CN117478836A - Control method and system for distributed emergency command center - Google Patents

Abstract

The invention relates to the technical field of emergency command and discloses a control method and a control system of a distributed emergency command center, wherein the control method and the control system comprise a data acquisition system, an early warning and warning system and a consultation system, the data acquisition system comprises real-time monitoring and disaster condition live monitoring, the early warning and warning system comprises a disaster condition simulation system, the disaster condition simulation system analyzes disaster information and generates a three-dimensional simulation picture, the consultation system comprises an information integration system, and the consultation system further comprises an acoustic amplification system, a conference system, a display system and a conference central control system. According to the invention, the projection screen or the display screen is arranged on the annular wall surface, so that people participating in the consultation can conveniently watch the display content at multiple angles, and the hand-held conference host, the conference chairman unit and the conference representative unit are sequentially distributed in the conference room in an annular manner.

Description

Control method and system for distributed emergency command center

Technical Field

The invention relates to the technical field of data security, in particular to a control method and a control system of a distributed emergency command center.

Background

The command center uses monitoring and management as means, and uses control and optimization as purposes, and replaces the traditional and low-efficiency management mode with an intelligent and high-efficiency management mode, thereby improving the management efficiency and service management quality of the information system and reducing the risks brought by manual operation and management. Fully utilizes modern audio and video technology, digital technology, computer multimedia technology, network technology, intelligent control technology and the like.

For departments such as public security, traffic police, urban management, environmental protection, and the like, communication bearing is not only communication but also national property and individual life, and the consultation link of an emergency command center is very important.

Therefore, we propose a distributed emergency command center control method and system.

Disclosure of Invention

The invention mainly solves the technical problems in the prior art and provides a control method and a control system for a distributed emergency command center.

In order to achieve the above purpose, the invention adopts the following technical scheme that the control method of the distributed emergency command center comprises a data acquisition system, an early warning and warning system and a consultation system, wherein the data acquisition system comprises real-time monitoring and disaster condition live monitoring, the early warning and warning system comprises a disaster condition simulation system, and the disaster condition simulation system analyzes disaster information and generates a three-dimensional simulation picture;

the consultation system comprises an information integration system, an audio amplifying system, a conference speaking system, a display system and a conference central control system, and is used for carrying out high-efficiency processing on data information obtained in the early warning and warning system and issuing rescue implementation.

Preferably, the real-time monitoring is to monitor possible ecological disasters such as geological disasters, meteorological disasters, environmental disasters, marine disasters and the like in real time through various monitoring devices, collect acquired data through various monitoring devices, and facilitate people to master various data.

Preferably, the disaster condition live monitoring is to collect data of the occurred disaster condition, so that people can quickly master the disaster condition position and the disaster condition initial time, and the collected disaster condition information is transmitted to the early warning and warning system through the disaster condition live monitoring system.

Preferably, the disaster simulation system is used for positioning the disaster area, locking the disaster occurrence point through the disaster simulation system, calculating the spreading range and speed of the disaster area through the generated three-dimensional simulation image, and simultaneously sending the integrated information to the consultation system in the first time by the early warning and warning system.

Preferably, the devices contained in the conference system are distributed in the conference room in a ring-shaped layout, wherein the devices contained in the display system, such as a projection screen or a display screen, are distributed on a ring-shaped wall surface in the conference room, and people participating in the conference can conveniently watch the display content at multiple angles by arranging the projection screen or the display screen on the ring-shaped wall surface.

Preferably, the hand-held conference host, the conference chairman unit and the conference representative unit contained in the conference speaking system are sequentially distributed in the conference room in a ring shape, so that people and consultants can exchange conveniently through the arrangement, and meanwhile, people can synchronously and visually know information conveniently.

Preferably, the consultation system is based on an information network, and the equipment contained in the sound amplifying system, the conference speaking system, the display system and the conference central control system realize organic interaction, so that timely research and judgment, quick response, emergency command and unified scheduling are realized, information is intuitively displayed in the consultation system through the data acquisition system and the early warning and warning system, people can conveniently and comprehensively and thoroughly perceive in time, people can conveniently and intuitively know the overall situation of a disaster, and data decision support is provided for disaster rescue implementation.

Preferably, the consultation system decides rescue path planning, rescue manpower planning, rescue equipment planning and rescue material planning based on the received disaster condition data.

A control method of a distributed emergency command center comprises the following steps of S1, data collection; s2, data integration and S3, consultation decision supported on the basis of collected data.

Advantageous effects

The invention provides a control method and a control system for a distributed emergency command center. The beneficial effects are as follows:

(1) According to the control method and system for the distributed emergency command center, equipment such as a projection screen or a display screen and the like contained in the display system are distributed on the annular wall surface in the conference room, people participating in the conference are conveniently watched at multiple angles by arranging the projection screen or the display screen on the annular wall surface, a hand-in-hand conference host computer, a conference chairman unit and a conference representative unit are sequentially in annular layout in the conference room, the communication of the people and the conference is facilitated through the arrangement, and the effect of being convenient for people to synchronously and visually know information is achieved.

(2) According to the control method and system for the distributed emergency command center, the disaster situation simulation system is used for locking disaster occurrence points, the generated three-dimensional simulation image is used for calculating the spreading range and speed of a disaster area, and meanwhile, the early warning and warning system is used for sending integrated information to the consultation system for the first time, so that the effect of quickly integrating disaster situation data information is achieved.

(3) According to the control method and system for the distributed emergency command center, the disaster occurrence point is locked through the disaster simulation system, the disaster area spreading range and speed are calculated through the generated three-dimensional simulation image, meanwhile, the integrated information is sent to the consultation system for the first time through the early warning and warning system, the organic interaction is realized through equipment contained in the sound amplifying system, the conference speaking system, the display system and the conference central control system, timely research and judgment, quick response, emergency command and unified scheduling are achieved, the information is intuitively displayed to the consultation system through the data acquisition system and the early warning and warning system, people can conveniently and comprehensively and thoroughly know the overall situation of the disaster in time, and the effect of providing data decision support for disaster rescue implementation is achieved.

(3) According to the control method and system for the distributed emergency command center, through a good high-speed image processing technology, the whole ultra-high physical resolution of a large screen is truly utilized, a wider geographical area is rapidly and smoothly displayed, massive industry key information is integrated from the aspects of overall planning, commanding and management, and organization and analysis operation are carried out in a high-resolution visual mode, so that the dynamic and trend of the industry key information are comprehensively mastered, the overall commanding, decision making and management capability is improved, mutually independent service systems are opened, the visual synthesis of the massive service information is achieved, and the effects of truly realizing auxiliary decision making and service intelligence are achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those skilled in the art from this disclosure that the drawings described below are merely exemplary and that other embodiments can be derived from the drawings provided without the inventive effort.

The structures, proportions, sizes, etc. shown in the present specification are shown only for the purposes of illustration and description, and are not intended to limit the scope of the invention, which is defined by the claims, so that any structural modifications, changes in proportions, or adjustments of sizes, which do not affect the efficacy or the achievement of the present invention, should fall within the ambit of the technical disclosure.

FIG. 1 is a flow chart of a system of the present invention;

FIG. 2 is a schematic diagram of a portion of a distribution of cells in a consultation system according to the present invention;

fig. 3 is a schematic diagram of connection of main devices in the consultation system 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 be within the scope of the invention.

Embodiment one: 1-3, the control method of the distributed emergency command center comprises a data acquisition system, an early warning and warning system and a consultation system, wherein the data acquisition system monitors and predicts possible disaster situations through various monitoring devices, the data acquisition system comprises real-time monitoring and disaster situation live monitoring, the various monitoring devices monitor possible ecological disasters such as geological disasters, meteorological disasters, environmental disasters and marine disasters in real time, the various monitoring devices collect acquired data, people can conveniently master various data, and for the occurred disaster situations, the disaster situation live monitoring system collects the data of the occurred disaster situations, so that people can quickly master disaster situation positions and disaster situation initial time, and the collected disaster situation information is transmitted to the early warning and warning system through the disaster situation live monitoring system;

the early warning and warning system comprises a disaster simulation system, wherein the disaster simulation system analyzes disaster information and generates three-dimensional simulation pictures, the disaster simulation system is used for positioning a heavy disaster area, the disaster simulation system is used for locking disaster occurrence points, the generated three-dimensional simulation pictures are used for calculating the spreading range and speed of the disaster area, and meanwhile the early warning and warning system is used for transmitting the integrated information to a consultation system at the first time;

the conference system comprises an information integration system, the conference system is a specific implementation scheme for carrying out high-efficiency processing on data information obtained by an early warning and warning system and issuing rescue, the complete conference system comprises an acoustic amplifying system, a conference speaking system, a display system and a conference central control system, equipment of the acoustic amplifying system mainly comprises an acoustic console, an acoustic amplifying loudspeaker, an acoustic amplifying power amplifier, an equalizer, a digital audio processor, a feedback inhibitor and the like, the conference speaking system mainly comprises a hand-hold conference host, a conference chairman unit, a conference representative unit, a conference unit tracking camera, an extension cable and the like, the display system mainly comprises a main projector, an electric lifting frame, a projection screen, a display screen, an AV matrix, a VGA matrix, a monitor and the like, and equipment of the conference central control system mainly comprises a central control host, a wireless touch screen, a wireless receiver, an infrared transmitting rod, a power controller, a volume controller, a light regulator, control software programming and the like;

the equipment contained in the consultation system is distributed in the conference room in an annular layout, wherein the equipment contained in the display system such as a projection screen or a display screen is distributed on an annular wall surface in the conference room, and people participating in the consultation can conveniently watch the display content at multiple angles by arranging the projection screen or the display screen on the annular wall surface;

the hand-held conference host, the conference chairman unit and the conference representative unit contained in the conference speaking system are sequentially distributed in the conference room in a ring shape, so that people and consultants can exchange conveniently through the arrangement, and meanwhile, people can synchronously and visually know information conveniently;

the consultation system is based on an information network, and organic interaction is realized by equipment contained in an acoustic amplification system, a conference speaking system, a display system and a conference central control system, so that timely research and judgment, quick response, emergency command and unified scheduling are realized, information is intuitively displayed in the consultation system through a data acquisition system and an early warning and warning system, people can conveniently and comprehensively and thoroughly perceive in time, people can conveniently and intuitively know the overall situation of a disaster, and data decision support is provided for disaster rescue implementation;

the consultation system decides rescue path planning, rescue manpower planning, rescue equipment planning, rescue material planning and the like based on the received disaster condition data.

Embodiment two: a control method of a distributed emergency command center comprises the following method steps: s1, data collection; s2, data integration and S3, consultation decision supported on the basis of collected data.

The S1 is that data collection: the system has the advantages that various monitoring devices are used for monitoring possible ecological disasters such as geological disasters, meteorological disasters, environmental disasters and marine disasters in real time, various monitoring devices are used for collecting collected data, people can conveniently master various data, and the live disaster monitoring system is used for collecting data of the occurred disaster, so that people can quickly master the position and the initial time of the disaster

And S2, data integration: the disaster simulation system analyzes disaster information and generates a three-dimensional simulation picture, the disaster simulation system is used for positioning the disaster area, the disaster simulation system is used for locking the disaster occurrence point, the generated three-dimensional simulation picture is used for calculating the spreading range and speed of the disaster area, and meanwhile, the early warning and warning system is used for sending the integrated information to the consultation system for the first time.

And S3, consultation decision: the disaster situation simulation system is used for locking disaster occurrence points, the spreading range and speed of a disaster area are calculated through the generated three-dimensional simulation image, meanwhile, the early warning and warning system is used for sending integrated information to the consultation system for the first time, organic interaction is achieved through equipment contained in the sound amplifying system, the conference speaking system, the display system and the conference central control system, timely research and judgment, quick response, emergency command and unified scheduling are achieved, the information is visually represented to the consultation system through the data acquisition system and the early warning and warning system, organic interaction is achieved through equipment contained in the sound amplifying system, the conference speaking system, the display system and the conference central control system on the basis of the information network, timely research and judgment, quick response, emergency command and unified scheduling are achieved, information is visually represented to the consultation system through the data acquisition system and the early warning and warning system, people can conveniently and thoroughly know the overall situation, data support is provided for disaster rescue implementation, and the consultation system is based on received disaster situation data, and rescue route planning, rescue planning and equipment and the like are planned and planned.

Embodiment III: the control method of the distributed emergency command center comprises the steps that at present, an international unified communication protocol is not formed in digital high-definition network communication, front-end equipment and rear-end equipment of each high-definition manufacturer cannot be compatible with each other, such as Dahua and Haikang equipment and the like, the control system of the emergency command center supports all manufacturer IP camera equipment, supports standard coding formats of H.264, MPEG4 and the like, supports access of IP signal sources with various specifications of CIF, D1, 720P, 1080i, 1080P, 4K and the like, and simultaneously can be used for rapidly adding novel equipment. Outside the network monitoring system, the conference room is also basically covered by high-definition equipment, and the system is built by the high-definition equipment, such as a high-definition camera, high-definition projection, high-definition splicing and the like. The support signal interface is DVI, HDMI, YCbCr, VGA, HD-SDI and the like, and the resolution ratio supports: 1280 x 720p, 1920 x 1080p, highest 4K ultra-high resolution;

the system adopts visualization and networking management, is the biggest characteristic of the system, the visualization increases the feedback of signals, reduces the error rate of control, and the emergency command center control system adopts a visual interaction solution based on a cloud architecture, adopts an all-IP technology, can be presented in real time at any place in a network, can acquire, display and call back any signal source, provides visual basis for command decision, and the emergency command center control system uniformly acquires the signals distributed everywhere to the cloud, and then pushes the signals to various screens through the network, such as: the interactive system is the largest difference from the common control system in that the interactive system can provide a real-time signal source preview function, preview signals can reach more than 20 paths, the number and the size of the signals can be defined at will, a plurality of display terminal display back windows can be arranged, and the display back content is synchronous with the large screen content. The system adopts a humanized operation interface, all operations are based on graphical and touch drag operation, so that a man-machine interaction function is achieved, a multi-point touch mode is adopted, the signal window is enlarged, reduced, moved and closed, the control effect obtained when the user sees can be achieved while the control is performed, the traditional conference system can only achieve simple button control and cannot timely respond to the control effect, the interaction performance is poor, and the number of conference rooms can be arbitrarily expanded through a network due to networking construction, so that information sharing is achieved;

the emergency command center control system transmits various signals such as audio, video and control through one network cable, the advancement of the system is definitely outstanding in the audio and video industry, and the management and the transmission of a plurality of conference rooms are communicated with each other only through one building network cable or optical fiber, so that the unified transmission and management of high-definition audio and video are realized.

Centralized and decentralized management: centralized management of multiple conferences is realized through a network, the system is controlled through a master control screen (for managing the multiple conferences), an IPAD (independent conferences) or any computer, the system supports a multi-level authority setting function in consideration of safety, and a 128-bit encrypted bottom transmission protocol ensures the safety of transmission data.

Support unrestricted client control;

the network recording and broadcasting storage function is provided: the system realizes audio and video recording and broadcasting, live broadcasting and on-demand broadcasting of a main conference room, does not need to add any additional equipment such as recording nodes and the like, only needs to add a recording and broadcasting server, can directly record high-definition input interface machine signals, can realize simultaneous recording work of 32 paths of high-definition or 64 paths of road definition signals at the same time by a single server, and can provide distributed storage service and program on-demand service for users. And a maximum of 16 client live broadcast and on-demand functions are supported.

Distributed architecture and system stability: the system adopts a real distributed architecture, and has the greatest advantages that each node (such as a high-definition input interface machine, a high-definition output interface machine, an audio interface machine, an environment control interface machine and the like) has the processing capacity of a DSP chip, a 1-to-1 signal processing mechanism is adopted, all operations can be processed by themselves, and the traditional processing mode that all signals are managed by a server is eliminated, so that the burden of a core server and a network is greatly reduced, the stability of the whole system is high, each node is relatively independent due to the processing capacity of all nodes, if a certain node has a problem, the problem node is only needed to be solved, the problem node signals can be fed back to a control terminal in real time, the search is convenient, and the normal operation of each node is not influenced even if the server has a fault;

interaction information sharing and system platform compatibility: the interactive information sharing comprises that any video signal source can be displayed on any one or more display terminals at the same time, the video signal of the same conference site can be displayed on one or more other conference sites, the operation interface is graphical, special training is not needed, the operation is simplified, the communication of audio and video and the sharing of files can be carried out between local conference rooms under the condition that a video conference platform is lost, and a general control system can complete the sharing of audio and video signals of a command center and other conference sites and uniformly control and manage the command center and other conference sites;

the system platform compatibility comprises the functions of supporting a computer video wireless transmission function, supporting IOS/WINDOWS terminal fixed-point control or wireless flow control, supporting recording and broadcasting of audio and video signals, ordering and the like, supporting the functions of cross-screen, roaming, superposition and the like of a splicing system, and supporting the access of monitoring signals such as network cameras of different brands and different network segments;

the emergency command center improves the capability of a unit for guaranteeing public safety and handling emergent public events, prevents and reduces emergent public events and damages caused by the emergent public events to the greatest extent, guarantees the life and property safety of the public, maintains national safety and social stability, and promotes comprehensive, coordinated and sustainable development of economy and society;

the emergency dispatching command system mainly comprises a fixed command center, a mobile command center, information release, information receiving, comprehensive processing, a database, a basic system and the like, and focuses on the solutions of the basic systems such as signal access, processing, display, transmission, data storage and the like in the command system; the command system, though related to various fields, has the same requirement, and the first access information amount is large: the system needs massive signal access capability, and in practical engineering application, the front-end signals of thousands of channels need to be processed, transmitted and displayed, and various information access modes are needed: the requirement is accessed to IP Camera, computer, high definition Camera, super high class map equipment, and the second is convenient quick management and control: the system needs to process various signals quickly and randomly, and has a plurality of information demand points: all signals are needed to be locally displayed and stored, and are needed to be communicated and shared among sites, mobile centers, rescue centers and command centers, and the third method is easy to expand and store: in addition to relatively fixed signals, the system needs to have the capability of accessing various temporary and mobile signals at any time, and fourth has special signal display (such as ultra-high resolution, 4K video source device access) and processing functions.

Embodiment four: a control method of a distributed emergency command center comprises a video system, an audio system and an interactive bidirectional control system;

the video system: according to demand analysis (large and various access information, convenience and rapidness in management and control and the like) of a command center, a large-screen display system, namely splicing display, is seen to be highlighted by the command center;

conventionally, a splice processor provided by a screen manufacturer is used for various video matrices. The equipment is numerous, the hardware processing is concentrated, the pressure is high, the wiring is complex, the operation is complex, the daily maintenance is complex, and if the core controller or the matrix is in trouble, the whole system is paralyzed.

The video system adopts a high-definition interface machine to replace the traditional splicing processor, and each video matrix. Each screen is independently connected with an interface machine, each screen operates independently, the distributed architecture is adopted, the single node equipment fails, the operation of the whole system cannot be influenced, the interface machines are connected through network cables, the wiring is simple, the cost is low, and the maintenance is convenient. The whole system can realize the functions of roaming, stacking, cross-screen and the like of signals. The whole system is simple and intelligent in operation, and can use equipment operations such as IPad/Iphone and the like to realize calling and real-time preview of all signals. One network cable can be said to be communicated with all devices, and all management is performed at the fingertips;

docking with various video devices: regarding the butt joint of video equipment such as a high-definition camera, a high-definition video conference terminal, a blue light player and the like, the types of supporting signals of a system video interface machine comprise DVI, HDMI, YCbCr, VGA, HD-SDI and the like, and the system video interface machine can be self-adaptive to different video equipment without considering the problems of signal sources, display terminal interfaces and the like;

docking with a workstation system: any computer signal in the workstation system can be realized, and the signal containing any application program, form file and video file is transmitted to the large screen display system;

docking with any mobile notebook computer output signal: any computer output signal can be transmitted to any display terminal in the large screen splicing or system through a wireless transmission mode.

In the audio speaking system, 8 fixed gooseneck conference microphones are considered this time for the command post is fixed to speak and is used, and 2 sets of wireless handheld microphones are used for the mobile speech, and the sound amplification system adopts sound column loudspeaker box + ceiling loudspeaker box mode, and the loudspeaker box is selected to be easily hidden, and the appearance is pleasing to the eye.

The audio frequency processing in the audio frequency system adopts a network audio frequency matrix interface machine (12 in and 12 out, a built-in DSP processing chip) in the system, can accurately and synchronously process and restore audio frequency signals from all parties, carries out necessary AFC (self-adaptive feedback elimination function) and AEC (echo elimination function) on signals from a remote place, ensures the language definition of audio frequency intercommunication, and realizes the multipoint synchronous transmission of audio frequency (24 bit/48 kHz) signals through a standard transmission network. Meanwhile, the interface machine supports 8 scene preset functions, and for convenient and quick switching, control software of an audio matrix is used for setting buttons with different modes or a wireless touch screen in a management system at the rear end, so that one-key multi-mode switching function can be realized, and artificial intelligence, advancement and science and technology are embodied;

in order to realize centralized control management of a unified management platform, multiple users, multiple terminals and multiple operation platforms under the same network, the interactive bidirectional control system can realize control of the whole system by adopting a wireless touch screen or a wired touch screen in a command hall and a leading decision-making room, and information including input and output, environmental control, system state and the like can be fed back to a control interface in time, so that the operation of reciprocating impurities becomes simple and visual.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A control method of a distributed emergency command center is characterized by comprising the following steps of: the disaster information monitoring system comprises a data acquisition system, an early warning and warning system and a consultation system, wherein the data acquisition system comprises real-time monitoring and disaster condition live monitoring, the early warning and warning system comprises a disaster condition simulation system, and the disaster condition simulation system analyzes disaster information and generates three-dimensional simulation pictures;

the consultation system comprises an information integration system, an audio amplifying system, a conference speaking system, a display system and a conference central control system, and is used for carrying out high-efficiency processing on data information obtained in the early warning and warning system and issuing rescue implementation.

2. The distributed emergency command center control method according to claim 1, wherein: the real-time monitoring is to monitor possible ecological disasters such as geological disasters, meteorological disasters, environmental disasters, marine disasters and the like in real time through various monitoring devices, collect acquired data through various monitoring devices, and facilitate people to master various data.

3. The distributed emergency command center control method according to claim 1, wherein: the disaster condition live monitoring is to collect data of the occurred disaster condition, so that people can quickly master the disaster condition position and the disaster condition initial time, and the collected disaster condition information is transmitted to the early warning and warning system through the disaster condition live monitoring system.

4. The distributed emergency command center control method according to claim 1, wherein: the disaster simulation system is used for positioning the disaster area, locking the disaster occurrence point through the disaster simulation system, calculating the spreading range and speed of the disaster area through the generated three-dimensional simulation image, and simultaneously sending the integrated information to the consultation system in the first time by the early warning and warning system.

5. The distributed emergency command center control method according to claim 1, wherein: the devices contained in the consultation system are distributed in the conference room in an annular layout, wherein the devices contained in the display system such as a projection screen or a display screen are distributed on an annular wall surface in the conference room, and people participating in the consultation can conveniently watch the display content at multiple angles by arranging the projection screen or the display screen on the annular wall surface.

6. The distributed emergency command center control method according to claim 1, wherein: the hand-held conference host, the conference chairman unit and the conference representative unit contained in the conference speaking system are sequentially distributed in the conference room in a ring shape.

7. The distributed emergency command center control method according to claim 1, wherein: the consultation system is based on an information network, and realizes organic interaction by equipment contained in an audio amplifying system, a conference speaking system, a display system and a conference central control system.

8. The distributed emergency command center control method according to claim 1, wherein: and the consultation system decides rescue path planning, rescue manpower planning, rescue equipment planning and rescue material planning based on the received disaster condition data.

9. The control method of the distributed emergency command center according to claim 1, wherein the control method comprises the following steps: the method comprises the following steps of S1, data collection; s2, data integration and S3, consultation decision supported on the basis of collected data.