CN104967695A - Mine emergency rescue command information generation transmission system and method - Google Patents

Abstract

The invention discloses a mine emergency rescue command information generation transmission system and method, and the system comprises a rescue scene subsystem, an underground command base subsystem, a ground command center, a remote command center subsystem, and a mobile command center subsystem. The system is characterized in that a first wireless camera, a first wireless cellphone, a first wireless environmental parameter sensor and a first wireless vital sign detector in the rescue scene subsystem are respectively in wireless communication with a wireless/wired converter through a first wireless base station, a second wireless base station, ..., and an n-th wireless base station; a second wireless camera, a second wireless cellphone, a second wireless environmental parameter sensor and a second wireless vital sign detector in the underground command base subsystem are respectively in wireless communication with a mine intrinsic safety computer; a third wireless camera and a third wireless cellphone are respectively in wireless communication with the ground base station; and the system can be widely used for the mine and non-mine fields.

Description

Mine emergency rescue command information generates transmission system and method

Technical field:

The present invention relates to system and method, be specifically related to the generation of a kind of mine emergency rescue command information, transmission system and method.

Technical background:

On-the-spot emergency command embodies basic function and the target of contingency management, is core content and the key link of the management of mine accident disaster emergency.Because the type of mine accident disaster is many, evolution process is complicated, emergency command needs carrying out under changeable condition with environment it is pressed for time usually, timely, the accurate and effective promotion emergency information stream normal operation relation of emergency commading system energy, make up information asymmetry and loss of learning, improve the decision-making capability of contingency management level and commanding officer.

The main tool that emergency commading system transmits as information in rescue operations is basis and the prerequisite of carrying out emergency management and rescue and emergency disposal.Current China mine emergency management and rescue signal equipment level progressively improves, and effectively improves emergency management and rescue information level, but still there is following problem: the running flow process of information, personnel, relief goods is chaotic, causes goods and materials to waste, and commander's efficiency is low.Emergency management and rescue communication network technology specification and information transmission process are difficult to unified, and information platform composition at different levels is complicated.Construction and the application deficiency of emergency information systems are lack of standardization, emergency information skewness, and sharing degree integrated level is low, lack stable, direct information channel between the information source of different functional department and information user.Communication way is based on horizontal and longitudinal step by step, and less diagonal and the spring-plate type of bypassing the immediate leadership longitudinal link up specification, low to information communication degree of support in emergency circumstances; Message sense evolutionary pattern is single, and time continuity is not strong, and anti-disaster ability is weak.

Summary of the invention:

Technical problem to be solved by this invention is to provide mine emergency rescue command information and generates transmission system and method.

In order to solve the problem, technical solution of the present invention is, mine emergency rescue command information generates transmission system, comprises rescue site subsystem, commander base, down-hole subsystem, ground command center, remote command center subsystem and mobile command center subsystem, it is characterized in that:

In rescue site subsystem, the first wireless camera, the first wireless phone, the first wireless environment parameter sensors and the first wireless vital sign detector respectively by the first wireless base station, the second wireless base station ... and/or n-th wireless base station and Wireless/wired transducer carry out wireless telecommunications;

In the subsystem of commander base, down-hole, the second wireless camera, the second wireless phone, the second wireless environment parameter sensors and the second wireless vital sign detector carry out wireless telecommunications with mine intrinsic safety computer respectively;

In ground command center, the 3rd wireless camera and the 3rd wireless phone carry out wireless telecommunications with ground base station respectively;

In remote command center, the 4th wireless camera and the 4th wireless phone carry out wireless telecommunications with first order emergency command communications platform respectively; 5th wireless camera and the 5th wireless phone carry out wireless telecommunications with second level emergency command communications platform respectively; 6th wireless camera and the 6th wireless phone carry out wireless telecommunications with third level emergency command communications platform respectively;

In mobile command in the heart, wireless camera and wireless phone carry out wireless telecommunications with mobile command platform respectively;

And: base station, down-hole is connected with mine intrinsic safety computer, Wireless/wired transducer and the second lightning arrester simultaneously; Ground base station is connected with supervisory control comuter and the first lightning arrester simultaneously; Second lightning arrester is connected with the first lightning arrester; Meanwhile, ground base station is connected with mobile command platform, first order emergency command communications platform, second level emergency command communications platform, third level emergency command communications platform and server by public network/private network.

The preferred version of transmission system is generated according to mine emergency rescue command information of the present invention, message processing module is provided with in server, message processing module is used for maintenance system network, by each subsystem platform unified management, carry out immediate data with terminal applies equipment to exchange, realize transmission and the storage administration of command information;

Message processing module comprises system configuration information module and command information data module; Wherein:

System configuration information module is used for the configuration information of each equipment in storage system, the configuration information of system configuration information module readout equipment after startup of server, create server data acquisition tasks, Condition Detection is carried out to wireless environment parameter sensors and wireless vital sign detector, intercept wireless phone registration dialing and call management, obtain the video data of wireless camera, and contrast according to the data gathered and preset model, when meeting early warning or accident condition, generate early warning information, emergency response information, emergency disposal information and real-time trace information, and information is stored in command information data module.

Generate the preferred version of transmission system according to mine emergency rescue command information of the present invention, public network/private network comprises Ethernet, mine rescue special communication platform, wired/satellite converter and communication satellite; Wired/satellite converter and communication satellite carry out wireless telecommunications.

Mine emergency rescue command information generates transmission method, it is characterized in that:

Comprise the steps:

The first step: set up Back ground Information: the configuration data of mine hydrogeology data, supervisory control system historical data, rescue site subsystem and commander base, down-hole subsystem is stored in server;

Second step: in rescue site subsystem, the first wireless environment parameter sensors, the first wireless vital sign detector, the first wireless camera and the first wireless phone carry out data acquisition and monitoring to environment, and will to gather and the data of monitoring are transferred to server by wireless base station, Wireless/wired transducer, base station, down-hole, the second lightning arrester and the first lightning arrester and ground base station, public network/private network; The second wireless camera in the subsystem of commander base, down-hole, the second wireless phone, the second wireless environment parameter sensors and the second wireless vital sign detector carry out data acquisition and monitoring to environment, and will to gather and the data of monitoring are transferred to server by base station, mine intrinsic safety computer down-hole, the second lightning arrester and the first lightning arrester and ground base station, public network/private network, namely the voice of information terminal, image and Monitoring Data to be connected with public network/private network by wireless base station, wire/wireless transducer, base station, down-hole, ground base station and to communicate, then are delivered to server;

3rd step: the information received and Back ground Information contrast by server (10), and server is analyzed by preset Early-warning Model, when meeting early warning or accident condition, generates early warning information and emergency response information;

4th step: server judges the Emergency response level of early warning information and emergency response information according to emergency preplan, decision model, judge that information transmits node according to anxious response rank, and information is delivered to corresponding emergency command communications platform and mobile command platform by public network/private network;

5th step: emergency command communications platform is analyzed emergent response message, analytical information is sent to commanding and decision-making terminal, information analysis storage terminal and information release terminal by public network/private network, commanding and decision-making terminal generates commander, decision information, and commander, decision information are transferred to server, information analysis storage terminal and information release terminal by public network/private network; Information analysis storage terminal stores information; Information release terminal is issued information;

6th step, server is according to commander, decision information and prediction scheme, commander, decision information are delivered to first order maneuvering platform, second level maneuvering platform and third level maneuvering platform and ground control base by public network/private network is descending step by step, the information terminal of commander base, final arrival down-hole subsystem, disaster relief Field Force implements rescue according to instruction, and by information terminal Real-time Feedback field rescue progress and environmental information, enter next round operation armed state.

The beneficial effect that mine emergency rescue command information of the present invention generates transmission system is: the present invention not only has communication system voice, the monitoring of image and environmental parameter and commander, can also upload step by step according to disaster area field data generation early warning information and emergency response information, store and issue, simultaneously, commanding and decision-making terminal generates commander, decision information, and descending transmission step by step, make the on-the-spot energy of rescue according to commander, decision information is disposed in time, realize effective combination of emergency commading system hardware and software, the practicality of effective raising emergency communication system, colliery can be widely used in, the fields such as non-coal mine.

Accompanying drawing explanation

Fig. 1 is that mine emergency rescue command information of the present invention generates transmission system structural representation.

Fig. 2 is that mine emergency rescue command information of the present invention generates conveying flow.

The simplified model of Fig. 3 mine emergency commander annular information TRANSFER MODEL.

Fig. 4 mine emergency rescue command information generates transmission system server process software flow pattern.

Fig. 5 mine emergency rescue command information generates transmission system client application software flow chart.

Embodiment

See Fig. 1, mine emergency rescue command information generates transmission system, comprises rescue site subsystem, commander base, down-hole subsystem, ground command center, remote command center subsystem and mobile command center subsystem, it is characterized in that:

In rescue site subsystem, the first wireless camera 11, first wireless phone 12, first wireless environment parameter sensors 13 and the first wireless vital sign detector A respectively by the first wireless base station 162, wireless base station 161, second ... and/or n-th wireless base station 16n and Wireless/wired transducer 15 carry out wireless telecommunications;

In the subsystem of commander base, down-hole, the second wireless camera 21, second wireless phone 22, second wireless environment parameter sensors 23 and the second wireless vital sign detector 24 carry out wireless telecommunications with mine intrinsic safety computer 25 respectively;

In ground command center, the 3rd wireless camera 31 and the 3rd wireless phone 32 carry out wireless telecommunications with ground base station 4 respectively;

In remote command center, the 4th wireless camera 41 and the 4th wireless phone 42 carry out wireless telecommunications with first order emergency command communications platform 43 respectively; 5th wireless camera 51 and the 5th wireless phone 52 carry out wireless telecommunications with second level emergency command communications platform 53 respectively; 6th wireless camera 61 and the 6th wireless phone 62 carry out wireless telecommunications with third level emergency command communications platform 63 respectively;

In mobile command in the heart, wireless camera 71 and wireless phone 72 carry out wireless telecommunications with mobile command platform 73 respectively;

And: base station, down-hole 1 is connected with mine intrinsic safety computer 25, wire/wireless transducer 15 and the second lightning arrester 3 simultaneously; Ground base station 4 is connected with supervisory control comuter 5 and the first lightning arrester 2 simultaneously; Second lightning arrester 3 is connected with the first lightning arrester 2; Meanwhile, ground base station 4 is connected with mobile command platform 73, first order emergency command communications platform 43, second level emergency command communications platform 53, third level emergency command communications platform 63 and server 10 by public network/private network 8.Commanding and decision-making terminal 9, information analysis storage terminal 91 are connected with public network/private network 8 with information release terminal 92.

Public network/private network 8 comprises: Ethernet 81, special communication platform 82, wired/satellite converter 84 and communication satellite 83; Wired/satellite converter 84 carries out wireless telecommunications with communication satellite 83.

Be provided with message processing module in server 10, message processing module is used for maintenance system network, by each subsystem platform unified management, carries out immediate data exchange with terminal applies equipment, realize transmission and the storage administration of command information;

Message processing module comprises system configuration information module and command information data module; Wherein:

System configuration information module is used for the configuration information of each equipment in storage system, server 10 starts the configuration information of rear system configuration information module readout equipment, create server data acquisition tasks, Condition Detection is carried out to wireless environment parameter sensors and wireless vital sign detector, intercept wireless phone registration dialing and call management, obtain the video data of wireless camera, and contrast according to the data gathered and Back ground Information, when meeting early warning or accident condition, generate early warning information, emergency response information, emergency disposal information and real-time trace information, and information is stored in command information data module.

As shown in Figure 2, mine emergency rescue command information generates transmission method, comprises the steps:

The first step: set up Back ground Information: the configuration data of mine hydrogeology data, supervisory control system historical data, rescue site subsystem and commander base, down-hole subsystem is stored in server; Set up Early-warning Model and emergency preplan, decision model;

Second step: in rescue site subsystem, the first wireless environment parameter sensors 13, first wireless vital sign detector 14, first wireless camera 11 and the first wireless phone 12 pairs of environment carry out data acquisition and monitoring, and will to gather and the data of monitoring are transferred to server 10 by wireless base station, wire/wireless transducer 15, base station, down-hole, the second lightning arrester 3 and the first lightning arrester 2 and ground base station, public network/private network 8; The second wireless camera 21, second wireless phone 22, second wireless environment parameter sensors 23 in the subsystem of commander base, down-hole and the second wireless vital sign detector 24 pairs of environment carry out data acquisition and monitoring, and will to gather and the data of monitoring are transferred to server 10 by base station, mine intrinsic safety computer 25 down-hole, the second lightning arrester 3 and the first lightning arrester 2 and ground base station, public network/private network 8;

3rd step: the information received and preset Early-warning Model contrast by the system configuration information module in server 10, when meeting early warning or accident condition, generates early warning information and emergency response information;

According to anxious response rank, 4th step: server 10 judges Emergency response level according to emergency preplan, decision model, judges that information transmits node, and information is delivered to corresponding emergency command communications platform and mobile command platform 73 by public network/private network 8;

5th step: emergency command communications platform is analyzed emergent response message, analytical information is sent to commanding and decision-making terminal, information analysis storage terminal and information release terminal by public network/private network 8, commanding and decision-making terminal generates commander, decision information, and commander, decision information are transferred to server 10, information analysis storage terminal and information release terminal by public network/private network 8; Information analysis storage terminal stores information; Information release terminal is issued information;

6th step, commander, decision information, according to commander, decision information and prediction scheme, are delivered to each information transmission node by public network/private network 8 is descending step by step by server 10.

As shown in Figure 3, be specially:

H time period, on-site supervision and early warning stage.The configuration data of mine hydrogeology data, rescue site subsystem and commander base, down-hole subsystem is stored in server; And set up Early-warning Model and emergency preplan, decision model; Real-Time Monitoring is carried out to down-hole disaster area emergency management and rescue information simultaneously;

The I time period, disaster information generates and reports.After disaster accident occurs, data collection station comprises the first wireless environment parameter sensors 13, first wireless vital sign detector 14, first wireless camera 11 and the first wireless phone 12 collection site data, and field data is delivered to commander base, enterprise down-hole subsystem, ground command center and server 10 by communication terminal, server 10 generates early warning information and emergency response information according to Early-warning Model; The Emergency response level of early warning information and emergency response information is judged according to emergency preplan, decision model, judge that information transmits node according to anxious response rank, upload to third level communication for command platform 63 county/prefecture-level step by step by public network/private network 8, second level communication for command platform 53 is at the provincial and ministerial level, first order communication for command platform 43 national level and mobile command platform 73.

The J time period, emergency information analysis, decision-making and issue.Emergency command communications platform is analyzed emergent response message, analytical information is sent to commanding and decision-making terminal 9, information analysis storage terminal 91 and information release terminal 92 by public network/private network 8, commanding and decision-making terminal 9 generates commander, decision information, and commander, decision information are transferred to server 10, information analysis storage terminal and information release terminal by public network/private network 8; Information analysis storage terminal stores information; Information release terminal is issued information;

The K time period, emergent execution instruction issuing.Commander, decision information, according to commander, decision information and prediction scheme, are delivered to each information transmission node by public network/private network 8 is descending step by step by server 10; Descending each information transmits that node comprises that first order communication for command platform is national, second level communication for command platform is at the provincial and ministerial level, third level communication for command platform county/prefecture-level, ground command center, commander base, down-hole subsystem, finally receive commander, decision information by rescue site subsystem, form a closed-loop information transmission system.

As shown in Figure 4, be provided with messaging software in server, messaging software is used for maintenance system network, by each subsystem platform unified management, carries out immediate data exchange with terminal applies equipment, realize transmission and the storage administration of command information.Server info process software comprises a system configuration information storehouse and a command information database.The configuration information of each equipment of system configuration information library storage, related data is read after startup of server, create server data acquisition tasks, carry out Condition Detection, mobile telephone registration dialing and call management, obtain video data, generate early warning information and emergency response information, be stored in command information database, the Emergency response level of early warning information and emergency response information is judged according to emergency preplan, decision model, judge that information is transmitted node and transmits information according to anxious response rank, be stored in command information database.Server design has a communication interface, and this interface is by public network/private network and system platform terminal communication, and platform terminal client obtains Various types of data by this interface from command information database.

See Fig. 5, system terminal installs client-side information application software, this running software, in each emergency commanding platform terminal and mine intrinsic safety computer and supervisory control comuter, for user provides visible human machine interactive interface, obtains all kinds of emergency management and rescue command information from server end and shows.Client-side information application software interactive portion is made up of interface editing module and modeling interface display module two parts.Interface editing modular organisation generates the interested data displaying contents of each maneuvering platform end subscriber, configuration information is stored in configuration database, from configuration database reads after client starts at every turn.Modeling interface display module for foundation, can show all kinds of data query and real-time dynamic data with interface configuration information data.Client-side information application software obtains Various types of data by client communication interface from database 10, and data buffer storage is in client communication database, and interface display module is extracted data from client communication database and shown.

The above-mentioned embodiment of the present invention is the preferred embodiments of the present invention; can not limit claim of the present invention; the any of other does not deviate from technical scheme of the present invention and the change made and equivalent replacement mode, is included within protection scope of the present invention.

Claims (3)

1. mine emergency rescue command information generates transmission system, comprises rescue site subsystem, commander base, down-hole subsystem, ground command center, remote command center subsystem and mobile command center subsystem, it is characterized in that:

In rescue site subsystem, the first wireless camera (11), the first wireless phone (12), the first wireless environment parameter sensors (13) and the first wireless vital sign detector (A) respectively by the first wireless base station (161), the second wireless base station (162) ... and/or n-th wireless base station (16n) and Wireless/wired transducer (15) carry out wireless telecommunications;

In the subsystem of commander base, down-hole, the second wireless camera (21), the second wireless phone (22), the second wireless environment parameter sensors (23) and the second wireless vital sign detector (24) carry out wireless telecommunications with mine intrinsic safety computer (25) respectively;

In ground command center, the 3rd wireless camera (31) and the 3rd wireless phone (32) carry out wireless telecommunications with ground base station (4) respectively;

In remote command center, the 4th wireless camera (41) and the 4th wireless phone (42) carry out wireless telecommunications with first order emergency command communications platform (43) respectively; 5th wireless camera (51) and the 5th wireless phone (52) carry out wireless telecommunications with second level emergency command communications platform (53) respectively; 6th wireless camera (61) and the 6th wireless phone (62) carry out wireless telecommunications with third level emergency command communications platform (63) respectively;

In mobile command in the heart, wireless camera (71) and wireless phone (72) carry out wireless telecommunications with mobile command platform (73) respectively;

And: base station, down-hole is connected with mine intrinsic safety computer, Wireless/wired transducer and the second lightning arrester (3) simultaneously; Ground base station is connected with supervisory control comuter and the first lightning arrester (2) simultaneously; Second lightning arrester (3) is connected with the first lightning arrester (2); Meanwhile, ground base station is connected with mobile command platform, first order emergency command communications platform, second level emergency command communications platform, third level emergency command communications platform and server (10) by public network/private network.

2. mine emergency rescue command information according to claim 1 generates transmission system, it is characterized in that: server is provided with message processing module in (10), message processing module is used for maintenance system network, by each subsystem platform unified management, carry out immediate data with terminal applies equipment to exchange, realize transmission and the storage administration of command information;

Message processing module comprises system configuration information module and command information data module; Wherein:

System configuration information module is used for the configuration information of each equipment in storage system, the configuration information of system configuration information module readout equipment after server (10) starts, create server data acquisition tasks, Condition Detection is carried out to wireless environment parameter sensors and wireless vital sign detector, intercept wireless phone registration dialing and call management, obtain the video data of wireless camera, and contrast according to the data gathered and preset model, when meeting early warning or accident condition, generate early warning information, emergency response information, and information is stored in command information data module.

3. mine emergency rescue command information generates transmission method, it is characterized in that: comprise the steps:

The first step: set up Back ground Information: by mine hydrogeology data, supervisory control system historical data, the configuration data of rescue site subsystem and commander base, down-hole subsystem is stored in server; And set up Early-warning Model and emergency preplan, decision model;

Second step: in rescue site subsystem, the first wireless environment parameter sensors (13), the first wireless vital sign detector (14), the first wireless camera (11) and the first wireless phone (12) carry out data acquisition and monitoring to environment, and will to gather and the data of monitoring are transferred to server (10) by wireless base station, Wireless/wired transducer (15), base station, down-hole, the second lightning arrester (3) and the first lightning arrester (2) and ground base station, public network/private network (8);

3rd step: the information received and preset Early-warning Model are analyzed by server (10), when meeting early warning or accident condition, generates early warning information and emergency response information;

4th step: server judges the Emergency response level of early warning information and emergency response information according to emergency preplan, decision model, judge that information transmits node according to anxious response rank, and information is delivered to corresponding emergency command communications platform and mobile command platform (73) by public network/private network (8);

5th step: emergency command communications platform is analyzed emergent response message, analytical information is sent to commanding and decision-making terminal, information analysis storage terminal and information release terminal by public network/private network (8), commanding and decision-making terminal generate commander, decision information, and will command, decision information pass through public network/private network (8) be transferred to server (9), information analysis storage terminal and information release terminal; Information analysis storage terminal stores information; Information release terminal is issued information;

6th step, server (9), according to commander, decision information and prediction scheme, will command, decision information pass through that public network/private network (8) is descending is step by step delivered to each information transmission node.