate a new ratio as the currently presented sharing state indication information of the sharing state window.

In this scheme, after updating the shared status window in real time based on the confirmation information returned by each participant client, the method further includes:

monitoring the updating progress of the shared state window in real time;

before the updating progress of the shared state window reaches 100%, when the updating progress of the shared state window is stagnated at a certain numerical value and reaches a preset time length, displaying the identification information of the participant client which does not return the confirmation information through the shared state window.

The second aspect of the present invention further provides a system for sensing a shared result and a shared state, including a memory and a processor, where the memory includes a method program for sensing the shared result and the shared state, and when executed by the processor, the method program for sensing the shared result and the shared state implements the following steps:

starting a shared application desktop, selecting corresponding shared data for sharing, displaying a shared state window, and enabling the shared state window to enter an initialization state;

sending the shared data to all the participant clients through the conference server;

respectively receiving confirmation information of the shared data returned by each participant client, and updating a shared state window in real time based on the confirmation information returned by each participant client so that a speaker can know the results and the states of all the participant clients for receiving the shared data;

and when confirmation information returned by all the participant clients is received and the shared state window is finally updated, automatically hiding the shared state window after a preset time period.

In this scheme, send shared data to all participant's clients through the conference server, still include specifically:

sending the shared data to a conference server;

receiving confirmation information of receiving shared data returned by the conference server;

updating the initialization state of the shared state window based on confirmation information of received shared data returned by the conference server, and enabling the shared state window to present a globally fuzzy shared data mapping image, wherein the shared data mapping image corresponds to the original image of the shared data, the shared state window corresponds to the shared application desktop, and the proportional size and the position relationship of the shared data mapping image in the shared state window correspond to the proportional size and the position relationship of the original image of the shared data in the shared application desktop.

In this scheme, when executed by the processor, the method for sensing the sharing result and the state further includes:

respectively receiving confirmation information of the shared data returned by each participant client, and sequentially and clearly processing the fuzzy shared data mapping images based on the quantity of the confirmation information returned by each participant client;

and until receiving confirmation information of the received shared data returned by all the participant clients, completely clarifying the fuzzy shared data mapping image.

The third aspect of the present invention also provides a computer-readable storage medium, where the computer-readable storage medium includes a method program for sensing a shared result and a state, and when the method program for sensing a shared result and a state is executed by a processor, the method program for sensing a shared result and a state implements the steps of the method for sensing a shared result and a state as described above.

The method, the system and the readable storage medium for sensing the shared result and the shared state respectively receive the confirmation information of the received shared data returned by each participant client, and update the shared state window in real time based on the confirmation information returned by each participant client, so that the master can sense the result and the state of the shared data received by all the participant clients, and the master can conveniently and better host the network conference process.

In addition, the invention further reflects the proportion of the client of the participant who has successfully received the shared data by presenting the mapping image of the shared data on the shared state window and removing the proportion of the fuzzy area, so that the speaker can watch the effect of the shared desktop on the side of the participant at the view angle of the participant, sense whether the position and the size of the shared state window are suitable for the client of the participant, and further make reference for adjusting the size of the original image of the shared data.

Drawings

FIG. 1 is a flow chart of a method for sensing sharing results and states according to the present invention;

FIG. 2 is a flow diagram illustrating a shared status window update method according to an embodiment of the invention;

FIGS. 3-8 are schematic diagrams of a shared desktop at different stages of a presenter client according to an embodiment of the present invention;

FIG. 9 is a block diagram of a system for sensing shared results and status according to the present invention.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

FIG. 1 is a flow chart of a method for sensing sharing results and states according to the present invention.

As shown in fig. 1, a first aspect of the present invention provides a method for sensing a sharing result and status, including the following steps:

s102, starting a shared application desktop, selecting corresponding shared data for sharing, displaying a shared state window, and enabling the shared state window to enter an initialization state;

s104, sending the shared data to all the participant clients through the conference server;

s106, respectively receiving confirmation information of the shared data returned by each participant client, and updating a shared state window in real time based on the confirmation information returned by each participant client so that a speaker can know the results and the states of all the participant clients for receiving the shared data;

and S108, when the confirmation information returned by all the participant clients is received and the last update of the shared state window is finished, automatically hiding the shared state window after a preset time period.

It should be noted that the initialization state of the shared state window has no information. The returned confirmation information of receiving the shared data should include identification information of the participant client, so that the speaker can know the condition that different participant clients receive the shared data, and the identification information may be an ID number, a participant name, a employee number, and the like.

It should be noted that before the above steps are performed, a network conference system needs to be set up, where the network conference system may include a speaker client, a conference server, and at least one participant client, the speaker client is held by a speaker, the participant clients are held by corresponding participants, and the speaker client and the participant clients may be downloaded from a platform by the speaker and the participants respectively and installed on the communication device. Preferably, the communication device may be a mobile phone, a PC, an IPAD, a smart watch, etc., but is not limited thereto. The speaker client and the at least one participant client are in network communication with the conference server respectively. The speaker client receives a shared application desktop starting instruction of a speaker, selects corresponding shared data to share, and displays a shared state window, wherein the shared state window is used for enabling the speaker to know the condition that each participant client receives the shared data. And subsequently updating a sharing state window in real time according to the condition of receiving the sharing data fed back by each participant client so as to facilitate the speaker to perceive the sharing result and state in real time.

According to the embodiment of the invention, the sharing state window can directly display the number of participants who have received the sharing data, namely, when the speaker client receives the confirmation information of receiving the sharing data returned by each participant client, the accumulated counting is carried out based on the confirmation information, the obtained numerical value is the number of the participants who have received the sharing data at the current moment, generally, the speaker can also know the total number of the participants through the participant column of the conference, and the sharing result and the sharing state can be sensed by comparing the number of the participants who have received the sharing data with the total number of the participants. It can be understood that when the number of participants who have received the shared data is equal to the total number of participants, it indicates that all the participant clients receive the shared data at this time.

According to an embodiment of the present invention, the sharing status window may directly display a ratio of the number of participants who have received the sharing data to the total number of participants. When the master speaker client receives confirmation information of receiving the shared data, which is returned by each participant client, the accumulated counting is carried out based on the confirmation information, the obtained numerical value is the number of participants who have received the shared data at the current moment, the ratio of the number of participants who have received the shared data to the total number of the participants can be obtained by dividing the number of the participants by the total number of the participants, and the master speaker can sense the sharing result and the sharing state by looking at the ratio. It can be understood that when the ratio of the number of participants who have received the shared data to the total number of participants is equal to 1, it indicates that all the participant clients receive the shared data at this time.

According to the embodiment of the invention, the shared data is sent to all the participant clients through the conference server, and the method specifically comprises the following steps:

sending the shared data to a conference server;

receiving confirmation information of receiving shared data returned by the conference server;

updating the initialization state of the shared state window based on confirmation information of received shared data returned by the conference server, and enabling the shared state window to present a globally fuzzy shared data mapping image, wherein the shared data mapping image corresponds to the original image of the shared data, the shared state window corresponds to the shared application desktop, and the proportional size and the position relationship of the shared data mapping image in the shared state window correspond to the proportional size and the position relationship of the original image of the shared data in the shared application desktop.

It should be noted that, after the conference server returns the confirmation information of receiving the shared data to the master speaker client, the conference server sends the shared data to each participant client, and when a participant client successfully receives the shared data, the conference server returns the confirmation information of receiving the shared data to the conference server, and then the conference server recognizes the identification information of the specific participant client and feeds back that the participant client has successfully received the shared data to the master speaker client.

It should be noted that the shared data mapping data is consistent with the original image of the shared data, and the shared data mapping image is only fuzzified at the initial stage; the shared state window simulates a shared application desktop of the participant client, and the size and the position relation of a shared data image actually presented by the participant client on the shared application desktop of the participant client are simulated through the size and the position relation of the shared data mapping image on the shared state window, so that a speaker can sense the shared result and the state of the participant side through viewing the shared application desktop of the local side, for example, the size and the position of the shared data image of the participant side are sensed to be suitable for the participant client, and reference is further made for adjusting the size and the position relation of the original image of the shared data on the shared application desktop.

According to an embodiment of the invention, after rendering the shared state window with a globally blurred shared data map image, the method further comprises:

respectively receiving confirmation information of the shared data returned by each participant client, and sequentially and clearly processing the fuzzy shared data mapping images based on the quantity of the confirmation information returned by each participant client;

and until receiving confirmation information of the received shared data returned by all the participant clients, completely clarifying the fuzzy shared data mapping image.

It should be noted that, the shared data mapping image is consistent with the original image content that the speaker client is implementing sharing, when the client of the main speaker receives the confirmation information of receiving the shared data returned by the conference server, the follow-up conference server will send the shared data to the clients of the participants one by one, the speaker client updates the initialization state of the shared state window, presents a globally fuzzy shared data mapping image in the blank window, represents all participants by the size of the globally fuzzy shared data mapping image, and then sequentially processes the fuzzy shared data mapping image in a sharpening way according to confirmation information of receiving shared data returned by each participant client, so that the speaker can perceive the result and the state of the shared data received by all the participant clients according to the clear proportion of the fuzzy shared data mapping image.

According to an embodiment of the invention, the method further comprises:

after the shared state window enters an initialization state and before the shared state window is automatically hidden, if a new participant client is accessed to a conference server, the conference server sends the shared data to the new participant client, updates the total number of current participants and feeds back the shared data to a speaker client;

updating, by the presenter client, the shared status window based on the current total number of participants and the number of acknowledgement messages that have currently received the shared data.

It should be noted that when the shared state window enters the initialization state, there may be other participant clients that do not access the conference server, and a participant client that has not accessed the shared state window later accesses the network conference based on the corresponding conference number, however, since the shared data reception indication information presented in the shared state window is calculated based on the original total number of participants before the participant client accesses the network conference, after the participant client accesses the network conference, the shared data reception indication information presented in the shared state window should be updated and adjusted based on the current total number of participants, so that the shared state window more accurately reflects the situation that all the participant clients receive shared data.

Specifically, it is preset that the total number of the original participants is 10, and the number of the confirmation messages that have received the shared data is 5, that is, 5 participant clients have successfully received the shared data, then the shared data reception indication information presented in the shared status window at this time is 5/10 (the ratio of successfully receiving the shared data). If 2 new participant clients are accessed to the network conference at this time and the number of the confirmation messages of the shared data which have been received currently is not changed, the shared data receiving indication information presented in the shared state window at this time should be updated to 5/12.

According to another embodiment of the present invention, after the shared state window enters the initialization state and before the shared state window is automatically hidden, if a new participant client accesses to the conference server, the conference server sends the shared data to the new participant client, updates the total number of current participants, and feeds back the updated shared data to the speaker client, and the speaker client displays the total number of current participants only on the interface of the network conference, but does not add the new participant client in the updating process of the shared state window. In other words, the shared data reception indication presented by the shared status window is still based on the original participant client.

It can be understood that when the speaker starts to share data, it is described that the time for starting the conference is up at this time, the participant client that needs to be accessed should also be accessed to the network conference, so as to avoid that the shared state window processes the updated state for a long time due to the fact that other subsequent participant clients are continuously accessed to the network conference, thereby reducing the conference efficiency. The shared status window update process of this embodiment does not account for new participant clients.

According to an embodiment of the invention, the method further comprises:

when the sharing state indicating information presented by the sharing state window is the ratio of the number of the confirmation information of the received sharing data to the total number of the participants, the numerator item is the number of the confirmation information of the received sharing data, the denominator item is the total number of the participants, and after the sharing state window enters the initialization state and before the sharing state window is automatically hidden, if the participant client is disconnected from the conference server, the conference server feeds the disconnected participant client back to the speaker client;

judging whether the disconnected participant client side returns confirmation information of receiving the shared data or not by the speaker client side;

if so, subtracting the number of the disconnected participant client sides from the numerator items and the denominator items of the ratio respectively, and recalculating to generate a new ratio as the currently presented sharing state indication information of the sharing state window;

and if not, subtracting the number of the disconnected participant clients from the denominator item of the ratio, keeping the numerator item unchanged, and recalculating to generate a new ratio as the currently presented sharing state indication information of the sharing state window.

It should be noted that, after the shared state window enters the initialization state and before the shared state window is automatically hidden, if a participant client exits from the network conference, the total number of participants changes, and if the indication information of shared data is calculated according to the original total number of participants, it is obviously inaccurate. In the embodiment, when the client of the participant exits from the network conference midway, the sharing state indication information of the sharing state window is re-based on the new total number of the participants, so that the accuracy of the sharing state indication information is ensured.

It can be understood that when a participant client exits from the network conference, the conference server feeds back the identification information (such as an ID number) of the participant client to the speaker client, and the speaker client can perform traversal search in the locally received confirmation information database according to the identification information. When the confirmation message corresponding to the participant client side of the identification information is found, the participant client side is indicated to have returned the confirmation message of receiving the shared data. Otherwise, the confirmation information of receiving the shared data is not returned.

According to the embodiment of the invention, after updating the shared status window in real time based on the confirmation information returned by each participant client, the method further comprises:

monitoring the updating progress of the shared state window in real time;

before the updating progress of the shared state window reaches 100%, when the updating progress of the shared state window is stagnated at a certain numerical value and reaches a preset time length, displaying the identification information of the participant client which does not return the confirmation information through the shared state window.

It should be noted that, if the indication information of the shared state presented in the current shared state window stays unchanged in a certain state data for a long time, for example, the state data is a ratio of the number of the confirmation information that the shared data has been received to the total number of the participants: 9/10. The explanation shows that 1/10 participant clients do not return confirmation information in time, and there is a high possibility that special situations (such as network instability, terminal seizure, etc.) occur in this part of participant clients, and if the participant clients continue to wait, the efficiency of the subsequent network conference will be affected. In this embodiment, the talker client grasps the identification information of all participant clients, and the returned confirmation information obtains the identification information of the participant client that has successfully received the shared data, and then filters the participant client that has successfully received the shared data from all the participant clients, so as to obtain the identification information of the participant client that has not returned the confirmation information. And presenting the identification information of the participant client which does not return the confirmation information on a sharing state window so that the speaker can actively contact the part of the participant clients through other communication means, and further know the sharing condition of the part of the participant clients in time without waiting passively all the time.

According to an embodiment of the present invention, as shown in fig. 2 (for simplicity, in fig. 2, a speaker is used to replace a speaker client, and a participant is used to replace a participant client), the method includes:

the speaker client starts to share the application desktop;

the speaker client displays the initialization state of the shared state window;

the speaker client sends the shared data to the conference server;

after receiving the shared data, the conference server returns response information to the master speaker client to confirm the receipt of the data, and then the shared data received by the conference server is respectively sent to each participant client;

after receiving the confirmation information of the conference server, the speaker client updates the shared state window;

after receiving the shared data, each participant client returns response information to the conference server to confirm the receipt of the data;

when the conference server receives the confirmation information of one participant client, the participant client receives the shared data by feeding back the participant client to the master speaker client;

when the speaker client receives confirmation information of shared data from the participant client fed back by the conference server, the sharing state window is immediately updated;

and (3) until the speaker client receives the confirmation message that all the participant clients successfully receive the shared data, then finishing the updating of the last shared state window, and automatically hiding the window after a preset time period (N seconds) so as to prevent the follow-up window from influencing the conference sharing experience of the speaker.

According to the embodiment of the invention, in order to enable the speaker to more intuitively perceive the sharing result, the definition processing process of the shared data mapping image can be divided into a plurality of single-point states, and in the definition processing process, the previous single-point state jumps to the next single-point state, so that the change degree is large, and the speaker can more easily watch the sharing result.

For example, the plurality of single point states are: 0%, 25%, 50%, 75%, 100%. Where 25% indicates that 1/4 blurred areas in the shared data map image are sharpened and 50% indicates that 1/2 blurred areas in the shared data map image are sharpened.

According to the embodiment of the invention, the speaker client processes the blurred shared data mapping image through the sharpening processing model. The input item of the clarification processing model is the total number of the participant clients (namely the total number of the participants), and the output item is the set of single-point states. The total number of the preset participant clients is i, and the number of the set elements of the single-point state is X_iThen X_iIs less than or equal to i + 1.

The clarification processing model operates according to the following rule algorithm:

when i is equal to 1, the number X of the collection elements of the single-point state_iEqual to 2, i.e. 0%, 100%; 0% represents that confirmation information of receiving the shared data returned by the participant client is not received, and 100% represents that confirmation information of receiving the shared data returned by 1 (namely all) participant clients is not received;

when i is equal to 2, the number X of the collection elements of the single-point state_iEqual to 3, i.e. 0%, 50%, 100%; 0% represents that confirmation information of receiving shared data returned by the participant client is not received, and 50% represents that the shared data is receivedThe confirmation information of receiving the shared data returned by 1 participant client is 100% of the confirmation information of receiving the shared data returned by 2 (namely all) participant clients;

when i is equal to 3, the number X of the collection elements of the single-point state_iEqual to 4, i.e. 0, 1/3, 2/3, 3/3; 0 represents that the confirmation information of the shared data returned by the participant client is not received, 1/3 represents that the confirmation information of the shared data returned by 1 participant client is received, 2/3 represents that the confirmation information of the shared data returned by 2 participant clients is received, and 3/3 represents that the confirmation information of the shared data returned by 3 (namely all) participant clients is received;

when i is greater than or equal to 4, the number X of the collection elements in the single-point state_iEqual to 5, i.e., 0%, 25%, 50%, 75%, 100%, 0% indicates that less than 25% of the total number of participants returned confirmation of receipt of the shared data; 25% indicates that more than or equal to 25% of the total number of the participants and less than 50% of the total number of the participants return confirmation information of receiving the shared data; 50% shows that more than or equal to 50% of the total number of the participants and less than 75% of the total number of the participants return confirmation information of receiving the shared data; 75% shows that more than or equal to 75% of the total number of the participants and less than 100% of the total number of the participants return confirmation information of receiving the shared data; 100% indicates that confirmation of receipt of the shared data returned by the i (i.e., all) participant clients is received.

It can be understood that, in practical application, when i is greater than 4, in the process of carrying out sharpening processing on the shared data mapping image, the proportion of the currently received confirmation information quantity j to the total number i of the participants needs to be judged in real time, and when the proportion is greater than or equal to 0% and less than 25%, the 0% area of the shared data mapping image is sharpened; when the ratio is more than or equal to 25% and less than 50%, the 25% area of the shared data mapping image is cleared; when the proportion is more than or equal to 50% and less than 75%, the 50% area of the shared data mapping image is cleared; when the ratio is greater than or equal to 75% and less than 100%, the 75% area of the shared data mapping image is cleared; when the ratio is equal to 1, 100% of the area of the shared data map image is made clear.

To further illustrate the technical solution of the present invention, the total number i of the participant clients is equal to 4 for example.

The presenter's shared application desktop has a browser to share, as shown in fig. 3.

After the speaker clicks on sharing, a "sharing state window" is displayed in the upper right corner of the screen, and the state of the "sharing state window" is an initialization state at this time, and the shared content is not displayed, as shown in fig. 4.

When the shared data (i.e., the browser content) arrives at the conference server, the conference server sends a signaling to the talker client indicating that the shared data is received, and at this time, the "shared state window" is updated and the blurred shared data mapping image (i.e., the browser mapping image) is displayed, as shown in fig. 5.

As the master client receives the confirmation message that the participant client sees the shared desktop, the shared state window is updated one by one, so that the blurred part of the shared data mapping image is less and less until the complete shared data mapping image can be seen clearly, as shown in fig. 6 to 8, wherein fig. 6 shows that 25% of the blurred part in the shared data mapping image is clarified, fig. 7 shows that 50% of the blurred part in the shared data mapping image is clarified, and fig. 8 shows that all the blurred parts in the shared data mapping image are clarified, so that the master client can perceive that all the participants have seen the shared data, and then the shared state window is automatically hidden after N seconds.

FIG. 9 is a block diagram of a system for sensing shared results and status according to the present invention.

As shown in fig. 9, the second aspect of the present invention further provides a system 9 for sensing a shared result and a shared state, which includes a memory 91 and a processor 92, where the memory 91 includes a method program for sensing a shared result and a shared state, and when the processor 92 executes the method program for sensing a shared result and a shared state, the method program for sensing a shared result and a shared state implements the following steps:

starting a shared application desktop, selecting corresponding shared data for sharing, displaying a shared state window, and enabling the shared state window to enter an initialization state;

sending the shared data to all the participant clients through the conference server;

respectively receiving confirmation information of the shared data returned by each participant client, and updating a shared state window in real time based on the confirmation information returned by each participant client so that a speaker can know the results and the states of all the participant clients for receiving the shared data;

and when confirmation information returned by all the participant clients is received and the shared state window is finally updated, automatically hiding the shared state window after a preset time period.

According to the embodiment of the invention, the shared data is sent to all the participant clients through the conference server, and the method specifically comprises the following steps:

sending the shared data to a conference server;

receiving confirmation information of receiving shared data returned by the conference server;

updating the initialization state of the shared state window based on confirmation information of received shared data returned by the conference server, and enabling the shared state window to present a globally fuzzy shared data mapping image, wherein the shared data mapping image corresponds to the original image of the shared data, the shared state window corresponds to the shared application desktop, and the proportional size and the position relationship of the shared data mapping image in the shared state window correspond to the proportional size and the position relationship of the original image of the shared data in the shared application desktop.

According to an embodiment of the present invention, when executed by the processor, the method for sensing the shared result and status further includes:

respectively receiving confirmation information of the shared data returned by each participant client, and sequentially and clearly processing the fuzzy shared data mapping images based on the quantity of the confirmation information returned by each participant client;

and until receiving confirmation information of the received shared data returned by all the participant clients, completely clarifying the fuzzy shared data mapping image.

According to the embodiment of the invention, after the shared state window enters the initialization state and before the shared state window is automatically hidden, if a new participant client is accessed to the conference server, the conference server sends the shared data to the new participant client, updates the total number of the current participants and feeds back the updated total number to the speaker client;

updating, by the presenter client, the shared status window based on the current total number of participants and the number of acknowledgement messages that have currently received the shared data.

According to the embodiment of the invention, when the indication information of the sharing state presented by the sharing state window is the ratio of the number of the confirmation information of the received sharing data to the total number of the participants, the numerator item is the number of the confirmation information of the received sharing data, and the denominator item is the total number of the participants, after the sharing state window enters the initialization state and before the sharing state window is automatically hidden, if the participant client end is disconnected from the conference server, the conference server feeds the disconnected participant client end back to the main speaker client end;

judging whether the disconnected participant client side returns confirmation information of receiving the shared data or not by the speaker client side;

if so, subtracting the number of the disconnected participant client sides from the numerator items and the denominator items of the ratio respectively, and recalculating to generate a new ratio as the currently presented sharing state indication information of the sharing state window;

and if not, subtracting the number of the disconnected participant clients from the denominator item of the ratio, keeping the numerator item unchanged, and recalculating to generate a new ratio as the currently presented sharing state indication information of the sharing state window.

According to an embodiment of the present invention, when executed by the processor, the method for sensing the shared result and status further includes:

monitoring the updating progress of the shared state window in real time;

before the updating progress of the shared state window reaches 100%, when the updating progress of the shared state window is stagnated at a certain numerical value and reaches a preset time length, displaying the identification information of the participant client which does not return the confirmation information through the shared state window.

A third aspect of the present invention provides a computer-readable storage medium, where the computer-readable storage medium includes a method program for sensing a shared result and a state, and when the method program for sensing a shared result and a state is executed by a processor, the method program for sensing a shared result and a state implements the steps of the method for sensing a shared result and a state as described above.

The method, the system and the readable storage medium for sensing the shared result and the shared state respectively receive the confirmation information of the received shared data returned by each participant client, and update the shared state window in real time based on the confirmation information returned by each participant client, so that the master can sense the result and the state of the shared data received by all the participant clients, and the master can conveniently and better host the network conference process.

In addition, the invention further reflects the proportion of the client of the participant who has successfully received the shared data by presenting the mapping image of the shared data on the shared state window and removing the proportion of the fuzzy area, so that the speaker can watch the effect of the shared desktop on the side of the participant at the view angle of the participant, sense whether the position and the size of the shared state window are suitable for the client of the participant, and further make reference for adjusting the size of the original image of the shared data.

In the embodiments provided in the present invention, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above-described device embodiments are merely illustrative, for example, the division of the unit is only a logical functional division, and there may be other division ways in actual implementation, such as: multiple units or components may be combined, or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the coupling, direct coupling or communication connection between the components shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or units may be electrical, mechanical or other forms.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units; can be located in one place or distributed on a plurality of network units; some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, all the functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may be separately regarded as one unit, or two or more units may be integrated into one unit; the integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.

Those of ordinary skill in the art will understand that: all or part of the steps for realizing the method embodiments can be completed by hardware related to program instructions, the program can be stored in a computer readable storage medium, and the program executes the steps comprising the method embodiments when executed; and the aforementioned storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

Alternatively, the integrated unit of the present invention may be stored in a computer-readable storage medium if it is implemented in the form of a software functional module and sold or used as a separate product. Based on such understanding, the technical solutions of the embodiments of the present invention may be essentially implemented or a part contributing to the prior art may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the methods described in the embodiments of the present invention. And the aforementioned storage medium includes: a removable storage device, a ROM, a RAM, a magnetic or optical disk, or various other media that can store program code.

Claims (10)

1. A method for sensing shared results and states, comprising the steps of:

starting a shared application desktop, selecting corresponding shared data for sharing, displaying a shared state window, and enabling the shared state window to enter an initialization state;

sending the shared data to all the participant clients through the conference server;

respectively receiving confirmation information of the shared data returned by each participant client, and updating a shared state window in real time based on the confirmation information returned by each participant client so that a speaker can know the results and the states of all the participant clients for receiving the shared data;

and when confirmation information returned by all the participant clients is received and the shared state window is finally updated, automatically hiding the shared state window after a preset time period.

2. The method for sensing the sharing result and status according to claim 1, wherein the sharing data is sent to all participant clients through a conference server, and further comprising:

sending the shared data to a conference server;

receiving confirmation information of receiving shared data returned by the conference server;

updating the initialization state of the shared state window based on confirmation information of received shared data returned by the conference server, and enabling the shared state window to present a globally fuzzy shared data mapping image, wherein the shared data mapping image corresponds to the original image of the shared data, the shared state window corresponds to the shared application desktop, and the proportional size and the position relationship of the shared data mapping image in the shared state window correspond to the proportional size and the position relationship of the original image of the shared data in the shared application desktop.

3. The method of claim 2, wherein after rendering the shared state window with a globally blurred shared data map image, the method further comprises:

respectively receiving confirmation information of the shared data returned by each participant client, and sequentially and clearly processing the fuzzy shared data mapping images based on the quantity of the confirmation information returned by each participant client;

and until receiving confirmation information of the received shared data returned by all the participant clients, completely clarifying the fuzzy shared data mapping image.

4. The method of claim 1, wherein the method further comprises:

after the shared state window enters an initialization state and before the shared state window is automatically hidden, if a new participant client is accessed to a conference server, the conference server sends the shared data to the new participant client, updates the total number of current participants and feeds back the shared data to a speaker client;

updating, by the presenter client, the shared status window based on the current total number of participants and the number of acknowledgement messages that have currently received the shared data.

5. The method of claim 1, wherein the method further comprises:

when the sharing state indicating information presented by the sharing state window is the ratio of the number of the confirmation information of the received sharing data to the total number of the participants, the numerator item is the number of the confirmation information of the received sharing data, the denominator item is the total number of the participants, and after the sharing state window enters the initialization state and before the sharing state window is automatically hidden, if the participant client is disconnected from the conference server, the conference server feeds the disconnected participant client back to the speaker client;

judging whether the disconnected participant client side returns confirmation information of receiving the shared data or not by the speaker client side;

if so, subtracting the number of the disconnected participant client sides from the numerator items and the denominator items of the ratio respectively, and recalculating to generate a new ratio as the currently presented sharing state indication information of the sharing state window;

and if not, subtracting the number of the disconnected participant clients from the denominator item of the ratio, keeping the numerator item unchanged, and recalculating to generate a new ratio as the currently presented sharing state indication information of the sharing state window.

6. The method for sensing sharing result and status as claimed in claim 1, wherein after updating the sharing status window in real time based on the confirmation information returned by each participant client, the method further comprises:

monitoring the updating progress of the shared state window in real time;

before the updating progress of the shared state window reaches 100%, when the updating progress of the shared state window is stagnated at a certain numerical value and reaches a preset time length, displaying the identification information of the participant client which does not return the confirmation information through the shared state window.

7. A system for sensing shared results and states, comprising a memory and a processor, wherein the memory includes a method program for sensing shared results and states, and the method program for sensing shared results and states implements the following steps when executed by the processor:

starting a shared application desktop, selecting corresponding shared data for sharing, displaying a shared state window, and enabling the shared state window to enter an initialization state;

sending the shared data to all the participant clients through the conference server;

respectively receiving confirmation information of the shared data returned by each participant client, and updating a shared state window in real time based on the confirmation information returned by each participant client so that a speaker can know the results and the states of all the participant clients for receiving the shared data;

and when confirmation information returned by all the participant clients is received and the shared state window is finally updated, automatically hiding the shared state window after a preset time period.

8. The system for sensing the result and status of sharing according to claim 7, wherein the sharing data is sent to all participant clients through the conference server, further comprising:

sending the shared data to a conference server;

receiving confirmation information of receiving shared data returned by the conference server;

updating the initialization state of the shared state window based on confirmation information of received shared data returned by the conference server, and enabling the shared state window to present a globally fuzzy shared data mapping image, wherein the shared data mapping image corresponds to the original image of the shared data, the shared state window corresponds to the shared application desktop, and the proportional size and the position relationship of the shared data mapping image in the shared state window correspond to the proportional size and the position relationship of the original image of the shared data in the shared application desktop.

9. The system for sensing shared results and states of claim 8, wherein the method program for sensing shared results and states further implements the following steps when executed by the processor:

respectively receiving confirmation information of the shared data returned by each participant client, and sequentially and clearly processing the fuzzy shared data mapping images based on the quantity of the confirmation information returned by each participant client;

and until receiving confirmation information of the received shared data returned by all the participant clients, completely clarifying the fuzzy shared data mapping image.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium includes a method program for sensing shared results and states, and when the method program for sensing shared results and states is executed by a processor, the steps of a method for sensing shared results and states as claimed in any one of claims 1 to 6 are implemented.

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