CN114039986A - Management method for using videos and graphs by scheduling system client - Google Patents

Abstract

The invention discloses a management method for using videos and graphs by a scheduling system client, which comprises the following specific operation steps: the system framework is a cluster system supporting multiple servers, and is provided with a dynamic main server and a dynamic standby server, and data exchange is carried out between the main server and the standby server through a private network; firstly, video scheduling: s11: a separate number is set for each sub-terminal and the information data is matched for the number. According to the method and the system, the data can be dynamically synchronized in real time through the set double-server clusters of the mutual peer devices, and the data is supported to be cold backed up at regular time, so that more safety guarantee is provided for the data; the dynamic equilibrium control of multiple servers is realized, and the application pressure can be shared by multiple servers; the video and graphical scheduling are convenient, scheduling data are clear when scheduling is carried out, a scheduling page is convenient to operate, and the video and graphical scheduling method has a good effect.

Description

Management method for using videos and graphs by scheduling system client

Technical Field

The invention belongs to the technical field of information interaction, and particularly relates to a method for managing videos and graphs used by a scheduling system client.

Background

The client is a program corresponding to the server and providing local services for the client, and generally, the client is installed on a client of a user, where the client may be a computer, a mobile phone or other devices, and the more common client includes a web browser, an email, and client software for instant messaging.

In an enterprise, the situation of scheduling personnel often occurs, the confidentiality of common instant messaging client software is low, the number of the users who can receive scheduling on line is small, when multiple users perform video scheduling on line simultaneously, the size of a video page can only be adjusted by themselves, even some clients cannot be adjusted, and the use is very inconvenient, so that a management method with convenient scheduling and good use effect is provided for the problem of livelihood.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a management method for using videos and graphs by a scheduling system client, which has the advantages of convenient scheduling and good using effect.

In order to achieve the purpose, the invention provides the following technical scheme: a management method for using videos and graphics by a client of a dispatching system comprises the following specific operation steps:

the system framework is a cluster system supporting multiple servers, and is provided with a dynamic main server and a dynamic standby server, and data exchange is carried out between the main server and the standby server through a private network:

firstly, video scheduling:

s11: setting an individual number for each sub-terminal, and matching information data for the numbers;

s12: logging in to enter a scheduling client and entering a video conference interface;

s13: starting a video conference and starting a local video when clicking is started;

s14: clicking the invitation, and selecting a hot key in a popped invitation dialog box or adding the hot key into the dialog box as a video conference member through a dial invitation number;

s15: after the call is made, the video conference can be started, and conference members input in the left phone can be automatically invited to join the conference and converse with the conference members.

Secondly, graphical scheduling: a

S21: the method comprises the following steps that an administrator uses a graphical scheduling configuration tool to create template configuration of graphical scheduling and then updates the template configuration to a server;

s22: the scheduling client automatically synchronizes the graphical configuration and draws the configuration on a graphical scheduling interface;

s23: the drawn graphical deployment diagram is connected with a server, and the agent number corresponds to the deployment diagram through a data processing module;

s24: clicking the corresponding seat, displaying a number list popup window, and clicking the number to initiate a call;

s25: through the functions of zooming in, zooming out, dragging a function layout diagram and the like provided by the graphical scheduling interface of the scheduling client, a user can work aiming at a certain area.

Preferably, the main server and the standby server in the system frame are dynamically equal, the system frame adopts a loose distributed design mode, and realizes transverse expansion by dividing different functional servers, and the system frame also has a unique multi-service distributed management and control mode, the dual-server clusters in the system frame are mutually equal to each other as the main server and the standby server, the client can automatically detect the unique connection of the active clusters, the main cluster and the standby cluster synchronize data in real time through a database hot backup mechanism, and meanwhile, cold backup can be carried out regularly, more guarantee can be provided for the safe storage of the data, and the condition that the use is influenced by the fault of the single-server cluster can be prevented; the system framework adopts a loose distributed design mode, on one hand, different logic levels are divided longitudinally, friendly abstract calling interfaces are defined among the levels, and the program logic and the function requirements are effectively separated so as to add new functions; on the other hand, the horizontal expansion is realized by dividing different function servers, the fine-grained requirement of the required function is ensured, codes are examined by a professional code security examination tool and do not contain any backdoor program and malicious codes, the function servers such as a main logic server, a log server, an interface server and the like are arranged in a system frame, the dynamic balance control of multiple servers is realized, the pressure of seats and application can be shared by multiple servers, the concurrency of the system can be realized by adding server software instances and adding server hardware, and currently, a single server can support 200 scheduling seats to be on line simultaneously; the system has a unique multi-service distributed management and control mode, so that new functions can be realized by adding a new function server, the function expansion of the system is not the matter of hurting tendons and bones, the function can be smoothly upgraded under the condition that the existing system continues to operate, and the addition of new functions is facilitated.

Preferably, the graphical scheduling helps scheduling to memorize numbers through interface of scheduling seat layout and seat numbers corresponding to seat positions, supports parent-child layer and local amplification function, can conveniently call seats by memorizing the numbers, saves calling time, enables the scheduling interface to be cleaner and tidier, and improves working efficiency.

Preferably, the video scheduling supports H.264 coding, supports the highest 1080P resolution, and is compatible with 720P, 4CIF and CIF; the single server supports the simultaneous online of 720P-1080P videos of the maximum 60 parties, and system capacity can be provided by stacking MCU servers; the 3, 6, 9, 1-size and 3-size split screen mode is supported; whether a video telephone is accessed can be automatically identified, if so, the telephone is connected with audio, and the video is displayed on a dispatching desk; the CTI application supporting video expansion, such as video telephone traffic queuing, video forced insertion and forced disconnection operation and the like, is wide in compatibility and convenient to work, and the split screen mode and the intelligent identification system can be conveniently used and operated.

Preferably, the video scheduling has an enhanced incoming call display function, the address list information is acquired through butt joint with a user information system, relevant information of an incoming call person is popped up when a corresponding number is dialed, and the incoming call enhancement function can display information of a dialed number, so that a dialed person can be conveniently known and the video scheduling is convenient to use.

Preferably, the video access in the video scheduling can be a video phone, a monitor, a handheld terminal (wireless device), mobile terminal software (mobile phone, PAD, and the like), a USB camera, a third party conference system, and the like, can support the access of various video sources, can facilitate mobile office, and has a good use effect.

Compared with the prior art, the invention has the following beneficial effects:

according to the method and the system, the data can be dynamically synchronized in real time through the set double-server clusters of the mutual peer devices, and the data is supported to be cold backed up at regular time, so that more safety guarantee is provided for the data; the system has a unique multi-service distribution management and control mode, and can conveniently add new functions; the dynamic equilibrium control of multiple servers is realized, and the application pressure can be shared by multiple servers; the video and graphical scheduling are convenient, scheduling data are clear when scheduling is carried out, a scheduling page is convenient to operate, and the video and graphical scheduling method has a good effect.

Drawings

FIG. 1 is a schematic view of a video scheduling process according to the present invention;

FIG. 2 is a schematic diagram of a graphical scheduling process according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 2, the present invention provides a technical solution: a management method for using videos and graphics by a client of a dispatching system comprises the following specific operation steps:

the system framework is a cluster system supporting multiple servers, and is provided with a dynamic main server and a dynamic standby server, and data exchange is carried out between the main server and the standby server through a private network:

firstly, video scheduling:

s11: setting an individual number for each sub-terminal, and matching information data for the numbers;

s12: logging in to enter a scheduling client and entering a video conference interface;

s13: starting a video conference and starting a local video when clicking is started;

s14: clicking the invitation, and selecting a hot key in a popped invitation dialog box or adding the hot key into the dialog box as a video conference member through a dial invitation number;

s15: after the call is made, the video conference can be started, and conference members input in the left phone can be automatically invited to join the conference and converse with the conference members.

Secondly, graphical scheduling: a

S21: the method comprises the following steps that an administrator uses a graphical scheduling configuration tool to create template configuration of graphical scheduling and then updates the template configuration to a server;

s22: the scheduling client automatically synchronizes the graphical configuration and draws the configuration on a graphical scheduling interface;

s23: the drawn graphical deployment diagram is connected with a server, and the agent number corresponds to the deployment diagram through a data processing module;

s24: clicking the corresponding seat, displaying a number list popup window, and clicking the number to initiate a call;

s25: through the functions of zooming in, zooming out, dragging a function layout diagram and the like provided by the graphical scheduling interface of the scheduling client, a user can work aiming at a certain area.

The system frame is dynamically equal to the main server and the standby server, adopts a loose distributed design mode, realizes transverse expansion by dividing different functional servers, and also has a unique multi-service distributed management and control mode, wherein double server clusters in the system frame are mutually equal to the main server and the standby server, a client can automatically detect unique connection of active clusters, the main cluster and the standby cluster synchronize data in real time through a database hot backup mechanism, and meanwhile, cold backup can be carried out regularly, more guarantee can be provided for safe storage of the data, and the condition that the use is influenced by the fault of a single server cluster can be prevented; the system framework adopts a loose distributed design mode, on one hand, different logic levels are divided longitudinally, friendly abstract calling interfaces are defined among the levels, and the program logic and the function requirements are effectively separated so as to add new functions; on the other hand, the horizontal expansion is realized by dividing different function servers, the fine-grained requirement of the required function is ensured, codes are examined by a professional code security examination tool and do not contain any backdoor program and malicious codes, the function servers such as a main logic server, a log server, an interface server and the like are arranged in a system frame, the dynamic balance control of multiple servers is realized, the pressure of seats and application can be shared by multiple servers, the concurrency of the system can be realized by adding server software instances and adding server hardware, and currently, a single server can support 200 scheduling seats to be on line simultaneously; the system has a unique multi-service distributed management and control mode, so that new functions can be realized by adding a new function server, the function expansion of the system is not the matter of hurting tendons and bones, the function can be smoothly upgraded under the condition that the existing system continues to operate, and the addition of new functions is facilitated.

The graphical scheduling is realized through the interface of the scheduling seat layout and the seat numbers corresponding to the seat positions, the numbers are memorized by aid of the graphical scheduling, a parent-child layer is supported, a local amplification function is realized, the seats can be conveniently called by aid of the number memory, calling time is saved, the scheduling interface can be tidier due to the parent-child layer, and working efficiency is improved.

The video scheduling supports H.264 coding, supports the highest 1080P resolution and is downward compatible with 720P, 4CIF and CIF; the single server supports the simultaneous online of 720P-1080P videos of the maximum 60 parties, and system capacity can be provided by stacking MCU servers; the 3, 6, 9, 1-size and 3-size split screen mode is supported; whether a video telephone is accessed can be automatically identified, if so, the telephone is connected with audio, and the video is displayed on a dispatching desk; the CTI application supporting video expansion, such as video telephone traffic queuing, video forced insertion and forced disconnection operation and the like, is wide in compatibility and convenient to work, and the split screen mode and the intelligent identification system can be conveniently used and operated.

The video scheduling has the function of enhancing incoming call display, the address list information is acquired through butt joint with a user information system, the caller related information is popped up when the corresponding number is dialed, the incoming call enhancement function can display the information of the dialed number, the dialed number can be conveniently known, and the use is convenient.

The video access in the video scheduling can be a video phone, monitoring, a handheld terminal (wireless device), mobile terminal software (mobile phone, PAD and the like), a USB camera, a third party conference system and the like, can support the access of various video sources, can facilitate mobile office, and has a good use effect.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A management method for using videos and graphics by a scheduling system client is characterized by comprising the following steps: the specific operation steps of the management method for the client side of the scheduling system to use the videos and the graphs are as follows:

the system framework is a cluster system supporting multiple servers, and is provided with a dynamic main server and a dynamic standby server, and data exchange is carried out between the main server and the standby server through a private network:

firstly, video scheduling:

s11: setting an individual number for each sub-terminal, and matching information data for the numbers;

s12: logging in to enter a scheduling client and entering a video conference interface;

s13: starting a video conference and starting a local video when clicking is started;

s14: clicking the invitation, and selecting a hot key in a popped invitation dialog box or adding the hot key into the dialog box as a video conference member through a dial invitation number;

s15: after the call is made, the video conference can be started, and conference members input in the left phone are automatically invited to join the conference and communicate with the conference members;

secondly, graphical scheduling:

s21: the method comprises the following steps that an administrator uses a graphical scheduling configuration tool to create template configuration of graphical scheduling and then updates the template configuration to a server;

s22: the scheduling client automatically synchronizes the graphical configuration and draws the configuration on a graphical scheduling interface;

s23: the drawn graphical deployment diagram is connected with a server, and the agent number corresponds to the deployment diagram through a data processing module;

s24: clicking the corresponding seat, displaying a number list popup window, and clicking the number to initiate a call;

s25: through the functions of zooming in, zooming out, dragging a function layout diagram and the like provided by the graphical scheduling interface of the scheduling client, a user can work aiming at a certain area.

2. The method for managing the use of video and graphics by a client of a scheduling system of claim 1, wherein: the dynamic peer-to-peer between the main server and the standby server in the system framework is realized, the system framework adopts a loose distributed design mode, the transverse expansion is realized by dividing different functional servers, and the system framework also has a unique multi-service distributed management and control mode.

3. The method for managing the use of video and graphics by a client of a scheduling system of claim 1, wherein: the graphical scheduling helps scheduling to memorize numbers through the interface of scheduling seat layout and the seat numbers corresponding to the seat positions, and supports parent-child layer and local amplification functions.

4. The method for managing the use of video and graphics by a client of a scheduling system of claim 1, wherein: the video scheduling supports H.264 coding, supports the highest 1080P resolution and is downward compatible with 720P, 4CIF and CIF; the single server supports the simultaneous online of 720P-1080P videos of the maximum 60 parties, and system capacity can be provided by stacking MCU servers; the 3, 6, 9, 1-size and 3-size split screen mode is supported; whether a video telephone is accessed can be automatically identified, if so, the telephone is connected with audio, and the video is displayed on a dispatching desk; CTI application supporting video extension, such as video telephone traffic queuing, video forced insertion and forced disconnection operation and the like.

5. The method for managing the use of video and graphics by a client of a scheduling system of claim 1, wherein: the video scheduling has the function of enhancing the incoming call display, the address list information is acquired through the butt joint with the user information system, and the relevant information of the caller is popped up when the corresponding number is dialed.

6. The method for managing the use of video and graphics by a client of a scheduling system of claim 1, wherein: the video access in the video scheduling can be a video phone, a monitor, a handheld terminal (wireless device), mobile terminal software (mobile phone, PAD and the like), a USB camera, a third party conference system and the like.

Images