CN202110422U - Dangerous source remote monitoring and tracking system based on internet of things - Google Patents

Abstract

The utility model relates to a dangerous source remote monitoring and tracking system based on the internet of things, which comprises a data acquisition system, a data transmission subsystem, a data management subsystem and a data application subsystem. The data acquisition system transmits data acquired by a terminal to the data management subsystem through the data transmission subsystem, the data management subsystem is responsible for completing correlation analysis and processing of the data and provides the data to the data application system to realize management application of specific matters, and relevant instruction information can return to the data acquisition subsystem through the data management subsystem and the data transmission subsystem to realize remote control management to equipment. With the adoption of the dangerous source remote monitoring and tracking system based on the internet of things, effective networked monitoring management can be exerted on movable and fixed dangerous sources and pollution sources, an active role in multiple fields of environmental protection, environmental pollution management, safety production, and the like can be particularly played, scientific management, active defense and effective response to a major dangerous source can be realized, and services are given to safe and environment friendly industrial production and society harmonious development.

Description

Dangerous matter sources remote monitoring and tracker based on Internet of Things

Technical field

The utility model relates to gas sensor communication design and cloud computing system design; It is remote real-time monitoring management to the fundamental physical quantity information (temperature, humidity, concentration, hydraulic pressure liquid level etc.) that under the varying environment state, (comprises fixed location or mobile status) such as dangerous matter sources, pollution source and other integrated informations (position, sound, video etc.); Carry out the cloud computing analyzing and processing to inserting data, to the Based Intelligent Control of support equipment facility and to control, prevention and the disposal of affairs under the different conditions.Systems incorporate sensor technology, Internet technology, radio communication, electronic chart and mobile positioning technique, robotization control, video compress and high-performance calculation, Flame Image Process, pattern-recognition and content analysis, Intelligent Information Processing, cloud storage and cloud computing etc.; Physical quantity information and other integrated informations through the Collection and analysis control point; Realization is to the real-time control of accidents such as dangerous matter sources, pollution source, effectively prevention and disposal in time; Eliminate accident potential to greatest extent, reduce the loss.

Background technology

The high speed development of industry is the important foundation of national economy high speed development, and industry relates to the every field that dangerous matter sources almost spreads all over national economy, national defense construction, people's lives.Safety produces, stores, transportation, use dangerous matter sources, prevents the environmental pollution and the generation of disaster that dangerous matter sources is brought, through to the scientific and effective management of dangerous matter sources, make its better for the nation-building service be the essential condition of social development.Accomplish to take precautions against in possible trouble, just must will strengthen the scientific management of dangerous matter sources in processes such as generation, storage, transportation, use guaranteed that each link relevant with dangerous matter sources is in order, controllable state, effectively realize the disposal of accident prevention and accident emergency.

Enterprise and all departments manage the in-site measurement stage on the spot that still rests on mostly to dangerous matter sources at present; No matter be handheld meter tool, equipment or large-scale instrument instrument; All be that certain type of dangerous matter sources is carried out (time, place, environment) simple surveying work under the specified conditions; Measurement means is single; Monitoring to dangerous matter sources also just is in local specified conditions monitoring category, and monitoring means show as sensor alarm is installed at position, need monitor hazardous source usually, the mode of operation of after measurement data transfinites, reporting to the police through the acousto-optic realization.Such supervisory system only is a single Internal Management System; Do not meet the supervision under the complicated environmental condition; Can not carry out scientific and effective control and management to dangerous matter sources; Also can't realize the management mode of long-range, diversification, three-dimensional, and the perfect management system of prediction, pre-alarming system and science of setting up dangerous matter sources.

In today of Internet of Things development; Adopt the sampling of multiple spot distributed sensor and multimedia integration; Through the wired or wireless transmission real time data of the network equipment; Through the analyzing and processing of backstage cloud computing, make up the intellectualized operation management platform, realize that the control of remote equipment and management are the important development direction of this business field under the Internet of Things form.The remote monitoring of dangerous matter sources, data management, accident early warning, emergency response, robotization control etc. all need a concrete platform and support operation, serve for the actual demand of satisfying enterprise and government's different aspects just based on the dangerous matter sources remote monitoring and the tracker of Internet of Things.The development of bond networking technology; Possess the perfect dangerous matter sources supervisory systems of a cover such as the whole monitoring of data (comprising audio, video data, physical quantity data, positional information etc.), analysis, processing, satisfying technical application such as dangerous matter sources monitoring under the complex conditions, forecast assessment, analysis and early warning, alarm linkage, information issue, emergency processing is an inevitable development trend.

Any disaster or accident all have one to take place and the process of development, when in a single day environmental pollution or peril make first appearance, as long as can in time find, hold water disposal, will significantly reduce the accident odds.Dangerous matter sources dynamic monitoring system based on Internet of Things utilizes remote real-time data collection, data storage, Internet data issuing, configuration and advanced technologies such as Based Intelligent Control, wireless data, image recognition and processing, comprehensive management platform, sensor and industrial automation; Just can gather the integrated information of dangerous matter sources, pollution source in real time, tracking and record; And in time analyze automatically and dispose, for positive impetus is played in managerial personnel's correct decisions.In addition, through database platform cloud computing center, can also make the prediction early warning that future trend is changed, be the services of all departments such as emergency management and rescue command scheduling, for the inhibition accident takes place or reduce harm to involve scope the management mode of science more is provided.

In addition; To include the network management system in to original monitoring alarm equipment; Also need the system platform of a compatibility to support operation; When having avoided duplicate construction, realize big technological leapfrogging with little transformation, the Internet of Things management operating system that forms distributed layout, centralized management is the important goal that safety in production and technical ability are transformed.Safety has only through the lot of data analysis to put prevention first, and could accomplish the comprehensive assessment prediction to the dangerous matter sources duty, guarantees that through the technology intervention dangerous matter sources is in the controllable safety working environment, the good attitude development that guarantees safe production.

The utility model content

The utility model purpose be exactly in order to overcome above-mentioned prior art defective; Satisfy the social technology growth requirement; A kind of comprehensive, comprehensive, compatible dangerous matter sources dynamic monitoring and tracker based on Internet of Things is provided, to make up a perfect dangerous matter sources management platform.

System adopts the Browser/Server framework, and cross-platform development mode, client directly can be carried out operational administrative through computer or mobile phone login browser, and the user need not install independent software.Native system is divided into according to concrete business function: data acquisition, data transmission, data management, data are used four big subsystems; Data acquisition subsystem sends the data that the terminal collects to data administration subsystem through the data transmission subsystem; Data administration subsystem is responsible for accomplishing the correlation analysis and the processing of data; And offer the management application that the data application subsystem realizes concrete affairs; Relevant command information also can turn back to data acquisition subsystem through data administration subsystem and data transmission subsystem, realizes the remote control management to equipment.Each subsystem exploitation down has the service module that oneself needs to support operation, specifically describes as follows:

Data acquisition subsystem is responsible for gathering fundamental physical quantity information and integrated information, and realizes institute's Information Monitoring to the conversion of voltage and current signal, the transfer process that voltage and current signal arrives digital signal, and realizes the data transmission and receive, and the response of relevant signaling.Data acquisition subsystem sensing device, locating device, audio and video acquisition devices, warning device, emergency treatment device, data processing module, control module, communication module, data memory module; After sensing device, locating device, audio and video acquisition devices are transferred to data processing module with the measurement data of gathering; When data processing module uses data memory module to accomplish local datastore, the data that collect are passed to the data transmission subsystem through communication module.Data processing module imports command information into after data analysis is handled or by communication module after,, accomplish the control relevant to warning device, emergency treatment device and audio and video acquisition devices etc. through calling control module.Realized that through sensing unit, audio and video acquisition devices, locating device fundamental physical quantity information (temperature, humidity, concentration, hydraulic pressure liquid level etc.) and other integrated informations (position, sound, video etc.) are to the conversion of voltage and current signal, the transfer process that voltage and current signal arrives digital signal; And, realize signaling response by control module through communication module realization data transmit-receive.

The data transmission subsystem comprises data authentication module, data encryption module and data compressing module; Be responsible for accomplishing authentication, encryption and the compression function of data; Particularly to compression of video data and high-performance calculation thereof, to reach the requirement of real-time property transmission under complex conditions.

Data administration subsystem comprised middleware with the two-way map data management module that is connected of middleware, multimedia data management module, sensing data administration module, daily data management module, data analysis module.Daily data management module is accomplished multinomial work such as safe, the storage, backup, analysis of data; And a plurality of key problems such as storage and real time data analysis of Large Volume Data have been solved; Through the DAS of cloud computing platform and exploitation, for the data application provides strong back-office support.

The data application subsystem is that the data after the analyzing and processing are the most intuitively showed with what different aspects, different mode carried out, comprises GIS map system module, WEB service system module, information issuing system module, office virtualization system module, prediction early warning system module, emergency disposal system module and third party's data interface module.

The beneficial effect that the utility model is realized:

The utility model described a kind of dangerous matter sources remote monitoring and tracker based on Internet of Things; Compared with prior art; The utility model can be to moving and fixedly dangerous matter sources, pollution source are implemented effective networked control management; All will bring into play positive effect at numerous areas such as environmental protection, environmental pollution improvement, safety in production especially; Can satisfy of the requirement of different aspects such as enterprise, government, realize that scientific management, the active to major hazard source defendd and successfully managed, be the commercial production and the social harmonious development service of safety and environmental protection dangerous matter sources dynamic management and monitoring.

Description of drawings

Fig. 1 is dangerous matter sources remote monitoring and the tracker topological relation figure of the utility model based on Internet of Things.

Fig. 2 is the utility model data acquisition subsystem structural drawing.

Fig. 3 is the utility model data transmission subsystem structure figure.

Fig. 4 is the utility model data administration subsystem structural drawing.

Fig. 5 is the utility model data application subsystem structural drawing.

Embodiment

Below describe the technical scheme of the utility model in detail.The utility model embodiment only supplies to explain concrete grammar, and its scale of this method does not receive the restriction of embodiment.

Embodiment

As shown in Figure 1, the utility model comprises data acquisition subsystem 1, data transmission subsystem 2, data administration subsystem 3 and data application subsystem 4 based on the dangerous matter sources remote monitoring and the tracker topological relation figure of Internet of Things.Data acquisition subsystem 1 sends the data that the terminal collects to data administration subsystem 3 through data transmission subsystem 2; Data administration subsystem 3 is responsible for accomplishing the correlation analysis and the processing of data; And offer the management application that data application subsystem 4 realizes concrete affairs; Relevant command information also can turn back to data acquisition subsystem 1 through data management 3 and data transmission subsystem 2, realizes the remote control management to equipment.

Data acquisition subsystem 1 is responsible for gathering fundamental physical quantity information (temperature, humidity, concentration, hydraulic pressure liquid level etc.) and other integrated informations (position, sound, video etc.); And realize that institute's Information Monitoring is to the conversion of voltage and current signal, the transfer process that voltage and current signal arrives digital signal; And pass through communication module and realize that data are sent and reception, by the response of the relevant signaling of control module realization.

Data transmission subsystem 2 is responsible for accomplishing authentication, encryption and the compression function of data, particularly to compression of video data and high-performance calculation thereof, to reach the requirement of real-time property transmission under complex conditions.

Data administration subsystem 3 has comprised multinomial work such as safe, the storage, backup, analysis of map data management, multimedia data management, sensing data management, general routine data management; And a plurality of key problems such as storage and real time data analysis of Large Volume Data have been solved; Through the DAS of cloud computing platform and exploitation, for the data application provides strong back-office support.

Data application subsystem 4 is that the data after the analyzing and processing are the most intuitively showed with what different aspects, different mode carried out, comprises that demonstrations of GIS map, control point duty demonstration, audio/video information, the long-range inspection of enterprise, data analysis descriptive statistics, the office of control point is virtual, warning and information is issued and the data-interface that provides for third party's platform development etc.

As shown in Figure 2; The utility model data acquisition subsystem structural drawing, data acquisition subsystem 1 comprise sensing device 105, locating device 106, audio and video acquisition devices 107, warning device 108, emergency treatment device 109, data processing module 101, control module 103, communication module 104, data memory module 102.After sensing device 105, locating device 106, audio and video acquisition devices 107 are transferred to data processing module 101 with the measurement data of gathering; When data processing module 101 uses data memory module 102 to accomplish local datastore, the data that collect are passed to data transmission subsystem 2 through communication module 104.Data processing module 101 imports command information into after data analysis is handled or by communication module 104 after,, accomplish the control that warning device 108, emergency treatment device 109 and audio and video acquisition devices 107 are correlated with through calling control module 103.In the present embodiment, data processing module 101 has been accomplished between electric current, voltage signal and digital signal conversion each other and Data Base this analysis is handled, and adopts the conversion of RS485 and RS232 after linking of communication module 104 realizations and data transmission subsystem 2.In the present embodiment, audio and video acquisition devices 107 is a band cloud platform rig camera.Control module 103 is according to the Long-distance Control of instruction control warning device 108 (warning lamp, alarm bell), emergency treatment device 109 (motorized valve, exhaust fan etc.) operation and the audio and video acquisition devices 107 of data processing module 101.

As shown in Figure 3, the utility model data transmission subsystem structure figure, data transmission subsystem 2 is responsible for accomplishing data authentication 201, data encryption 202 and data compression 203, particularly to compression of video data and high-performance calculation thereof.In the present embodiment; Whether data authentication 201 indexes meet preset requirement according to form, authority and request of data mode; Data encryption 202 has comprised that with data compression 203 communications protocol is encrypted and the optimization process (conversion of audio, video data and compression, the authentication and the encryption of equipment room core interaction data) of Content of communciation.

As shown in Figure 4; The utility model data administration subsystem structural drawing; Data administration subsystem 3 has comprised multinomial work such as safe, the storage, backup of map data management 301, multimedia data management 302, sensing data management 303, daily data management 304, and accomplishes the real time data analyses through data analysis module 305.Data analysis module 305 has comprised the related data analysis software of cloud computing platform and exploitation; And middleware 306 is unique channels of data administration subsystem 3 and 4 communications of data application subsystem; Both guaranteed it is the safety of data administration subsystem 3, also professional data access interface was provided for the external world.

As shown in Figure 5; The utility model data application subsystem structural drawing, data application subsystem 4 comprise GIS map system 401, WEB service system 402, information issuing system 403, office virtualization system 404, prediction early warning system 405, emergency disposal system 406 and third party's data-interface 407.GIS map system 401 can be to the accurate track and localization in control point; WEB service system 402 makes the user of system can accomplish associative operation through the direct login in browser of instruments such as computer or mobile phone for the supvr provides intuitively operation interface flexibly; Information issuing system 403 has comprised functions such as SMS information, internet information, video conference system, and issue transmission information approach is various; Office virtualization system 404 service processing mode of providing convenience, and reasonable distribution utilizes Internet resources, realizes the long-range routine work such as inspection grade of patrolling and examining, and improved office efficiency; Prediction early warning system 405 is the typical application to the dangerous matter sources scientific management with emergency disposal system 406; The data resource that utilizes the total system platform to integrate; Tested achievement in a large number through the cloud computing analysis; Not only satisfy self system development, also offer more platform and insert needs through third party's data-interface 407.

Claims (3)

1. dangerous matter sources remote monitoring and tracker based on an Internet of Things is characterized in that comprising:

Data acquisition subsystem; Be responsible for gathering fundamental physical quantity information and integrated information; And realize institute's Information Monitoring to the conversion of voltage and current signal, the transfer process that voltage and current signal arrives digital signal, and realize the data transmission and receive, and the response of relevant signaling;

The data transmission subsystem, responsible authentication, encryption and the compression function of accomplishing data is particularly to compression of video data and high-performance calculation thereof, to reach the requirement of real-time property transmission under complex conditions;

Data administration subsystem;

The data application subsystem; Data after the analyzing and processing are the most intuitively showed with what different aspects, different mode carried out, comprise GIS map system module, WEB service system module, information issuing system module, prediction early warning system module, emergency disposal system module and third party's data interface module;

Described data acquisition subsystem sends the data that the terminal collects to described data administration subsystem through described data transmission subsystem; Described data administration subsystem is responsible for accomplishing the correlation analysis and the processing of data; And offer the management application that described data application subsystem realizes concrete affairs; Relevant command information also can turn back to described data acquisition subsystem through described data administration subsystem and described data transmission subsystem, realizes the remote control management to equipment.

2. dangerous matter sources remote monitoring and tracker based on Internet of Things according to claim 1 is characterized in that described data acquisition subsystem comprises sensing device, locating device, audio and video acquisition devices, warning device, emergency treatment device, data processing module, control module, communication module, data memory module; After sensing device, locating device, audio and video acquisition devices are transferred to data processing module with the measurement data of gathering; When data processing module uses data memory module to accomplish local datastore, the data that collect are passed to the data transmission subsystem through communication module; Data processing module imports command information into after data analysis is handled or by communication module after,, accomplish the control relevant to warning device, emergency treatment device and audio and video acquisition devices etc. through calling control module.

3. dangerous matter sources remote monitoring and tracker based on Internet of Things according to claim 1 is characterized in that described data transmission subsystem comprises data authentication module, data encryption module and data compressing module.

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