CN202058203U - Radioactive source dynamic monitoring and management system - Google Patents

Radioactive source dynamic monitoring and management system Download PDF

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Publication number
CN202058203U
CN202058203U CN2011200351688U CN201120035168U CN202058203U CN 202058203 U CN202058203 U CN 202058203U CN 2011200351688 U CN2011200351688 U CN 2011200351688U CN 201120035168 U CN201120035168 U CN 201120035168U CN 202058203 U CN202058203 U CN 202058203U
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China
Prior art keywords
management
monitoring
radioactive source
communicated
data
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Expired - Fee Related
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CN2011200351688U
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Chinese (zh)
Inventor
周亮
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HANGZHOU ANBAOWANG INTELLIGENT TECHNOLOGY Co Ltd
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HANGZHOU ANBAOWANG INTELLIGENT TECHNOLOGY Co Ltd
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Priority to CN201020290522 priority
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Priority to CN2011200351688U priority patent/CN202058203U/en
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Publication of CN202058203U publication Critical patent/CN202058203U/en
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Abstract

The utility model relates to a monitoring system, particularly to a radioactive source dynamic monitoring and management system. The radioactive source dynamic monitoring and management system mainly solves the technical problem that in the prior art, the monitoring systems can not be used for dynamic integrated monitoring of full life circle of the radioactive source and can not deal with emergent cases in radiation source management. The radioactive source dynamic monitoring and management system comprises a center management server, wherein the center management server is communicated with a manager monitoring terminal via a circuit, and the center management server is also communicated with a GIS, a GPS monitoring management system, an RFID warehouse information management system, an environment data monitoring management system, a video monitoring and management system and an IC gate inhibition management system.

Description

A kind of radioactive source dynamic monitoring management system
Technical field
The utility model relates to a kind of supervisory system, especially relates to a kind of radioactive source dynamic comprehensive monitoring management system.
Background technology
Radioactive source has been widely used in fields such as industry, agricultural, medical science, resource, environment, military affairs, scientific research as a kind of new high-tech product.Meanwhile, consequent radiation safety and the alpha-contamination problem of preventing and treating are also more and more outstanding.Because the uneven radioactive sources lost that causes of constituent parts managerial ability, robbery accident serious harm are to public health and social stability.
Chinese patent discloses a kind of wireless network video monitoring system (publication number: CN 1612176), and it comprises a webserver, video server, wireless network, database, a plurality of monitoring computers, a plurality of video camera.Whether the webserver is used for the user name and the password that judge to receive according to the user profile that is stored in database correct, if user name and password are correctly then obtain a system master interface.Video server is used for connecting corresponding video camera according to the wireless connections request, receives from the wireless video signal of video camera and changes into vision signal, and vision signal is changed into the video data of specific format, transmits video data to monitoring computers.Monitoring computers is equipped with a video player, can be at the video window playing video data by this video player.But the life cycle (comprise generation, transportation is stored, and uses, and destroys all links) that this wireless network video monitoring system can not be used for carrying out radioactive source is carried out comprehensive dynamic monitoring.And the monitoring of being implemented only limits to video, and function is comparatively single, can not all features (position, state, environmental data) of radioactive source be managed, and all emergency case are carried out Intelligent Measurement, reports to the police automatically so that managerial personnel handle.
The utility model content
The utility model system provides a kind of radioactive source monitoring management system, it mainly is to solve the existing in prior technology supervisory system can not be used for carrying out dynamic comprehensive monitoring to the Life cycle of radioactive source, is unable to cope with the technical matters of " stationkeeping, personnel fix, standard is used, standardized administration " of radiation source management and all emergency case disposal etc.
Above-mentioned technical matters of the present utility model is mainly solved by following technical proposals:
A kind of radioactive source dynamic monitoring management system of the present utility model, comprise center management server, it is characterized in that described center management server is communicated with supvr's monitor terminal by circuit, center management server also is communicated with the GIS geographic information management system by circuit, the GPS positioning monitoring management system, the RFID Warehouse IMS, radiation environment data monitoring management system, the video surveillance management system, the IC access control system, the GIS geographic information management system, the GPS positioning monitoring management system is communicated with GPS orientator on the vehicle by circuit, the RFID Warehouse IMS is connected with the office terminal in each radioactive source warehouse, and radiation environment data monitoring management system is communicated with environmental sensor in the radioactive source warehouse.
As preferably, described circuit is a radiolink.
As preferably, described center management server is communicated with the giant-screen monitor terminal by circuit.
This kind radioactive source monitoring management system adopts GPS and GIS technology, technology of Internet of things, the intelligent video monitoring technology present position to radioactive source, supervisor status, environmental datas etc. are monitored in real time and are managed, alert event is analyzed and detected to the data of being gathered by artificial intelligence technology automatically to accident, utilization cloud computing technology integration each relevant departments of Environmental Protection Agency and each relevant management system with source unit, it is carried out real-time response, the management of standard radioactive source and use.
Because radioactive source belongs to sensitive materials, native system is managed from system authentication, network transport mechanism, and aspects such as data storage comprehensively realize the demand of security, thereby guarantee system specifications, safe handling.
Total system is divided into the collaborative subsystem of GPS/GIS dynamic monitoring subsystem, RFID storehouse management sub-system, environmental data monitoring subsystem, video monitoring subsystem and external system:
GPS/GIS dynamic monitoring subsystem located irradiation source guarantees that it meets the regulation on the place in transportation, storage and use.The combination of GPS and GIS technology provides a dynamic management platform of not limitting the indoor and outdoor intuitively, efficiently for the supvr.In conjunction with the GIS Application of GIS, can show local position and the state that respectively radiates source point intuitively, can also realize functions such as thematic map analysis displaying.The function of spatial analysis offers the control point peripheral information that the user enriches, and provides decision references for managerial personnel easily.When radioactive source is carried out tracing and monitoring, the flight path in source can be provided in real time simultaneously, and the preferred plan that arrives this control point can be provided.
The RFID storehouse management sub-system comprises the radioactive source registration, relates to modules such as source unit management, source point information management.The user can check the attribute information and the geography information of specifying radioactive source easily, and information such as relevant industry, enterprise, realizes the management function of registration, inquiry, statistics, management, analysis report, report output and the combining geographic information of information.And pass through the RFID technology with the maximum robotization of management process.
The environmental data monitoring subsystem is the radiation dose rate by radiation dose instrument detection operations place, by the variation of radiation dose rate the radiation safety in radiation work place is monitored.The radiation dose data that the transmission of radiation dose monitoring module pick-up probe comes, and judge whether this value is in warning, failure state.When radiation ray was lower than normal limit, the detected value of detection instrument became suddenly when very low, and the radioactive source separating device be described, and then system can provide to report to the police and indicate, and SMS alarm is arranged.When abnormal conditions appear in radioactive source, as sometime or the radiation dose rate of a certain period high threshold that surpasses suddenly that this source point is provided with, illustrate that radioactive source is exposed or leak the surface of installing, then system can be automatically with this data markers for exceeding standard data and discern these type of data automatically, on position, control point and center monitoring platform interface, report to the police then.Also data can be passed to radioactive source accident emergency system disposes.
The video monitoring subsystem is monitored radioactive source in real time in the mode of video, utilize IP Camera and video server to realize the video image of each collection point is handled, finish the digitized processing to vision signal, demonstration, storage and the remote transmission of picture signal.Mode with video is monitored in real time to radioactive source, the supervisor can the real time inspection radioactive source the operating position image, in case have not clear thing to enter in the radioactive source fence coverage or radioactive source is removed normal use location, system can be sent to Surveillance center with the former video image for the previous period that is stored in the scene automatically, and transmit the video image of the radioactive source scene of the accident in real time, start simultaneously automatically radioactive source SMS alarm and audio alarm, and with the interlock of public security department's type of alarm.This subsystem is also in conjunction with the IC gate control system, and gate control system has cycle index, Card Reader record, inlet/outlet record, break in multiple recording mode such as record, can be to the real-time monitoring record of multiple alert event.Possess automatic alarming and managing simultaneously, when taking place for the illegal invasion of radioactive source workplace, the front end watch-dog detects unusual and in time sends warning message, and after alarm information processing was received at the center, system can produce sound and light alarm or the interface highlights.
The collaborative subsystem of external system is to be connected with environment automatic monitored control system door, the professional collaborative platform of environment, public security department's warning system.
The main framework of this system is made of the following aspects:
Total system is divided into data perception layer, transport network layer, data analysis layer and data exhibiting layer:
The data perception layer adopts gps satellite positioning chip, CCD/CMOS video capture processor, RFID reading and writing data chip, and Internet of Things cognition technologies such as γ data acquisition chip are gathered radioactive source in the position, form, store status, data such as radiation safety.
The various data to data computing center that transport network layer adopts that ripe mobile data network and broadband internet technical transmission collect.
Data analysis layer adopts high-volume database technology, expert system and artificial intelligence technology that data are carried out analyzing and processing, and detects abnormal conditions automatically.
The data exhibiting layer adopts technology such as GIS technology, multimedia technology, virtual reality intuitively, profoundly to represent the data of collection and the result of analyzing and processing.And adopt and to comprise that advanced persons' such as multiple point touching, environmental simulation user interface techniques carries out with the user alternately.
The related technical difficult points of this system is as follows:
How to manage the ID of identification data.At each subsystem, mobile Various types of data at all levels need connect by ID.Details such as this distribution, management comprising ID.Native system can robotization be realized the related needs of ID by the RFID technology.
How to realize active monitoring.Active monitoring is meant that system carries out intellectual analysis according to all kinds of monitor datas (comprising video, position, sensor acquisition) that perceive, and draws corresponding alert event, and produces corresponding decision-making by expert system.Technology such as the pattern-recognition of the performance analysis of native system by the intelligent image analysis in the intelligent video monitoring, positional information, environmental data, expert decision system realize active monitoring.
How to realize effective deployment of various software and hardware technologies.Native system relates to numerous software and hardware technologies, comprises GPS device, radiation dose instrument, monitoring camera, RFID relevant device, GIS software engineering, database technology, graphical analysis and treatment technology, network technology etc.In system design, introduce the self-adaptation notion, adopt ripe, standardized open technique, realize that the intelligence of software and hardware is disposed, upgrade automatically, reduce the workload of system maintenance as far as possible, improve the total system robustness.
The utility model can improve radioactive source security control level, and it is dynamic to grasp radioactive source at any time, improves radioactive source accident prevention ability by active monitoring, improves the emergent level of radioactive source accident, thereby ensures radioactive source safety, the protection people ' s health.And but system design foothold height, the good extending space of adaptive ability are big, can effectively realize the demand of relevant radioactive source monitoring of long a period of time at present and in the future.
Description of drawings
Accompanying drawing 1 is a kind of structural representation of the present utility model.
Embodiment
Below by embodiment, and in conjunction with the accompanying drawings, the technical solution of the utility model is described in further detail.
Embodiment: a kind of radioactive source dynamic monitoring management system of this example, as Fig. 1, center management server is connected with supvr's monitor terminal by LAN (Local Area Network), the giant-screen monitor terminal, center management server also is communicated with the GIS geographic information management system by circuit, the GPS positioning monitoring management system, the RFID Warehouse IMS, radiation environment data monitoring management system, the video surveillance management system, the IC access control system, the GIS geographic information management system, the GPS positioning monitoring management system is communicated with GPS orientator on the vehicle by circuit, the RFID Warehouse IMS is connected with the office terminal in each radioactive source warehouse, and radiation environment data monitoring management system is communicated with environmental sensor in the radioactive source warehouse.Client layers such as leader user, professional sections, system manager can utilize monitor terminal to insert Surveillance center by Internet.The GPS management server utilizes the dangerous material of GPS car-mounted terminal in regulating the traffic by the GPRS mobile data network.The dangerous material that are positioned at the warehouse carry out in-out-storehouse management by the RFID module, and insert center management server by Internet.The warehouse periphery is monitored in real time by IP Camera and environment measuring instrument simultaneously, and data insert center management server by Internet.
During use, the enterprise supervision center can be preserved with transportation environment dangerous material by locating and monitoring, video monitoring, radiation dose monitoring, intrusion alarm system, gate control system, safety patrol inspection system, radio-frequency recognition system and be monitored.With the automatic perception of various data and be input to database, carry out data analysis in center management server, data channel by separately feeds back to the dynamic management subsystem then, video monitoring subsystem and environmental data monitoring subsystem are made corresponding action, thereby realize the monitoring to whole radioactive source.
The above only is a specific embodiment of the utility model, but architectural feature of the present utility model is not limited thereto, any those skilled in the art is in field of the present utility model, and variation of being done or modification all are encompassed among the claim of the present utility model.

Claims (3)

1. radioactive source dynamic monitoring management system, comprise center management server, it is characterized in that described center management server is communicated with supvr's monitor terminal by circuit, center management server also is communicated with the GIS geographic information management system by circuit, the GPS positioning monitoring management system, the RFID Warehouse IMS, radiation environment data monitoring management system, the video surveillance management system, the IC access control system, the GIS geographic information management system, the GPS positioning monitoring management system is communicated with GPS orientator on the vehicle by circuit, the RFID Warehouse IMS is connected with the office terminal in each radioactive source warehouse, and radiation environment data monitoring management system is communicated with environmental sensor in the radioactive source warehouse.
2. a kind of radioactive source dynamic monitoring management system according to claim 1 is characterized in that described circuit is a radiolink.
3. a kind of radioactive source dynamic monitoring management system according to claim 1 and 2 is characterized in that described center management server is communicated with the giant-screen monitor terminal by circuit.
CN2011200351688U 2010-08-12 2011-02-10 Radioactive source dynamic monitoring and management system Expired - Fee Related CN202058203U (en)

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Application Number Priority Date Filing Date Title
CN201020290522.7 2010-08-12
CN201020290522 2010-08-12
CN2011200351688U CN202058203U (en) 2010-08-12 2011-02-10 Radioactive source dynamic monitoring and management system

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102616467A (en) * 2012-03-01 2012-08-01 北京电通纬创电子技术有限公司 Anti-theft intelligent transport case with radiation dose detection function
CN102622674A (en) * 2012-03-09 2012-08-01 广东振声科技股份有限公司 Management system for realizing real-time data acquisition and monitoring in whole lifecycle of industrial explosive
CN102880147A (en) * 2012-09-28 2013-01-16 浙江核芯监测科技有限公司 Automatic system of radioactive-source waste vault
CN104077648A (en) * 2014-04-01 2014-10-01 中科宇图天下科技有限公司 RFID-tag-based radioactive source temporary storage library managing system and method
CN106339847A (en) * 2016-08-31 2017-01-18 中国石油集团川庆钻探工程有限公司 Dynamic digital source library monitoring system of radioactive source and method of system
CN107749884A (en) * 2017-10-20 2018-03-02 中国人民解放军空军第航空学院 The PSIM Intelligent internet of things platforms of military universities and colleges

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102616467A (en) * 2012-03-01 2012-08-01 北京电通纬创电子技术有限公司 Anti-theft intelligent transport case with radiation dose detection function
CN102622674A (en) * 2012-03-09 2012-08-01 广东振声科技股份有限公司 Management system for realizing real-time data acquisition and monitoring in whole lifecycle of industrial explosive
CN102880147A (en) * 2012-09-28 2013-01-16 浙江核芯监测科技有限公司 Automatic system of radioactive-source waste vault
CN104077648A (en) * 2014-04-01 2014-10-01 中科宇图天下科技有限公司 RFID-tag-based radioactive source temporary storage library managing system and method
CN104077648B (en) * 2014-04-01 2017-07-25 中科宇图天下科技有限公司 Radioactive source temporary library management method based on RFID tag
CN106339847A (en) * 2016-08-31 2017-01-18 中国石油集团川庆钻探工程有限公司 Dynamic digital source library monitoring system of radioactive source and method of system
CN107749884A (en) * 2017-10-20 2018-03-02 中国人民解放军空军第航空学院 The PSIM Intelligent internet of things platforms of military universities and colleges

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Granted publication date: 20111130

Termination date: 20180210