CN103164763A - Radiation source real-time monitoring and managing system and radiation source real-time monitoring and managing method based on Internet of things - Google Patents
Radiation source real-time monitoring and managing system and radiation source real-time monitoring and managing method based on Internet of things Download PDFInfo
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- CN103164763A CN103164763A CN 201110418294 CN201110418294A CN103164763A CN 103164763 A CN103164763 A CN 103164763A CN 201110418294 CN201110418294 CN 201110418294 CN 201110418294 A CN201110418294 A CN 201110418294A CN 103164763 A CN103164763 A CN 103164763A
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Abstract
The invention discloses a radiation source real-time monitoring and managing system and a radiation source real-time monitoring and managing method based on Internet of things. The radiation source real-time monitoring and managing system based on Internet of things comprises a radiation source information processing system, connecting a server end with a client end terminal server, in a network management platform. The radiation source real-time monitoring and managing system is characterized by comprising supervising management, project initialization management and task management, transmitting monitored radiation data and information to a data center in real time to process and enabling the information to cover a using end of the technology. Compared with the prior art, over-radiation control is transferred into real-time process control, monitoring cover is expanded, radiation sources of small and medium-sized enterprises are covered at low cost, effect of preventing over-radiation in advance is achieved, and the Internet of things is used to monitor and manage radiation sources in real time effectively.
Description
Technical field
The present invention relates to the computer information processing field, specifically be based on radiation source Real Time Monitoring and management system and the method for Internet of Things.
Background technology
Along with the development of computer technology and various Intelligent Information Processing equipment, for radiation monitoring, new different types of information requirement is arranged, in the time of some radiation sources can occurring simultaneously and have troubles, worry that burst radiation pollution event occurs; The real time on-line monitoring means still have certain hysteresis quality at present; Operation personnel's technology of on-the-spot improvement radiation is generally lower.
Along with enterprise's radiation source equipment constantly puts into effect, quantity increases gradually, and effectively supervising radioactive source is a problem that letter is to be solved.The contradiction such as single in government regulation personnel's limited amount, regulation technique means highlights, and supervision disappearance risk increases.As early as possible the enterprise of some flourishing city or high radiation source all built monitoring or the radiation control infosystem automatically targetedly, but these equipment or system's majority are the radiation indexs for end to be checked, control, usually can only play supervisor's effect afterwards, and can't just can take precautions against to some extent before causing radiation to exceed standard to pollute, and most this automated monitors are with high costs, can only be at the above business enterprise expand of scale, and be difficult to real large-scale promotion and implementation.For Some Enterprises, enterprise's radiation protection technology level is on the low side, and the operation personnel is difficult to obtain the effective technology support, lacks data supporting when environmental protection service enterprise provides the energy-saving and emission-reduction prioritization scheme.
Summary of the invention
The object of the invention is to: a kind of radiation source Real Time Monitoring based on Internet of Things and management system and method are provided, will monitor radiation data and information and be real-time transmitted to data center's processing, and information is covered all utilization ends.
To achieve these goals, design a kind of radiation source Real Time Monitoring and management system based on Internet of Things, a kind of radiation source Real Time Monitoring and management system based on Internet of Things, comprise the radioactive source process information system of network management platform Connection Service end and client terminal server, it is characterized in that: this system comprises:
A, supervision and management: the data that monitor control mechanism limits by radiation source, Real Time Monitoring and storage enterprise radiate source radiation situation, described radiation position comprises technological process, radiation factor, radiation device, radiation control;
b, project verification management: described major event administration module is comprised of Intelligent Service and intelligent monitoring support technology and intelligence operation backstage, described Intelligent Service is by the enterprise terminal operation management system, supervisory system, decision system and O﹠M system consist of, described intelligent monitoring support technology is by the flow scheme design device, the excellent code memory of PLC, desktop represents designer, accident design device Process planning flow and platform designer consist of, described intelligence operation backstage is by the System Privileges module, the member management module, the accounting management module, O﹠M respond module and expert diagnosis module composition,
c, task management: described task management module is by the Service Component layer, ccf layer, application service layer and data collection layer form, described Service Component layer is by the operation management module, the on-line monitoring module, the analytical statement module, the expert diagnosis module, the member management module, authority management module consists of, described ccf layer is by J2EE struts2Framework framework, Flash as3 and R work A consist of, described application service layer is J2EE middle application server and large-scale relation data and real-time data base formation, described data collection layer is by the radiation data collection, DCS, service data storage and unloading and analytical instrument consist of.
a kind of based on the radiation source Real Time Monitoring of Internet of Things and the method for management system, it is characterized in that: pass through the mutual transmission of information of Internet of Things between this system and monitor controller and monitoring device, by supervising device, the Radiation monitoring data command is set, send above-mentioned environmental monitoring instruction to pick-up unit by this supervising device and platform, receive and store and print this Radiation monitoring data by this monitoring device, obtain and the processing environment detecting data by this monitoring device, at first data collection layer passes through radiation collector, DCS, the simulating signal of service data storage and unloading and analytical instrument mode or digital signal acquiring, and be successfully transmitted to the real-time data base of system, application service layer is by ADO, and API, SOAP data communication agreement are carried out real-time data base with relevant database mutual, and by the J2ee middleware server, complete the data bus task, ccf layer uses infotech to assemble, and uses J2EEstruct2, and Flash as3 and RIA make up integrated, build each business function assembly at this above integrated basis, form the sophisticated service functional module, such as operation management module, on-line monitoring module, analytical statement decision-making module, expert diagnosis module, member management module and System right management module.
Compatible OPC in described system, DDE, API, R485 agreement.
Described Radiation monitoring data comprise the variation of radiation data, the situation of radiation device.
The present invention compared with prior art, solving is exceeded standard by radiation controls to real-time process and controls and change; Enlarge control surface, can make low cost cover the medium and small sized enterprises of radiation source, reach and shift to an earlier date the beneficial effect that pre-radiation proof exceeds standard; Take full advantage of Internet of Things effectively to radiation source Real Time Monitoring and management.
Description of drawings
Fig. 1 is core business frame diagram of the present invention;
Fig. 2 is working-flow figure of the present invention;
Fig. 3 is Technical Architecture figure of the present invention.
Embodiment
Below in conjunction with accompanying drawing, the invention is described in further details, this manufacturing technology is clearly to this professional personage.
Comprise the present invention referring to the core business frame diagram of Fig. 1 and participate in three roles, be respectively monitor control mechanism (Environmental Protection Agency), radiation proof enterprise and third party and run service provider.Concentrate the operation kernel object that focuses on environment-protective process, mainly divide 4 points, as follows respectively:
1, radiation source lifecycle management (from having to without process) in technological process;
2, radiation device lifecycle management (move, keep in repair, maintain, scrap);
3, the holocyclic radiation factor real-time online of radiation source dynamic management enlarges with outstanding radiating surface such as various radiation exceed standard;
4, radiation control is the dynamic management of operation cost, such as whether radiate source radiation can reduce.
Provide different information according to different roles, simultaneously move mode solves information communication and exchanges, and allows operation management lean and standardization, produces maximum social benefit.
Referring to Fig. 2: the user in the present invention will divide two large classes.A kind of is the platform user, is respectively monitor control mechanism (Environmental Protection Agency is representative), blowdown enterprise and third party and runs service provider; Another kind is the platform operation user, is respectively environment-protective process slip-stick artist, SFC support, financial accounting personnel, safeguards response slip-stick artist and radiation expert.At first the user signs in to system platform, and platform will be distinguished two kinds of different users, will see the different information contents and opereating specification for different user.The platform user logins and generally sees technological process, radiation device, radiation factor, intelligent early-warning, radiation control; And the system platform maintainer will will distinguish information for the role's platform of oneself, see respectively System Privileges, member management, accounting management, O﹠M response, expert diagnosis.All information sources are in central server.At first by radiation detector being installed to data transmitter in each technique, then arrive the data storage by data transmission gateway, be transferred to central server by interconnected network mode at last, carry out information processing, leave data warehouse concentratedly.
The platform technology framework schematic diagram of Fig. 3 will be realized by four layer architectures.At first data collection layer is by simulating signal or the digital signal acquiring of radiation collector, DCS, service data storage and unloading and analytical instrument mode, and be successfully transmitted to the platform data center, wherein with compatible multi-protocols, such as OPC, DDE, API, R485 etc.; Wherein application service layer is by ADO, and API, SOAP etc. data communication agreement is carried out real-time storage with the data of data collection layer, wherein data is carried out with relevant database alternately, and by the J2ee middleware server, completes the data bus task; Ccf layer will make up according to service logic, have infotech to assemble, and use J2EE struct2 and RIA to make up, and they be to have data channel to derive from application service layer; Finally design and will provide all kinds of business scenarios by the Service Component layer by UI, their needed services derive from ccf layer.This builds each business function assembly above integrated basis, form the sophisticated service functional module, such as operation management module, on-line monitoring module, analytical statement decision-making module, expert diagnosis module, member management module and System right management module etc.
Claims (4)
1. radiation source Real Time Monitoring and management system based on an Internet of Things comprise the radioactive source process information system of network management platform Connection Service end and client terminal server, and it is characterized in that: this system comprises:
A, supervision and management: the data that monitor control mechanism limits by radiation source, Real Time Monitoring and storage enterprise radiate source radiation situation, described radiation position comprises technological process, radiation factor, radiation device, radiation control;
b, project verification management: described major event administration module is comprised of Intelligent Service and intelligent monitoring support technology and intelligence operation backstage, described Intelligent Service is by the enterprise terminal operation management system, supervisory system, decision system and O﹠M system consist of, described intelligent monitoring support technology is by the flow scheme design device, the excellent code memory of PLC, desktop represents designer, accident design device Process planning flow and platform designer consist of, described intelligence operation backstage is by the System Privileges module, the member management module, the accounting management module, O﹠M respond module and expert diagnosis module composition,
c, task management: described task management module is by the Service Component layer, ccf layer, application service layer and data collection layer form, described Service Component layer is by the operation management module, the on-line monitoring module, the analytical statement module, the expert diagnosis module, the member management module, authority management module consists of, described ccf layer is by J2EE struts2 Framework framework, Flash as3 and RIA consist of, described application service layer is J2EE middle application server and large-scale relation data and real-time data base formation, described data collection layer is by the radiation data collection, DCS, service data storage and unloading and analytical instrument consist of.
2. one kind based on the radiation source Real Time Monitoring of Internet of Things and the method for management system, it is characterized in that: pass through the mutual transmission of information of Internet of Things between this system and monitor controller and monitoring device, by supervising device, the Radiation monitoring data command is set, send above-mentioned environmental monitoring instruction to pick-up unit by this supervising device and platform, receive and store and print this Radiation monitoring data by this monitoring device, obtain and the processing environment detecting data by this monitoring device, at first data collection layer passes through radiation collector, DCS, the simulating signal of service data storage and unloading and analytical instrument mode or digital signal acquiring, and be successfully transmitted to the real-time data base of system, application service layer is by ADO, and AP work, SOAP data communication agreement are carried out real-time data base with relevant database mutual, and by the J2ee middleware server, complete the data bus task, ccf layer uses infotech to assemble, and uses J2EEstruct2, and Flash as3 and R work A make up integrated, build each business function assembly at this above integrated basis, form the sophisticated service functional module, such as operation management module, on-line monitoring module, analytical statement decision-making module, expert diagnosis module, member management module and System right management module.
3. as claimed in claim 2 a kind of based on the radiation source Real Time Monitoring of Internet of Things and the method for management system, compatible OPC in described system, DDE, API, R485 agreement.
4. as claimed in claim 2 a kind of based on the radiation source Real Time Monitoring of Internet of Things and the method for management system, it is characterized in that: described Radiation monitoring data comprise the variation of radiation data, the situation of radiation device.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103426041A (en) * | 2012-05-14 | 2013-12-04 | 深圳市子元技术有限公司 | Radiation source real-time monitoring and managing system and method based on Internet of things |
CN109993491A (en) * | 2017-12-29 | 2019-07-09 | 天津兆亚科技有限公司 | A kind of on-line monitoring platform of the realization intelligent management based on Internet of Things |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103426041A (en) * | 2012-05-14 | 2013-12-04 | 深圳市子元技术有限公司 | Radiation source real-time monitoring and managing system and method based on Internet of things |
CN109993491A (en) * | 2017-12-29 | 2019-07-09 | 天津兆亚科技有限公司 | A kind of on-line monitoring platform of the realization intelligent management based on Internet of Things |
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Application publication date: 20130619 |