CN115589463A - Information transmission system based on industrial internet - Google Patents

Abstract

The embodiment of the disclosure discloses an information transmission system based on an industrial Internet. One embodiment of the system includes: the talkback call system, the video monitoring system, the telephone communication system, the video conference system, the sound amplification broadcasting system and the information sending system are all in communication connection with the industrial internet scheduling system; the intercom system includes: short wave interphone and ultrashort wave interphone; the video monitoring system includes: the monitoring terminal is used for acquiring videos; the telephone communication system is used for one-button voice calling, conference calling and broadcast calling; the video conference system is in communication connection with the video monitoring system and is used for displaying videos collected by the video monitoring system; a public address broadcasting system includes: the system comprises a sound amplifying and broadcasting host, a sound console, an audio/video matrix switcher and an audio access gateway; the information delivery system is used for delivering messages to the user terminal and providing editable message templates. This embodiment ensures timeliness of information transfer.

Description

Information transmission system based on industrial internet

Technical Field

The embodiment of the disclosure relates to the technical field of computers, in particular to an information transmission system based on an industrial internet.

Background

Through years of information construction, a plurality of communication systems covering multi-level video conferences, important part monitoring, satellite communication, wired telephone, short wave communication, ultra-short wave communication and the like are deployed, an information system framework longitudinally penetrating through multi-level mechanisms and transversely communicating all service departments is preliminarily formed, and comprehensive information guarantee of voice, images and data of command mechanisms at all levels is realized. However, the various information systems are still in a simple application stage in tasks such as duty guard, emergency rescue and disaster relief. The fusion and interconnection among the network systems lack an effective means, and the integrated management level is not high.

Therefore, the following technical problems are generally present:

firstly, each system operates independently, and interconnection and intercommunication are not realized temporarily, so that the information transmission rate is low, and the timeliness of information transmission is poor;

secondly, the systems operate independently, information resources are difficult to share and interact, and when an emergency situation occurs, timeliness of information is difficult to guarantee, and emergency disaster relief time is delayed;

thirdly, the systems operate independently, the information transmission rate is low, the command and the scheduling are complex, and the emergency disaster relief time is easy to delay.

The above information disclosed in this background section is only for enhancement of understanding of the background of the inventive concept and, therefore, it may contain information that does not form the prior art that is already known to a person of ordinary skill in the art.

Disclosure of Invention

This summary is provided to introduce a selection of concepts in a simplified form that are further described below in the detailed description. This summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter.

Some embodiments of the present disclosure propose an industrial internet-based information transmission system to solve one or more of the technical problems mentioned in the above background section.

In a first aspect, some embodiments of the present disclosure provide an industrial internet-based information transmission system, including: the system comprises an intercom system, a video monitoring system, a telephone communication system, a video conference system, a sound amplification broadcasting system, an information sending system and an industrial internet scheduling system, wherein the intercom system, the video monitoring system, the telephone communication system, the video conference system, the sound amplification broadcasting system and the information sending system are all in communication connection with the industrial internet scheduling system; the intercom system comprises: short wave interphone and ultrashort wave interphone; the video monitoring system comprises: the monitoring terminal is in communication connection with the video monitoring terminal and is used for collecting videos; the telephone communication system comprises a target base telephone and at least one extension telephone, and is used for one-click voice calling, conference calling and broadcast calling; the video conference system is in communication connection with a video monitoring system and is used for displaying videos acquired by the video monitoring system; the above-mentioned public address broadcasting system includes: the system comprises a public address broadcasting host, a sound console, an audio and video matrix switcher and an audio access gateway, wherein the public address broadcasting host is in communication connection with the sound console, the sound console is in communication connection with the audio and video matrix switcher, and the audio and video matrix switcher is in communication connection with the audio access gateway; the information transmission system is used for transmitting the message to the user terminal and providing the editable message template.

Optionally, the information transmission system based on the industrial internet includes: the intelligent mobile terminal is in communication connection with the industrial internet scheduling system; the intelligent mobile terminal sends alarm information to the industrial internet scheduling system through voice alarm, video alarm or message alarm; the industrial internet scheduling system is configured to: and responding to the received alarm information, sending the alarm information to a target mobile terminal, and establishing a call connection with the target fixed telephone.

Optionally, the industrial internet scheduling system is configured to: and responding to a received scheduling command sent by the target mobile terminal or the target base station, and accessing the scheduling command to the talkback communication system, the at least one extension telephone and the public address broadcasting system.

Optionally, the industrial internet scheduling system is configured to: initiating a video call to the intelligent mobile terminal, and establishing the video call between the intelligent mobile terminal and the target mobile terminal; responding to a voice call request initiated by the target mobile terminal, and transferring the voice call request to the intelligent mobile terminal; and sending the video acquired by the video monitoring system to the intelligent mobile terminal or the target mobile terminal.

Optionally, the video conference system is configured to: pushing the related network video, meeting place video and monitoring video to the industrial internet scheduling system; the industrial internet scheduling system is configured to: and pushing network videos, meeting place videos and monitoring videos in the video conference system to the intelligent mobile terminal and the target mobile terminal.

Optionally, the above-mentioned industrial internet scheduling system is further configured to: and responding to the received target scheduling instruction sent by the target mobile terminal, converting the target scheduling instruction into a character instruction, and sending the character instruction to the intelligent mobile terminal.

Optionally, the video conference system is configured to: establishing a video conference; the industrial internet scheduling system is further configured to: and accessing the target fixed telephone, the at least one extension telephone, the target mobile terminal and the intelligent mobile terminal into the video conference.

Optionally, the intelligent mobile terminal includes: the system comprises at least one handheld mobile terminal and at least one vehicle-mounted mobile terminal; and the industrial internet scheduling system is further configured to: displaying the positions of the at least one handheld mobile terminal and the at least one vehicle-mounted mobile terminal in a preset map; determining at least one mobile terminal in a preset range according to the preset range corresponding to the target alarm position, wherein the at least one mobile terminal comprises: a handheld mobile terminal or a vehicle-mounted mobile terminal; and performing scheduling operation on the at least one mobile terminal.

Optionally, the above-mentioned industrial internet scheduling system is further configured to: in response to the detection of a selection operation acting on any mobile terminal icon in the preset map, displaying a moving track of a mobile terminal corresponding to the any mobile terminal icon, wherein the any mobile terminal icon represents a position icon of a handheld mobile terminal or a vehicle-mounted mobile terminal in the preset map, and the mobile terminal is the handheld mobile terminal or the vehicle-mounted mobile terminal; and calling the mobile terminal corresponding to any mobile terminal icon in response to the detection of the calling operation acting on any mobile terminal icon in the preset map.

Optionally, the smart mobile terminal is configured to: and shooting a live image in real time, and uploading the live image to the industrial internet scheduling system.

The above embodiments of the present disclosure have the following beneficial effects: through the information transmission system based on the industrial internet of some embodiments of the disclosure, the transmission rate of information is improved, and the timeliness of information transmission is ensured. Specifically, the reason for the poor timeliness of information transmission is: all the systems operate independently, and interconnection and intercommunication are not achieved temporarily, so that the information transmission rate is low. Based on this, the industrial internet-based information transmission system of some embodiments of the present disclosure includes: the system comprises an intercom system, a video monitoring system, a telephone communication system, a video conference system, a public address broadcasting system, an information sending system and an industrial internet scheduling system. The talkback communication system, the video monitoring system, the telephone communication system, the video conference system, the public address broadcasting system and the information sending system are all in communication connection with the industrial internet scheduling system. Therefore, the information between the systems can be directly transmitted, and the transmission rate of the information between the systems is improved. Wherein, above-mentioned intercom conversation system includes: short wave interphone and ultrashort wave interphone. Therefore, the communication session can be carried out in real time. Next, the video monitoring system includes: the monitoring terminal is in communication connection with the video monitoring end and is used for collecting videos. Therefore, the collected videos can be shared to other systems in real time, and information sharing is achieved. The telephone communication system further includes a destination base unit and at least one extension telephone for one-touch voice calls, conference calls, and broadcast calls. Therefore, the information can be shared in time. And then, the video conference system is in communication connection with a video monitoring system and is used for displaying videos acquired by the video monitoring system. Therefore, the received information can be displayed in time. Then, the above-mentioned public address broadcasting system includes: the system comprises a public address broadcasting host, a sound console, an audio and video matrix switcher and an audio access gateway, wherein the public address broadcasting host is in communication connection with the sound console, the sound console is in communication connection with the audio and video matrix switcher, and the audio and video matrix switcher is in communication connection with the audio access gateway. Therefore, information can be played in a large area. Finally, the information transmission system is used for transmitting the message to the user terminal and providing an editable message template. Therefore, the message can be synchronized to the outside in time. Therefore, the transmission rate of the information is improved, and the timeliness of information transmission is guaranteed.

Drawings

The above and other features, advantages and aspects of various embodiments of the present disclosure will become more apparent by referring to the following detailed description when taken in conjunction with the accompanying drawings. Throughout the drawings, the same or similar reference numbers refer to the same or similar elements. It should be understood that the drawings are schematic and that elements and elements are not necessarily drawn to scale.

Fig. 1 is a schematic structural diagram of some embodiments of an industrial internet-based information transmission system according to the present disclosure.

Detailed Description

Embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While certain embodiments of the present disclosure are shown in the drawings, it is to be understood that the disclosure may be embodied in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided for a more thorough and complete understanding of the present disclosure. It should be understood that the drawings and embodiments of the disclosure are for illustration purposes only and are not intended to limit the scope of the disclosure.

It should be noted that, for convenience of description, only the portions related to the related invention are shown in the drawings. The embodiments and features of the embodiments in the present disclosure may be combined with each other without conflict.

It should be noted that the terms "first", "second", and the like in the present disclosure are only used for distinguishing different devices, modules or units, and are not used for limiting the order or interdependence relationship of the functions performed by the devices, modules or units.

It is noted that references to "a", "an", and "the" modifications in this disclosure are intended to be illustrative rather than limiting, and that those skilled in the art will recognize that "one or more" may be used unless the context clearly dictates otherwise.

The names of messages or information exchanged between devices in the embodiments of the present disclosure are for illustrative purposes only, and are not intended to limit the scope of the messages or information.

The present disclosure will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Fig. 1 is a system configuration diagram of some embodiments of an industrial internet-based information transmission system according to the present disclosure. As shown in fig. 1, the information transmission system based on the industrial internet provided by the present disclosure may include: the system comprises an intercom system 1, a video monitoring system 2, a telephone communication system 3, a video conference system 4, a public address broadcasting system 5, an information sending system 6 and an industrial internet scheduling system 7.

In some embodiments, the intercom system 1, the video monitoring system 2, the telephone communication system 3, the video conference system 4, the public address broadcasting system 5, and the information sending system 6 are all communicatively connected to the industrial internet dispatching system 7.

Here, the intercom system 1 may be communicatively connected to the industrial internet scheduling system 7 by means of a trunking access gateway. Half-duplex intercom communication with the industrial internet scheduling system 7 can be achieved. The cluster access gateway can be a voice access device, and integrates the talkback cluster system of the traditional system into the intelligent integrated dispatching system, so that the two-way voice communication function between the IP-based dispatching terminal and the traditional interphone is realized, an information isolated island formed by different systems such as analog, TETRA, GOTA digital cluster and the like is communicated, and the two-way voice communication function between the command center and field personnel is realized. The cluster access gateway can realize the simultaneous access of 4 paths of interphones.

The intercom system 1 includes: short wave interphone and ultrashort wave interphone. The industrial internet scheduling system 7 can be a converged communication scheduling server, can realize the access, centralized management and unified calling of various functional modules and information resources such as converged communication scheduling, voice scheduling, video scheduling, broadband clustering, emergency broadcasting, GIS scheduling and the like, and realize the intelligent linkage with a third-party audio/video service system. The converged communication scheduling server is based on a standard SIP protocol, provides secondary development interfaces (SDK, webservice and the like) for upper-layer service system integration, and can be seamlessly docked with an audio/video service system of a third party, such as a Tetra cluster system, a short wave/ultra-short wave system, a video monitoring system, a video conference system, a wireless individual soldier system, an aerial intercom system and the like, for docking development and service fusion. The converged communication scheduling server supports a cloud platform architecture; a Linux operating system is adopted and is compatible with a domestic operating system; the system supports ten thousand gate level user registration, thousands gate level users non-blocking concurrent calling, large-capacity full duplex interactive conference, multistage scheduling control and management, IP/digital/analog and other multi-route relays, and provides real comprehensive command scheduling capability with full media and random scheduling.

The industrial internet scheduling system 7 may have the following functions:

1. and (3) voice scheduling: the method supports basic voice function languages such as voice single call, video single call, conference, hotline and the like; call scheduling functions such as forced insertion, forced removal and monitoring are supported; and the functions of call centers such as unattended operation, ringing set, polling set and the like are supported.

2. Cluster scheduling: the cluster scheduling service based on the 4/5G public network and the TD-LTE private network is supported, and the terminal can realize one-button group talkback only by pressing a PTT key; supporting multi-group and multi-level talkback; cross-system cluster scheduling (PDT, 350M,800M, short wave, ultra-short wave, PSTN line, etc.) can also be realized through gateway interconnection; the functions of mobile video return, picture shooting and transmission, position return and the like based on the cluster terminal are supported, and the extension of the command scheduling capability at the mobile terminal is realized.

3. Video scheduling: the scheduling terminals (video monitoring, video conference, mobile personnel and the like) with video attributes are scheduled through protocols such as an SIP (session initiation protocol), an 28181 protocol, an RTSP (real time streaming protocol) and the like, real-time videos from scheduling can be forwarded to other scheduling stations and video terminals (large screens, mobile terminals, video conference terminals and the like) as required, and seamless video coordinated scheduling is realized.

4. And (3) GIS scheduling: the visual GIS scheduling capability based on the two-dimensional/three-dimensional map is supported; the positions and states of the members are displayed on the map in real time, and scheduling operations such as voice/video single call, conference, talkback and the like are initiated by clicking, circle selection and the like based on the map, so that visual scheduling based on position information is realized.

5. And (3) instruction scheduling: the command center can issue a scheduling instruction to a scheduling terminal user (a mobile terminal, an IP wired terminal and the like), and the scheduling terminal can confirm and reply the instruction; in the inconvenient voice communication occasions such as strong noise interference environment, the instruction scheduling can be used as the necessary supplement of the voice scheduling.

6. And (3) conference scheduling: the limitation of the same system of the traditional voice conference is broken through, and various cross-system communication terminals can be pulled into the conference by scheduling the voice conference, so that real centralized scheduling and centralized conference meeting are realized.

7. And (3) permission scheduling: and the multi-level authority setting is supported, and different scheduling capabilities can be configured by different authority personnel, so that the effectiveness of scheduling operation of different service types is guaranteed.

8. Data scheduling: the effectiveness analysis is carried out on data gathered by the internet of things gateway, other business system access data and alarm data, necessary key information is presented to a user in a visual and visual way, a plan system is effectively associated, scientific analysis and decision making are assisted, and scheduling timeliness is improved.

9. Optional encryption: according to the customer requirements, the voice and data communication encryption is supported.

In some embodiments, the video monitoring system 2 may be communicatively coupled to the industrial internet scheduling system 7 via RTSP/national standard 28181, for example. The video surveillance system 2 may include: the monitoring terminal is in communication connection with the video monitoring end and is used for collecting videos. The video surveillance system 2 further comprises: and a video fusion server. The video fusion server is in communication connection with the video monitoring end and is used for transmitting the collected video to the industrial internet scheduling system 7. The monitor terminal may refer to a camera device. The video monitoring terminal can be a network video monitoring platform.

The video fusion server may have the following functions:

1. video access: the video monitoring system of each manufacturer can be accessed through standards such as national standard 28181 and the like, and unified scheduling and centralized management of different video sources are realized.

2. Video stream pulling: the live video stream can be pulled through modes of a terminal calling number, RTMP and the like, and converted into the HTTP + FLV/RTMP stream, so that the live video stream is merged into application scenes such as video conference, mobile scheduling and the like.

3. Video plug-flow: the video conference video stream and the video stream returned by the mobile terminal can be generated into the link and the two-dimensional code, and are pushed to the personnel needing to join in the scheduling through tools such as WeChat and the like, and the other party can pull the scheduling video through the link and the two-dimensional code to cooperatively participate in the scheduling.

4. Wide area networking: the video fusion server can realize cross-region combined networking in a wider range by means of the distributed networking characteristics of the fusion commanding and dispatching system, and a plurality of video monitoring networks are interconnected together to form a unified video communication network.

In some embodiments, the telephony system 3 includes a destination base unit and at least one extension telephone for one-touch voice calls, conference calls, and broadcast calls. Here, the target base unit may refer to a telephone exchange. The Telephone communication system 3 includes a PBX (Private Branch Exchange) subscriber-level switch and a PSTN (Public Switched Telephone Network) Public Switched Telephone Network. The telephone communication system 3 can be connected with the industrial internet dispatching system 7 through the integrated access gateway. The integrated access gateway can comprise E1, FXO/FXS, GSM/CDMA/WCDMA, trunking interface/vehicle platform/mobile station, PTT interface, audio/shortwave/ultrashort wave, E & M interface, magneto interface, SIP and IMS interface, supports MIPs embedded version, and supports maximum 4E 1/T1, 96 paths of GSM/CDMA/WCDMA, 192 paths of FXO/FXS, 128 paths of SIP relay, 48 paths of PTT, 96 paths of magneto, 96 paths of EM, 48 paths of audio interfaces and the like.

It should be noted that, the telephone communication system 3 supports the SIP protocol, and then the SIP protocol can be directly docked through the server layer, and interconnection and interworking can be realized without adding any access device.

In some embodiments, the video conference system 4 is communicatively connected to the video monitoring system 2, and is configured to display the video collected by the video monitoring system 2. Here, the video conference system 4 can support 1080P video resolution, high definition image quality, 32kHz two-channel, stereo CD-level sound quality, high fidelity audio, and creatively access the video conference terminal and the video monitoring DVS/IPC simultaneously. Videoconferencing system 4 may also support: the picture of 720P image qualities of low bandwidth transmission, support SIP video signal terminal, monitor terminal, hand-held terminal, vehicle mounted terminal, the conference of multiple terminals such as visual telephone, support multiple meeting modes such as fixed meeting room, temporary meeting room, support meeting invitation, forbidden speech, play meeting control function such as people, support the live stream of pushing of meeting, support many video pictures to close the screen, mobile terminal participates in can effectively save the bandwidth, support HD audio protocol and stereo lossless forwarding, support multiple network transmission rate: the system supports 128K-4M, 1080P format 60 frame/second coding and decoding, supports automatic or manual resolution adjustment according to bandwidth, supports lossless fusion of various hierarchical resolutions such as 352X288 (CIF), 640X480 (4 CIF), 704X576, 720X576 (D1), 1280X 720 (720P), 1920X1080 (1080P) and the like. The video conference system 4 can be accessed into the industrial internet scheduling system 7 in a manner of supporting SIP docking (requiring MCU to support standard SIP protocol) and back-to-back docking (non-standard SIP protocol/MCU-free docking condition).

In some embodiments, the public address broadcasting system 5 includes: the system comprises a sound amplifying and broadcasting host, a sound console, an audio and video matrix switcher and an audio access gateway. The sound amplification broadcasting host is in communication connection with the sound console, the sound console is in communication connection with the audio and video matrix switcher, and the audio and video matrix switcher is in communication connection with the audio access gateway. The public address broadcasting host may be a public address broadcaster (broadcasting horn). The audio access gateway can be a communication gateway device used for connecting audio input and output devices and carrying out VOIP voice conversion, supports various mainstream audio input and output interfaces, can access broadcasting systems and teleconference systems of various systems into an intelligent fusion scheduling system, and can get through barriers between the scheduling system and traditional broadcasting, conference room sound tuning systems and teleconference systems, thereby realizing service requirements of remote broadcasting, voice acquisition, teleconference and the like.

In some embodiments, the information delivery system 6 is configured to deliver a message to a user terminal and to provide an editable message template. Here, the information sending system 6 may be a short message group sending system. The short message group sending system can be a network terminal used for sending messages to each mobile phone group. The user terminal may refer to a user's handset.

Optionally, the information transmission system based on the industrial internet includes: and the intelligent mobile terminal is in communication connection with the industrial internet scheduling system. Here, the smart mobile terminal may include: intelligent individual soldier terminal, desktop command terminal etc.. The intelligent mobile terminal may be a mobile communication device. For example, the smart mobile terminal may be a mobile phone or a smart phone.

In some embodiments, the intelligent mobile terminal sends alarm information to the industrial internet scheduling system 7 through a voice alarm, a video alarm or a message alarm. For example, the intelligent mobile terminal can realize routing inspection and law enforcement services such as real-time voice communication, video communication, picture shooting and transmission, personnel positioning management, instant messages, notification bulletins and the like, and provides a wide-area multimedia law enforcement communication means for routing inspection and law enforcement personnel. For example, when the field personnel finds an abnormal condition, the intelligent mobile terminal can be used for reporting the abnormal condition to the industrial internet scheduling system 7 through various modes such as SOS alarm, voice alarm, video alarm, message alarm and the like. The alarm information may be "XX device short".

In some embodiments, the above-mentioned industrial internet scheduling system 7 is configured to: and responding to the received alarm information, sending the alarm information to a target mobile terminal, and establishing call connection with the target fixed telephone. The target mobile terminal may refer to a handheld mobile terminal of the target person. For example, the target mobile terminal may be a cell phone of a directing person.

Optionally, the above-mentioned industrial internet scheduling system 7 is configured to: and in response to receiving a dispatching instruction sent by the target mobile terminal or the target landline, accessing the dispatching instruction to the intercom system 1, the at least one extension telephone and the public address broadcasting system 5.

In practice, the scheduling instruction may refer to an instruction to schedule a person or a plurality of persons, and may also refer to an instruction to schedule a device or a plurality of devices. Here, after receiving the dispatch instruction, the intercom system 1 may call the relevant person through the short wave intercom and the ultra short wave intercom. The above-mentioned public address broadcasting system 5, after receiving the scheduling instruction, may broadcast the scheduling instruction to the respective persons by broadcasting.

The above related contents serve as an invention point of the present disclosure, and solve the technical problem mentioned in the background art, i.e., "delay emergency disaster relief time". The factors delaying the emergency disaster relief time are as follows: the systems operate independently, information resources are difficult to share and interact, and the timeliness of information is difficult to guarantee in case of emergency. If the factors are solved, the delay effect of emergency disaster relief time can be avoided. To achieve this, first, the industrial internet-based information transmission system includes: and the intelligent mobile terminal is in communication connection with the industrial internet scheduling system. Therefore, the intelligent mobile terminal can be timely contacted and communicated with the personnel of the intelligent mobile terminal. And then, the intelligent mobile terminal sends alarm information to the industrial internet scheduling system through voice alarm, video alarm or message alarm. From this, intelligent Mobile terminal can in time transmit alarm information to guarantee the timeliness of information. Next, the above-mentioned industrial internet scheduling system is configured to: and responding to the received alarm information, sending the alarm information to a target mobile terminal, and establishing call connection with the target fixed telephone. Therefore, the sharing of the information resources can be realized in time. Finally, the industrial internet scheduling system is configured to: and responding to a received scheduling command sent by the target mobile terminal or the target base station, and accessing the scheduling command to the talkback communication system, the at least one extension telephone and the public address broadcasting system. Therefore, each rescue worker can be informed to carry out emergency disaster relief in time.

Optionally, the above-mentioned industrial internet scheduling system 7 is configured to: initiating a video call to the intelligent mobile terminal, and establishing the video call between the intelligent mobile terminal and the target mobile terminal; responding to a voice call request initiated by the target mobile terminal, and transferring the voice call request to the intelligent mobile terminal; and sending the video acquired by the video monitoring system to the intelligent mobile terminal or the target mobile terminal.

In practice, first, the industrial internet scheduling system 7 may initiate a video call to the intelligent mobile terminal, so that the industrial internet scheduling system 7 issues a video instruction to the intelligent mobile terminal. Then, the intelligent mobile terminal and the target mobile terminal can be set up to have a video call. Therefore, the industrial internet scheduling system 7 can enable the personnel of the intelligent mobile terminal and the personnel of the target mobile terminal to directly carry out video call and issue a leader instruction. Then, the industrial internet scheduling system 7 transfers the voice call request to the intelligent mobile terminal in response to receiving the voice call request initiated by the target mobile terminal. The voice call request may refer to a request for a call with the intelligent mobile terminal. Therefore, the commander can directly communicate with the front-line personnel. Finally, the industrial internet scheduling system 7 may send the video collected by the video monitoring system 2 to the intelligent mobile terminal or the target mobile terminal. Therefore, the intelligent mobile terminal or the target mobile terminal is convenient for people to check.

Optionally, the video conference system 4 is configured to: and pushing the related network video, meeting place video and monitoring video to the industrial internet scheduling system 7. Here, the associated network video may be a conference presentation video. The meeting place video may refer to video of a meeting place. The surveillance video may refer to video captured by the video surveillance system 2.

Optionally, the industrial internet scheduling system 7 is configured to: and pushing the network video, the meeting place video and the monitoring video in the video conference system to the intelligent mobile terminal and the target mobile terminal. Therefore, the intelligent mobile terminal and the target mobile terminal can be watched and browsed conveniently by people.

Optionally, the above-mentioned industrial internet scheduling system 7 is further configured to: and responding to the received target scheduling instruction sent by the target mobile terminal, converting the target scheduling instruction into a character instruction, and sending the character instruction to the intelligent mobile terminal. The target scheduling instruction may refer to an instruction to schedule a field person. Namely, the commander can send a target scheduling instruction to the industrial internet scheduling system 7 through the target mobile terminal, and record the sound in real time. The industrial internet scheduling system 7 may edit the target scheduling instruction into a text instruction after receiving the target scheduling instruction. Then, the industrial internet scheduling system 7 may send the text instruction to the intelligent mobile terminal.

Optionally, the video conference system 4 is configured to: and establishing the video conference. That is, the video conference system 4 can create a video conference, so that various terminals and video resources, such as individual soldiers/mobile phones, vehicle-mounted individual terminals, video phones, command terminals, field monitoring terminals, network videos, and the like of each field person are pulled into the conference to participate in the conference together.

Optionally, the industrial internet scheduling system 7 is further configured to: and accessing the target fixed telephone, the at least one extension telephone, the target mobile terminal and the intelligent mobile terminal into the video conference. Therefore, various terminals and video resources such as individual soldiers/mobile phones, vehicle-mounted individual soldier terminals, visual phones, command terminals, on-site monitoring terminals, network videos and the like of each on-site person can be pulled into the conference to participate in the conference together. Meanwhile, the conference can be added by field personnel/remote experts in a voice mode through terminals such as mobile phones and fixed phones.

Optionally, the intelligent mobile terminal includes: at least one handheld mobile terminal and at least one vehicle-mounted mobile terminal. Here, the handheld mobile terminal may refer to a mobile phone, and the vehicle-mounted mobile terminal may refer to a communication device in a vehicle. Such as a car interphone.

Optionally, the above-mentioned industrial internet scheduling system 7 is further configured to: displaying the positions of the at least one handheld mobile terminal and the at least one vehicle-mounted mobile terminal in a preset map; determining at least one mobile terminal in a preset range according to the preset range corresponding to the target alarm position, wherein the at least one mobile terminal comprises: a handheld mobile terminal or a vehicle-mounted mobile terminal; and performing scheduling operation on the at least one mobile terminal.

In practice, first, the industrial internet scheduling system 7 may display the positions of the at least one handheld mobile terminal and the at least one vehicle-mounted mobile terminal in a preset map. Here, the preset map may be a map set to display a location where the mobile terminal is located. Then, the industrial internet scheduling system 7 may determine at least one mobile terminal in the preset range according to the preset range corresponding to the target alarm position. Wherein the at least one mobile terminal comprises: a hand-held mobile terminal or a vehicle-mounted mobile terminal. The target alert location may refer to a location at which alert information is sent. The preset range corresponding to the target alarm position may be an area range divided by taking the target alarm position as a circle center. That is, the industrial internet scheduling system 7 may determine the mobile terminals in the above-mentioned preset range. Finally, the industrial internet scheduling system 7 may perform a scheduling operation on the at least one mobile terminal. That is, the industrial internet scheduling system 7 may issue a scheduling instruction to the at least one mobile terminal, so that a worker corresponding to the at least one mobile terminal goes to a target alarm location.

The above related contents serve as an invention point of the present disclosure, and solve the technical problem mentioned in the background art, i.e., "the emergency disaster relief time is easily delayed". Factors that easily delay emergency disaster relief time are often as follows: the systems operate independently, the information transmission rate is low, and the command and scheduling are complex. If the factors are solved, the delay of emergency disaster relief time can be avoided. To achieve this, first, the smart mobile terminal includes: at least one handheld mobile terminal and at least one vehicle-mounted mobile terminal. Therefore, information can be transmitted to each mobile terminal in time. Secondly, the above-mentioned industrial internet scheduling system is further configured to: and displaying the positions of the at least one handheld mobile terminal and the at least one vehicle-mounted mobile terminal in a preset map. Therefore, the personnel of each mobile terminal can be scheduled in time. And then, determining at least one mobile terminal in the preset range according to the preset range corresponding to the target alarm position. And finally, scheduling the at least one mobile terminal. Therefore, the personnel corresponding to the mobile terminal in the alarm range can be scheduled in time. Therefore, the delay of emergency disaster relief time can be avoided.

Optionally, the above-mentioned industrial internet scheduling system 7 is further configured to: in response to detecting a selection operation acting on any mobile terminal icon in the preset map, displaying a moving track of the mobile terminal corresponding to the any mobile terminal icon, wherein the any mobile terminal icon represents a position icon of a handheld mobile terminal or a vehicle-mounted mobile terminal in the preset map, and the mobile terminal is the handheld mobile terminal or the vehicle-mounted mobile terminal; and calling the mobile terminal corresponding to any mobile terminal icon in response to the detection of the calling operation acting on any mobile terminal icon in the preset map.

In practice, first, the industrial internet scheduling system 7 displays a moving track of a mobile terminal corresponding to any mobile terminal icon in the preset map in response to detecting a selection operation acting on the mobile terminal icon. And any mobile terminal icon represents a position icon of a handheld mobile terminal or a vehicle-mounted mobile terminal in the preset map, and the mobile terminal is the handheld mobile terminal or the vehicle-mounted mobile terminal. The selection operation may include, but is not limited to: click, toggle, slide. That is, the industrial internet scheduling system 7 may display a moving track of a mobile terminal corresponding to any mobile terminal icon. And then, in response to the detection of the calling operation acting on any mobile terminal icon in the preset map, calling the mobile terminal corresponding to the any mobile terminal icon. Here, the call operation may be an operation indicating that a handheld mobile terminal or a vehicle-mounted mobile terminal corresponding to any mobile terminal icon is called. For example, a call control exists in the preset map, and after the call control is clicked, a mobile terminal corresponding to any one of the mobile terminal icons can be called.

Optionally, the smart mobile terminal is configured to: and shooting a live image in real time, and uploading the live image to the industrial internet scheduling system. Here, the smart mobile terminal can capture live images and videos in real time and upload the live images to the above-described industrial internet scheduling system 7.

The foregoing description is only exemplary of the preferred embodiments of the disclosure and is illustrative of the principles of the technology employed. It will be appreciated by those skilled in the art that the scope of the invention in the embodiments of the present disclosure is not limited to the specific combinations of the above-mentioned features, and other embodiments in which the above-mentioned features or their equivalents are combined arbitrarily without departing from the spirit of the invention are also encompassed. For example, the above features and (but not limited to) technical features with similar functions disclosed in the embodiments of the present disclosure are mutually replaced to form the technical solution.

Claims (7)

1. An industrial internet-based information transmission system, comprising: an intercom system, a video monitoring system, a telephone communication system, a video conference system, a public address broadcasting system, an information sending system and an industrial internet scheduling system, wherein,

the talkback communication system, the video monitoring system, the telephone communication system, the video conference system, the sound amplification broadcasting system and the information sending system are all in communication connection with the industrial internet scheduling system;

the intercom system includes: short wave interphone and ultrashort wave interphone;

the video monitoring system includes: the monitoring terminal is in communication connection with the video monitoring terminal and is used for collecting videos;

the telephone communication system comprises a target base station and at least one extension telephone, and is used for one-click voice calling, conference calling and broadcast calling;

the video conference system is in communication connection with the video monitoring system and is used for displaying videos acquired by the video monitoring system;

the public address broadcasting system includes: the system comprises a public address broadcasting host, a sound console, an audio and video matrix switcher and an audio access gateway, wherein the public address broadcasting host is in communication connection with the sound console, the sound console is in communication connection with the audio and video matrix switcher, and the audio and video matrix switcher is in communication connection with the audio access gateway;

the information sending system is used for sending messages to the user terminal and providing editable message templates.

2. The industrial internet-based information transmission system as claimed in claim 1, wherein the industrial internet-based information transmission system comprises: the intelligent mobile terminal is in communication connection with the industrial internet scheduling system; and

the intelligent mobile terminal sends alarm information to the industrial internet scheduling system through voice alarm, video alarm or message alarm;

the industrial internet scheduling system is configured to: and responding to the received alarm information, sending the alarm information to a target mobile terminal, and establishing call connection with the target fixed telephone.

3. The industrial internet-based information delivery system of claim 2, wherein said industrial internet scheduling system is configured to:

and responding to a received scheduling instruction sent by the target mobile terminal or the target fixed telephone, and accessing the scheduling instruction to the talkback communication system, the at least one extension telephone and the public address broadcasting system.

4. The industrial internet-based information transfer system of claim 2, wherein the video conference system is configured to: pushing the related network video, meeting place video and monitoring video to the industrial internet scheduling system;

the industrial internet scheduling system is configured to: and pushing network videos, meeting place videos and monitoring videos in the video conference system to the intelligent mobile terminal and the target mobile terminal.

5. The industrial internet-based information transfer system of claim 2, wherein the industrial internet scheduling system is further configured to:

and responding to the received target scheduling instruction sent by the target mobile terminal, converting the target scheduling instruction into a text instruction, and sending the text instruction to the intelligent mobile terminal.

6. The industrial internet-based information transfer system of claim 2, wherein the video conference system is configured to: establishing a video conference;

the industrial internet scheduling system is further configured to: and accessing the target fixed telephone, the at least one extension telephone, the target mobile terminal and the intelligent mobile terminal into the video conference.

7. The industrial internet-based information transmission system according to claim 2, wherein the smart mobile terminal is configured to: and shooting a live image in real time, and uploading the live image to the industrial Internet scheduling system.

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