CN115442557B

CN115442557B - Data processing system for verifying terminal

Info

Publication number: CN115442557B
Application number: CN202210957261.7A
Authority: CN
Inventors: 王安良; 肖昊; 刘海亮; 武凯涛; 吴钟岳; 隗军宝
Original assignee: Beijing Huajian Yunding Technology Co ltd
Current assignee: Beijing Huajian Yunding Technology Co ltd
Priority date: 2022-08-10
Filing date: 2022-08-10
Publication date: 2023-07-07
Anticipated expiration: 2042-08-10
Also published as: CN115442557A

Abstract

When a certain host is in a target environment mode, a server side sequentially sends verification instructions to each terminal device according to the time sequence of the terminal device entering the target environment, so that the terminal device is designated as a sending end for sending a set audio file, other terminal devices are receiving ends for receiving the set audio file, the sending ends send sending information to the server side after the file is sent, the receiving ends send receiving information to the server side after the file is received, and after the set time, the server side determines whether abnormal terminal devices exist in the terminal devices associated with the target environment mode or not according to the received information, and a corresponding verification result is generated. Therefore, the state of the conference terminal can be automatically verified, the verification efficiency can be improved, and the continuity of the conference is ensured.

Description

Data processing system for verifying terminal

Technical Field

The present invention relates to the field of data processing, and in particular, to a data processing system for authenticating a terminal.

Background

In the meeting process of the audio and video command system, the state of the terminal equipment needs to be verified so as to ensure that each terminal equipment which enters the meeting is normal. However, in the conventional terminal verification process, it is generally required that a person uses one terminal as an audio transmitting end to continuously speak, and a plurality of persons check states of other terminals according to the number of conference terminals to confirm whether each terminal is abnormal, for example, whether a microphone, a loudspeaker, etc. are abnormal. This way of authentication is time consuming and laborious, especially when the number of participating terminals is numerous and not in the same spatial area.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme:

the embodiment of the invention provides a data processing system for verifying a terminal, which comprises the following components: the server end, a first host and n second hosts which are in communication connection with the server end, wherein any host i is connected with k (i) terminal devices, and the value of i is 1 to n+1; wherein, any host stores an association table, the ith row of the association table comprises (MID) ₁ ⁱ ，MID ₂ ⁱ ，…，MID ⁱ _q ，…，MID _t(i) ⁱ )，MID _p ⁱ The value of q is 1 to t (i) which is the number of the hosts connected with the ith host; the server side stores n+1 basic information tables, and the 1 st row of the basic information table i comprises (MID) _i ，TID ⁱ ₁ ，TID ⁱ ₂ ，…，TID ⁱ _s1 ，…，TID ⁱ _k(i) ，C _i )，MID _i TID for the ID of the ith host ⁱ _s1 For the (1 st) terminal equipment connected with the (i) th host computer, C _i For the counter corresponding to the ith host, s1 has a value of 1 to k (i), C _i Is 0; line p of the basic information table i comprises (MID) ^p-1 _i ，TID ⁱ _(p-1)1 ，TID ⁱ _(p-1)2 ，…，TID ⁱ _(p-1)s2 ，…，TID ⁱ _(p-1)k(p-1) ，C _p ⁱ )，MID ^(p-1) _i TID for the ID of the (p-1) th host connected to the (i) th host ⁱ _(p-1)s2 The value of s2 is 1 to k (p-1), k (p-1) is the number of the terminal devices connected with the p-1 host connected with the i host, and C _p ⁱ C is a counter corresponding to the p-1 th host connected with the i-th host _p ⁱ P has an initial value of 0 and a value of 2 to t (i) +1; each terminal device is provided with an audio processing module and stores a set audio file;

wherein, when any host i is in the target environment mode, the system is used for detecting the abnormal state of the terminal equipment associated with the host i by the following steps:

s100, the server side obtains the time when all the terminal devices enter the target environment, and forms a verification ordering table i based on the obtained time, wherein the j-th row of the verification ordering table i comprises (TID _j ，M _j )，TID _j For entering the ID, M of the jth terminal device in the target environment _j For entering the serial number, M, of the jth terminal equipment in the target environment _j The initial value of (1) is Null, the value of j is 1 to q, and q is the number of terminal devices entering the target environment;

s200, for the j-th row in the verification ordering table, if j is less than or equal to q; s300 is executed; otherwise, exiting the control program;

s300, if TID in line j _j The corresponding verification mark is Null, a verification instruction j is sent to a host i, wherein the verification instruction j is used for indicating that a j-th terminal device entering a target environment is a sending end for sending a set audio file, and other terminal devices entering the target environment are receiving ends for receiving the set audio file;

s400, responding to receiving a verification instruction j, and sending the verification instruction j to all hosts and terminal devices connected with the host i by the host i;

s500, responding to the received verification instruction j, and sending a corresponding set audio file to a corresponding host by an audio processing module of the jth terminal device so as to send the corresponding set audio file to the terminal device entering the target environment; after the set audio file is sent, the corresponding sending information is sent to the corresponding host;

s600, responding to the received verification instruction j, the audio processing module of the receiving end receives the audio file sent by the sending end and sends the corresponding receiving information to the corresponding host after receiving so as to send the corresponding receiving information to the server end;

s700, the server side is at t _j At the time of delta t, acquiring the transmission information sent by the transmitting end and the receiving information sent by the receiving end, and determining whether to use the received transmission information and the receiving informationTerminal equipment with abnormality; t is t _j The method comprises the steps that when a verification instruction j is sent to a server, deltat is a set time interval;

s800, set j=j+1; s200 is performed.

The invention has at least the following beneficial effects:

according to the data processing system for verifying the terminal, when a certain host is in a target environment mode, the server side sequentially sends verification instructions to each terminal device according to the time sequence of the terminal device entering the target environment, so that the terminal device is designated as a sending end for sending a set audio file, other terminal devices are receiving ends for receiving the set audio file, the sending ends send sending information to the server side after the file is sent, the receiving ends send receiving information to the server side after the file is received, after the time is set, the server side determines whether abnormal terminal devices exist in the terminal devices associated with the target environment mode or not according to the received information, and a corresponding verification result is generated. Therefore, the state of the conference terminal can be automatically verified, the verification efficiency can be improved, and the continuity of the conference is ensured.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a block diagram of a data processing system for authenticating a terminal according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to fall within the scope of the invention.

Fig. 1 is a block diagram of a data processing system for authenticating a terminal according to an embodiment of the present invention. As shown in fig. 1, an embodiment of the present invention provides a data processing system for authenticating a terminal, including: the server side, a first host and n second hosts (only 2 are shown in the figure) which are in communication connection with the server side, wherein any host i is connected with k (i) terminal devices, and the value of i is 1 to n+1.

Wherein, any host stores an association table, the ith row of the association table comprises (MID) ₁ ⁱ ，MID ₂ ⁱ ，…，MID ⁱ _q ，…，MID _t(i) ⁱ )，MID _p ⁱ The value of q is 1 to t (i) for the ID of the qth host connected to the ith host, and t (i) is the number of hosts connected to the ith host. All hosts connected with the ith host can establish a connection relationship with the ith host by means of registration.

The server side stores n+1 basic information tables, and the 1 st row of the basic information table i comprises (MID) _i ，TID ⁱ ₁ ，TID ⁱ ₂ ，…，TID ⁱ _s1 ，…，TID ⁱ _k(i) ，C _i )，MID _i TID for the ID of the ith host ⁱ _s1 For the (1 st) terminal equipment connected with the (i) th host computer, C _i For the counter corresponding to the ith host, s1 has a value of 1 to k (i), C _i Is 0; line p of the basic information table i comprises (MID) ^p-1 _i ，TID ⁱ _(p-1)1 ，TID ⁱ _(p-1)2 ，…，TID ⁱ _(p-1)s2 ，…，TID ⁱ _(p-1)k(p-1) ，C _p ⁱ )，MID ^(p ^-1) _i TID for the ID of the (p-1) th host connected to the (i) th host ⁱ _(p-1)s2 The s2 nd terminal device connected to the p-1 th host connected to the i-th host, the value of s2 is 1 to k (p-1), and k (p-1) is the terminal connected to the p-1 th host connected to the i-th hostNumber of end devices, C _p ⁱ C is a counter corresponding to the p-1 th host connected with the i-th host _p ⁱ P has an initial value of 0 and p has a value of 2 to t (i) +1.

In the embodiment of the present invention, the first host may be a server with a backup system, for example, including a master control computer and a slave control computer. The second host may be a server without a backup system. Because the first host computer has the backup system, when the main control computer breaks down, the slave control computer can take over the function of the main control computer, and the communication smoothness can be ensured. In an embodiment of the present invention, the number of second hosts may be determined based on actual situations, for example, in one example, the number of second hosts may be 5.

In the embodiment of the invention, each terminal device is provided with an audio processing module and stores a set audio file. The terminal device may include an audio terminal, an audio-video terminal, and the like. The number of terminal devices connected per host may be determined based on the actual situation. The audio processing module may be live 555-based audio and video server TMC.

The data processing system for verifying the terminal provided by the embodiment of the invention can be suitable for determining whether the terminal under the audio/video command system can work normally. Specifically, when any host i is in the target environment mode, the system is used for detecting the abnormal state of the terminal device associated with the host i by the following steps:

s100, the server side obtains the time when all the terminal devices enter the target environment, and forms a verification ordering table i based on the obtained time, wherein the j-th row of the verification ordering table i comprises (TID _j ，M _j )，TID _j For entering the ID, M of the jth terminal device in the target environment _j For entering the serial number, M, of the jth terminal equipment in the target environment _j The initial value of (1) is Null, the value of j is 1 to q, and q is the number of terminal devices entering the target environment.

In a specific example of the present invention, the target environment is a meeting.

s300, if TID in line j _j And if the corresponding verification identifier is Null, sending a verification instruction j to the host i, wherein the verification instruction j is used for indicating that the j-th terminal equipment entering the target environment is a sending end for sending the set audio file, and the other terminal equipment entering the target environment is a receiving end for receiving the set audio file.

If TID in line j _j The corresponding authentication identifier is Null, which indicates that the terminal device is not used as the transmitting end. The verification identifier may be set to a different identifier based on actual needs, for example, if a certain terminal device has sent a set audio file as a sender, the verification identifier may be represented by an identifier such as "Y" or "ok", and typically the verification identifier is "Y".

S400, in response to receiving the verification instruction j, the host i sends the verification instruction j to all hosts and terminal devices connected with the host i.

And in the case that the host i is the first host, the host i forwards the acquired verification instruction to all the hosts and terminal devices connected with the host i.

In the case that the host i is the second host, if the host connected with the host i comprises a first host and a second host, if the second host connected with the host i has hosts disconnected with the host i and the disconnected second hosts are connected with the first host, the verification instruction sent by the host i can be sent to the disconnected second hosts through the first host, so that smooth data transmission is ensured, and accurate verification results are ensured.

S500, responding to the received verification instruction j, and sending a corresponding set audio file to a corresponding host by an audio processing module of the jth terminal device so as to send the corresponding set audio file to the terminal device entering the target environment; and after the set audio file is sent, the corresponding sending information is sent to the corresponding host.

The set audio files in each terminal device may be the same audio files having a set format, for example, pcm format.

In the embodiment of the invention, the audio processing module of the j-th terminal equipment entering the target environment reads and transmits the data with the set size from the corresponding set audio file according to the set time interval. Preferably, the data of 160 bytes is read from the setting audio file for transmission in a read-out simulating the actual mode of operation of the microphone, for example every 10 ms.

In one exemplary embodiment, the transmission information may include a file size transmitted, an ID of the transmitting end, and a status identification of the transmitting end. The state identification may include a state identification customized to the user, and may include, for example, a superuser state, a split state, a mask state, and so forth. The super user state refers to that if the sending end is a super user, the sending end sends data, all other receiving ends participating in the conference can receive the data sent by the sending end, and if the sending end is not the super user, the sending end only can receive the data for the receiving end of the super user. The split state refers to that data can be transmitted but data cannot be received. The mask state refers to that if the transmitting end is in the mask state, no other receiving end can receive the data.

In another exemplary embodiment, transmitting information may include: the file size, the name of the target environment, the ID of the transmitting end and the state identification of the transmitting end are transmitted. The ID of the target environment is the ID of the host in the target environment mode.

S600, in response to receiving the verification instruction j, the audio processing module of the receiving end receives the audio file sent by the sending end, and sends the corresponding receiving information to the corresponding host after receiving is finished, so as to send the corresponding receiving information to the server end.

In an exemplary embodiment, the transmitting information may include: the received file size, the ID of the receiving end and the state identification of the receiving end.

In another exemplary embodiment, the transmitting information may include: the received file size, the name of the target environment, the ID of the receiving end and the state identification of the receiving end.

The received file size may be obtained by corresponding TMC.

S700, the garmentThe server end is at t _j At the time of delta t, acquiring the sending information sent by the sending end and the receiving information sent by the receiving end, and determining whether abnormal terminal equipment exists or not based on the received sending information and the receiving information; t is t _j The time for sending the verification command j to the server, Δt, is a set time interval, which may be determined based on practical situations, and in one exemplary embodiment may be 5 minutes.

S700 further includes:

s701, storing the received transmission information and the received information in an information receiving list according to the receiving time, wherein the nth row of the information receiving list comprises (TID _u ，D _u ，S _u )，TID _u For the ID, D of the terminal equipment corresponding to the received u-th information _u The unit is bytes for the file size corresponding to the u-th information. S is S _u A state identifier of the terminal equipment corresponding to the u-th information; u has a value of 1 to G, G being the amount of information received.

S702, for the ith row in the ith basic information table, if v is less than or equal to t (i); s703 is performed; otherwise, S710 is performed.

S703 for any TID in line v ⁱ _r If r is less than or equal to k (v), inquiring in the information receiving list, if the corresponding ID is inquired as TID _u S604 is executed, otherwise S706 is executed; if r > k (v), S706 is performed; TID (tungsten inert gas) ⁱ _r ∈(TID ⁱ ₁ ，TID ⁱ ₂ ，…，TID ⁱ _s1 ，…，TID ⁱ _k(i) ) Or E (TID) ⁱ _(p-1)1 ，TID ⁱ _(p-1)2 ，…，TID ⁱ _(p-1)s2 ，…，TID ⁱ _(p-1)k(p-1) ) The method comprises the steps of carrying out a first treatment on the surface of the k (v) is the number of terminal devices in line v, TID when v=1 ⁱ _r ∈(TID ⁱ ₁ ，TID ⁱ ₂ ，…，TID ⁱ _s1 ，…，TID ⁱ _k(i) ) When v > 1, TID ⁱ _r ∈(TID ⁱ _(p-1)1 ，TID ⁱ _(p-1)2 ，…，TID ⁱ _(p-1)s2 ，…，TID ⁱ _(p-1)k(p-1) )。

S704, if TID ⁱ _r If the corresponding terminal equipment is the transmitting end, d1=d-D is acquired _u If d1 > a, indicating that the corresponding terminal equipment has abnormality, the TID in the basic information table i is obtained ⁱ _r Marking with a set color, such as red, D is the size of the set audio file, and a is a set value; s706 is performed; otherwise, S707 is performed.

a may be determined based on the actual situation, in one example a=0. In another example, a may be the amount of data sent by the sender.

S705 if TID ⁱ _r If the corresponding terminal device is the receiving end, d2=d is obtained _s -D _u If d2 > a, the TID in the base information table i will be ⁱ _r Marking with a set colour, e.g. red, D _s The file size is sent by the sending end; s606 is performed; otherwise, S707 is performed.

S706, set C _v ⁱ ＝C _v ⁱ +1; s607 is performed; c (C) _v ⁱ Is the counter in line v.

S707, r=r+1 is set; s603 is performed.

S708, if C _v ⁱ K (v), indicating that all devices under the host are abnormal, and if the host is abnormal, identifying the host ID of the v-th row with a set color; s709 is performed.

S709, set v=v+1; s702 is performed.

S710, generating a verification result table i based on the ith basic information table in the current state, and initializing the ith basic information table in the current state.

In S710, initializing the ith basic information table in the current state includes removing the set color in the basic information table and adding C _v ⁱ Is set to an initial value, i.e., reverts to an initial state for use in a subsequent authentication process.

Further, in the embodiment of the present invention, S705 further includes: if D _u =0, based on the state identification of the transmitting end and S _u Judging TID ⁱ _r If the corresponding terminal device is abnormal, executing S707 if the corresponding terminal device is not abnormal; otherwise, the TID in the basic information table i is processed ⁱ _r The identification is made in the set color, and S706 is performed.

Specifically, if the status identifier of the current sender is not a super user, S _u Nor super user, if D _u =0, representing TID ⁱ _r The corresponding terminal equipment does not receive the data normally and has no abnormality. If the current sender status identifier is not the super user, S _u Is a super user, if D _u =0, representing TID ⁱ _r The corresponding terminal device does not receive the data as exception. If S _u In the split state, if D _u =0, representing TID ⁱ _r The corresponding terminal equipment does not receive the data normally and has no abnormality.

Further, in the embodiment of the present invention, in S700, if the server is at t _j At time + # t, no information is received, S800 is performed.

Further, in an embodiment of the present invention, the method further includes:

s711, visually displaying the verification result table i.

The verification result table is visually displayed, so that the abnormal terminal equipment can be intuitively positioned, and the abnormal phenomenon can be analyzed and processed.

S800, set j=j+1; s200 is performed.

In summary, in the data processing system for verifying a terminal provided by the embodiment of the present invention, when a certain host is in a target environment mode, a server side sequentially sends a verification instruction to each terminal device according to a time sequence of the terminal device entering the target environment, so as to designate the terminal device as a transmitting end for transmitting a set audio file, other terminal devices as receiving ends for receiving the set audio file, the transmitting ends send transmission information to the server side after the file is transmitted, the receiving ends send receiving information to the server side after the file is received, and after the set time, the server side determines whether an abnormal terminal device exists in the terminal device associated with the target environment mode based on the received information, so as to generate a corresponding verification result. Therefore, the state of the conference terminal can be automatically verified, the verification efficiency can be improved, and the continuity of the conference is ensured.

While certain specific embodiments of the invention have been described in detail by way of example, it will be appreciated by those skilled in the art that the above examples are for illustration only and are not intended to limit the scope of the invention. Those skilled in the art will also appreciate that many modifications may be made to the embodiments without departing from the scope and spirit of the invention. The scope of the invention is defined by the appended claims.

Claims

1. A data processing system for authenticating a terminal, comprising: the server end, a first host and n second hosts which are in communication connection with the server end, wherein any host h is connected with k (h) terminal devices, and the value of h is 1 to n+1; wherein, any host stores an association table, the ith row of the association table comprises (MID) ₁ ⁱ ，MID ₂ ⁱ ，…，MID ⁱ _q ，…，MID _t(i) ⁱ )，MID _q ⁱ The value of q is 1 to t (i) for the ID of the q-th host connected with the i-th host, t (i) is the number of hosts connected with the i-th host, and the value of i is 1 to n+1; the server side stores n+1 basic information tables, wherein the 1 st row of the i-th basic information table comprises (BID _i ，TID ⁱ ₁ ，TID ⁱ ₂ ，…，TID ⁱ _s1 ，…，TID ⁱ _k(i) ，C _i )，BID _i TID for the ID of the ith host ⁱ _s1 For the (1 st) terminal equipment connected with the (i) th host computer, C _i For the counter corresponding to the ith host, s1 has a value of 1 to k (i), C _i I has a value of 1 to n+1; the ith row of the ith basic information table includes (MID) ⁱ _p-1 ，TID ⁱ _(p-1)1 ，TID ⁱ _(p-1)2 ，…，TID ⁱ _(p-1)s2 ，…，TID ⁱ _{(p-1)f(i，p-1)} ，C _p ⁱ )，MID ⁱ _p-1 TID for the ID of the (p-1) th host connected to the (i) th host ⁱ _(p-1)s2 The value of s2 is 1 to f (i, p-1), f (i, p-1) is the number of the terminal devices connected with the p-1 host connected with the i host, C _p-1 ⁱ C is a counter corresponding to the p-1 th host connected with the i-th host _p-1 ⁱ P has an initial value of 0 and a value of 2 to t (i) +1; each terminal device is provided with an audio processing module and stores a set audio file;

wherein, when the ith host is in the target environment mode, the system is configured to detect an abnormal state of a terminal device associated with the ith host by:

s100, the server side obtains the time when all the terminal devices enter the target environment, and forms a verification ranking table VSi based on the obtained time, wherein the j-th row of the verification ranking table VSi comprises (TID _j ，M _j )，TID _j For entering the ID, M of the j-th terminal device connected to the i-th host in the target environment _j For entering the serial number, M, of the jth terminal device connected with the ith host in the target environment _j The initial value of (1) is Null, the value of j is 1 to q, and q is the number of terminal devices entering the target environment;

s200, for the j-th row in the verification ranking table VSi, if j is less than or equal to q; s300 is executed; otherwise, exiting the control program;

s300, if the TID in the j-th row in the sorted list VSi is verified _j The corresponding verification identifier is Null, a verification instruction VIj is sent to the ith host, and the verification instruction VIj is used for indicating that the jth terminal equipment entering the target environment is a sending end for sending the set audio file, and the other terminal equipment entering the target environment is a receiving end for receiving the set audio file;

s400, in response to receiving the verification instruction VIj, the ith host sends the verification instruction VIj to all hosts and terminal devices connected to the ith host;

s500, responding to receiving a verification instruction VIj, and sending a corresponding set audio file to a corresponding host by an audio processing module of the j-th terminal device so as to send the corresponding set audio file to the terminal device entering the target environment; after the set audio file is sent, the corresponding sending information is sent to the corresponding host;

s600, responding to the received verification instruction VIj, the audio processing module of the receiving end receives the audio file sent by the sending end and sends the corresponding receiving information to the corresponding host after receiving so as to send the corresponding receiving information to the server end;

s700, the server side is at t _j At the time of delta t, acquiring the sending information sent by the sending end and the receiving information sent by the receiving end, and determining whether abnormal terminal equipment exists or not based on the received sending information and the receiving information; t is t _j The time of sending the verification command VIj to the server, wherein Deltat is a set time interval;

s800, set j=j+1; s200 is performed.

2. The system according to claim 1, wherein in S400, the audio processing module of the j-th terminal device entering the target environment reads the data of the set size from the corresponding set audio file at the set time interval and transmits the data.

3. The system of claim 1, wherein the transmitting information comprises: the size of the transmitted file, the ID of the transmitting end and the state identification of the transmitting end;

the received information includes: the received file size, the ID of the receiving end and the state identification of the receiving end.

4. The system of claim 1, wherein S700 further comprises:

s701, the received transmission information and the received information are pressedStoring the received time in an information receiving list, wherein the nth row of the information receiving list comprises (TID ⁱ _u ，D ⁱ _u ，S ⁱ _u )，TID ⁱ _u For the ID, D of the terminal device corresponding to the received (u) th information when the (i) th host is in the target environment mode ⁱ _u For the file size corresponding to the u-th information, S ⁱ _u A state identifier of the terminal equipment corresponding to the u-th information; the value of u is 1 to G, and G is the quantity of information received when the ith host is in the target environment mode;

s702, for the ith row in the ith basic information table, if v is less than or equal to t (i); s703 is performed; otherwise, S710 is performed;

s703 for any TID in line v ⁱ _r If r is less than or equal to k (v), inquiring in the information receiving list, if the corresponding ID is inquired as TID _u S704, otherwise, S706; if r > k (v), S708 is performed; TID (tungsten inert gas) ⁱ _r ∈(TID ⁱ ₁ ，TID ⁱ ₂ ，…，TID ⁱ _s1 ，…，TID ⁱ _k(i) ) Or E (TID) ⁱ _(p-1)1 ，TID ⁱ _(p-1)2 ，…，TID ⁱ _(p-1)s2 ，…，TID ⁱ _(p-1)k(p-1) ) The method comprises the steps of carrying out a first treatment on the surface of the k (v) is the number of terminal devices in row v;

s704, if TID ⁱ _r If the corresponding terminal equipment is the transmitting end, d1=d-D is acquired _u If d1 > a, the TID in the base information table i will be ⁱ _r Marking by using a set color, wherein D is the size of a set audio file, and a is a set value; s706 is performed; otherwise, S707 is performed;

s705 if TID ⁱ _r If the corresponding terminal device is the receiving end, d2=d is obtained _s -D _u If d2 > a, the TID in the base information table i will be ⁱ _r Marking with a set color, D _s The file size is sent by the sending end; s706 is performed; otherwise, S707 is performed;

s706, set C _v ⁱ ＝C _v ⁱ +1; s707 is performed; c (C) _v ⁱ Is a counter in line v;

s707, r=r+1 is set; s703 is performed;

s708, if C _v ⁱ =k (v), the host ID of the v-th line is identified with a set color; s709 is performed;

s709, set v=v+1; s702 is performed;

s710, generating a corresponding verification result table based on the ith basic information table in the current state, and initializing the ith basic information table in the current state.

5. The system of claim 4, wherein initializing the ith base information table in the current state in S710 includes removing a set color in the base information table and adding C _v ⁱ Is set to an initial value.

6. The system of claim 4, wherein S705 further comprises: if D _u =0, based on the state identification of the transmitting end and S _u Judging TID ⁱ _r If the corresponding terminal device is abnormal, executing S707 if the corresponding terminal device is not abnormal; otherwise, the TID in the basic information table i is processed ⁱ _r The identification is made in the set color, and S706 is performed.

7. The system of claim 1, wherein in S700, if the server is at t _j At time + # t, no information is received, S800 is performed.

8. The system of claim 1, wherein the target environmental mode is a conference mode.

9. The system of claim 4, further comprising:

and S711, visually displaying the generated verification result table.