CN103235585A - Method for monitoring structural security information based on mobile internet of things in real time - Google Patents
Method for monitoring structural security information based on mobile internet of things in real time Download PDFInfo
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- CN103235585A CN103235585A CN2013101532307A CN201310153230A CN103235585A CN 103235585 A CN103235585 A CN 103235585A CN 2013101532307 A CN2013101532307 A CN 2013101532307A CN 201310153230 A CN201310153230 A CN 201310153230A CN 103235585 A CN103235585 A CN 103235585A
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Abstract
The invention discloses a method for monitoring structural security information based on a mobile internet of things in real time. The method is characterized by comprising the following steps of implanting sensors for collecting information at key sites or necessary sites of the structure; installing an automatic data acquisition device for automatically acquiring information collected by various sensors; constructing a data analysis server and analyzing information fed back by the automatic data acquisition device by using finite element analysis software and a structure information model technology; automatically accessing structure state information analyzed by the data analysis server to a mobile internet; and realizing the real-time viewing of the structure state information from the data analysis server by using common mobile network functions or visual software which is developed and applied to mobile terminal equipment, wherein the structure state information comprises security information or automatic alarming information. According to the method disclosed by the invention, the structure stress state monitoring is effectively combined with the mobile internet of things, so that the real-time property of monitoring management of the structure stress state is realized and the aim of eliminating accidents or reducing accident loss is achieved.
Description
Technical field
The present invention relates to a kind of security information method of monitoring in real time, particularly a kind of method of monitoring in real time based on the structural safety information of mobile Internet of Things.
Background technology
At present, the structural information of the bridge in the domestic operation, in the building and subway, skyscraper, deep basal pit all depends on manually gathers stage by stage, artificial related software analysis, the audit back printed transfer used reported, ageingly can not satisfy real-time feedback and forewarning management demand, do not play in time obtaining structural safety information, take precautions against and prevent structure to bad trend development.
Such as, the bridge during the operation, skyscraper, subway is isostructural caves in, and its reason and structural information are transmitted untimely closely related.If can in time take maintenance measure according to the structural information abnormal conditions, will eliminate or reduce causality loss.In recent years, building structure accidents such as domestic bridge are of common occurrence, and itself and monitor message can not have been transmitted substantial connection in real time.If in time feedback information is adopted an effective measure, can eliminate or reduce to greatest extent causality loss substantially.
Summary of the invention
The present invention organically blends the application of structural stress state monitoring with mobile internet-of-things terminal, set up finite element analysis software, the early warning value visualization display of structural stress state monitoring sensor, information acquisition, access internet, stress and the real-time state report system for the treatment of schemees such as state defines, information of mobile terminal report, make monitor message can in time send to portable terminal, win the crash time, meet the information management demand.
For achieving the above object, technical scheme of the present invention is:
A kind of method of monitoring in real time based on the structural safety information of mobile Internet of Things is characterized in that may further comprise the steps:
(1) implants the sensor of collection information at structural key, keypoint part or necessary position;
(2) the automatic data acquisition device is installed, is gathered the information that each sensor is collected automatically;
(3) set up data analytics server, utilize finite element analysis software and structural information modelling technique that automatic data acquisition device feedack is analyzed;
(4) the configuration state information with the data analytics server analysis inserts mobile Internet automatically;
(5) utilize mobile network feature commonly used or Application and Development in the visual software of mobile terminal device, realize real time inspection from the configuration state information of data analytics server, described configuration state information comprises security information and automatic warning message.
When the configuration state information of described step (5) transfinited, the user started prediction scheme immediately.
The function setting of described automatic data acquisition device and data analytics server can be realized by mobile terminal device setting by specialized management person or user.
Described mobile terminal device comprises mobile phone and computer.
The present invention carries out effective combination with the structural stress state monitoring with mobile Internet of Things, has given full play to mobile Internet advantage fast, makes the monitoring management of structural stress state realize real-time, has reached the elimination accident or has reduced the causality loss purpose.
Description of drawings
Fig. 1 is the process flow diagram of method for real-time monitoring of the present invention.
Embodiment
Below in conjunction with accompanying drawing, the present invention is further specified:
Shown in Figure 1, be the process flow diagram of method for real-time monitoring of the present invention, the present invention is applied to monitor in bridge, skyscraper, subway station and deep foundation pit construction and the use.
Embodiment 1:
(1) implant the sensor of collection information at bridge structure key, keypoint part or necessary position, as: bridge main tower, case beam, pier shaft, hoist cable, main push-towing rope etc.;
(2) the automatic data acquisition device is installed, is gathered the information that each sensor is collected automatically, comprise information such as stress, strain, displacement, temperature, vibration frequency;
(3) set up data analytics server, utilize finite element analysis software and structural information modelling technique that automatic data acquisition device feedack is analyzed;
(4) the configuration state information with the data analytics server analysis inserts mobile Internet automatically;
(5) utilize mobile network feature commonly used or Application and Development in the visual software of mobile terminal device, realize user's real time inspection from the configuration state information of data analytics server, described configuration state information comprises security information and automatic warning message.
When the configuration state information that obtains from step (5) as the user transfinited, for example stress was excessive, displacement is excessive, temperature is high excessively, then starts prediction scheme immediately.
Wherein: the function setting of automatic data acquisition device can realize by mobile terminal device setting by specialized management person or user, and the function setting of data analytics server finishing and realize synchronously automatically with automatic data acquisition device function setting.
Above-described portable terminal comprises mobile phone and computer.
Embodiment 2:
(1) implants the sensor of collection information at deep basal pit structural key, keypoint part or necessary position, as underground continuous beam etc.;
(2) the automatic data acquisition device is installed, is gathered the information that each sensor is collected automatically, comprise information such as stress, strain, displacement;
(3) set up data analytics server, utilize finite element analysis software and structural information modelling technique that automatic data acquisition device feedack is analyzed;
(4) the configuration state information with the data analytics server analysis inserts mobile Internet automatically;
(5) utilize mobile network feature commonly used or Application and Development in the visual software of mobile terminal device, realize user's real time inspection from the configuration state information of data analytics server, described configuration state information comprises security information and automatic warning message.
When the configuration state information that obtains from step (5) as the user transfinites, then start prediction scheme immediately.
Wherein: the function setting of automatic data acquisition device can realize by mobile terminal device setting by specialized management person or user, and the function setting of data analytics server finishing and realize synchronously automatically with automatic data acquisition device function setting.
Above-described portable terminal comprises mobile phone and computer.
Embodiment 3:
(1) implant the sensor of collection information at subway dependency structure key, keypoint part or necessary position, as steel support, on every side the face of land and building etc.;
(2) the automatic data acquisition device is installed, is gathered the information that each sensor is collected automatically, comprise information such as steel bearing stress, strain and surrounding ground, road, building deformation, sedimentation;
(3) set up data analytics server, utilize finite element analysis software and structural information modelling technique that automatic data acquisition device feedack is analyzed;
(4) the configuration state information with the data analytics server analysis inserts mobile Internet automatically;
(5) utilize mobile network feature commonly used or Application and Development in the visual software of mobile terminal device, realize user's real time inspection from the configuration state information of data analytics server, described configuration state information comprises security information and automatic warning message.
When the configuration state information that obtains from step (5) as the user transfinited, for example stress and strain was excessive, the surrounding ground sedimentation is too much etc., then starts prediction scheme immediately.
Wherein: the function setting of automatic data acquisition device can realize by mobile terminal device setting by specialized management person or user, and the function setting of data analytics server finishing and realize synchronously automatically with automatic data acquisition device function setting.
Above-described portable terminal comprises mobile phone and computer.
Embodiment 4:
(1) implants the sensor of collection information at high building structure key, keypoint part or necessary position, as column etc.;
(2) the automatic data acquisition device is installed, is gathered the information that each sensor is collected automatically, comprise the information such as internal force, lateral shift, vibration frequency of column;
(3) set up data analytics server, utilize finite element analysis software and structural information modelling technique that automatic data acquisition device feedack is analyzed;
(4) the configuration state information with the data analytics server analysis inserts mobile Internet automatically;
(5) utilize mobile network feature commonly used or Application and Development in the visual software of mobile terminal device, realize user's real time inspection from the configuration state information of data analytics server, described configuration state information comprises security information and automatic warning message.
When the configuration state information that obtains from step (5) as the user transfinited, for example lateral shift was excessive, vibration frequency is high excessively, then starts prediction scheme immediately.
Wherein: the function setting of automatic data acquisition device can realize by mobile terminal device setting by specialized management person or user, and the function setting of data analytics server finishing and realize synchronously automatically with automatic data acquisition device function setting.
Above-described portable terminal comprises mobile phone and computer.
The above only is embodiments of the invention, the present invention includes but be not limited to above application, hardware and software of the present invention comprises fixed part and movable part, wherein: the frame of broken lines on the left side is fixed part, comprise position sensor, automatic data acquisition device and data analytics server, be used for finishing the work of information acquisition, data analysis, the frame of broken lines on the right is movable part, visible mobile terminal equipment is movable part, can make the user carry out the structural stress state monitoring whenever and wherever possible, convenient startup prediction scheme elimination accident in time or reduction causality loss.
Claims (4)
1. one kind based on the structural safety information of the mobile Internet of Things method of monitoring in real time, it is characterized in that may further comprise the steps:
(1) implants the element of collection information at structural key, keypoint part or necessary position;
(2) the automatic data acquisition device is installed, is gathered the information that each element is collected automatically;
(3) set up data analytics server, utilize finite element analysis software and structural information modelling technique that automatic data acquisition device feedack is analyzed;
(4) the configuration state information with the data analytics server analysis inserts mobile Internet automatically;
(5) utilize mobile network feature commonly used or Application and Development in the visual software of mobile terminal device, realize user's real time inspection from the configuration state information of data analytics server, described configuration state information comprises security information and automatic warning message.
2. the structural safety information based on the mobile Internet of Things according to claim 1 method of monitoring in real time is characterized in that:
When the configuration state information of described step (5) transfinited, the user started prediction scheme immediately.
3. the structural safety information based on the mobile Internet of Things according to claim 1 method of monitoring in real time is characterized in that:
The function setting of described automatic data acquisition device and data analytics server can be realized by mobile terminal device setting by specialized management person or user.
4. according to the described method of monitoring in real time based on the structural safety information of mobile Internet of Things of claim 1 ~ 3, it is characterized in that:
Described mobile terminal device comprises mobile phone and computer.
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CN105468610A (en) * | 2014-08-29 | 2016-04-06 | 上海丰进信息科技有限公司 | Internet-of-things node data graphic method and system in browser mode |
CN107526318A (en) * | 2016-06-21 | 2017-12-29 | 中国十七冶集团有限公司 | A kind of Metro Deep Excavation deformation and temperature monitoring system |
CN108663979A (en) * | 2018-05-08 | 2018-10-16 | 江南大学 | The high tower comprehensive monitoring system that technology of Internet of things is integrated with 3D |
CN110135048A (en) * | 2019-05-10 | 2019-08-16 | 上海潮旅信息科技有限公司 | A kind of method and system of online analysis vibration monitoring data |
CN116127814A (en) * | 2023-02-23 | 2023-05-16 | 武汉工程大学 | Geotechnical engineering finite element model construction method in CAD environment and electronic equipment |
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CN105468610A (en) * | 2014-08-29 | 2016-04-06 | 上海丰进信息科技有限公司 | Internet-of-things node data graphic method and system in browser mode |
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CN116127814B (en) * | 2023-02-23 | 2023-10-03 | 武汉工程大学 | Geotechnical engineering finite element model construction method in CAD environment and electronic equipment |
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Application publication date: 20130807 |