CN108007428A - High ferro sedimentation monitoring system - Google Patents
High ferro sedimentation monitoring system Download PDFInfo
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- CN108007428A CN108007428A CN201711245285.5A CN201711245285A CN108007428A CN 108007428 A CN108007428 A CN 108007428A CN 201711245285 A CN201711245285 A CN 201711245285A CN 108007428 A CN108007428 A CN 108007428A
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01C—MEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
- G01C5/00—Measuring height; Measuring distances transverse to line of sight; Levelling between separated points; Surveyors' levels
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01C—MEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
- G01C5/00—Measuring height; Measuring distances transverse to line of sight; Levelling between separated points; Surveyors' levels
- G01C5/04—Hydrostatic levelling, i.e. by flexibly interconnected liquid containers at separated points
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01S—RADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
- G01S19/00—Satellite radio beacon positioning systems; Determining position, velocity or attitude using signals transmitted by such systems
- G01S19/01—Satellite radio beacon positioning systems transmitting time-stamped messages, e.g. GPS [Global Positioning System], GLONASS [Global Orbiting Navigation Satellite System] or GALILEO
- G01S19/13—Receivers
- G01S19/14—Receivers specially adapted for specific applications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/10—Protocols in which an application is distributed across nodes in the network
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- Engineering & Computer Science (AREA)
- Radar, Positioning & Navigation (AREA)
- Remote Sensing (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Alarm Systems (AREA)
Abstract
The present invention discloses a kind of high ferro sedimentation monitoring system.The system includes acquisition system and cloud platform, wherein, the acquisition system includes base station and receives satellite-signal positioned at the monitoring station of monitoring point, monitoring station and base station, and processing satellite-signal obtains observation data;The cloud platform includes data handling system, data-storage system and monitoring early-warning system, wherein, data handling system receives the observation data from acquisition system, handles the observation data and obtains the current location of monitoring point;The data-storage system stores the current location;The monitoring early-warning system compares current location and corresponding predetermined threshold value and determines the safe class of monitoring point sedimentation, and alarm signal is produced in the case of exceeding corresponding predetermined threshold value in current location.The present invention solves the problems, such as time-consuming observation, effort, consumes people, accurately deformation tendency can not be analyzed and judged.
Description
Technical field
The present invention relates to monitoring system, more particularly to high ferro sedimentation monitoring system.
Background technology
High-speed railway is the important symbol of railway modernization, is complicated system engineering.China opened first from 2008
Bar high-speed railway --- since Beijing-Tianjin inter-city railway, the mileage about 7000km of high-speed railway operation at present, it is contemplated that to the year two thousand twenty,
200km and the high-speed railway of above speed per hour will more than 1.8 ten thousand km, by account for world's high-speed railway total kilometrage more than half.At a high speed
The advantage such as the large conveying quantity of railway, high speed, quick greatly facilitates the trip of people, while its operation security is also subject to people's
Common concern, it is the important basic work of operation security that lasting monitoring is carried out to high-speed railway.
The train of high-speed cruising requires circuit to have the characteristics that high ride, high stability, high precision on high-speed railway,
Circuit only in this way just can guarantee that train at a high speed, run without interruption it is safe, steady with it is comfortable.This requires first to these
Index carries out the design of science, is then completed by accurately measuring, constructing to be able to build, also to be realized to rail during operation
Road irregularity occurs, develops, the angles of science monitoring of change overall process, just can ensure that high speed traveling is steady, comfortable and safe.High-speed iron
The deformation monitoring work on road is broadly divided into two stages of construction period and operation phase.Construction period is primarily upon the change of engineering construction body
Shape and the monitoring in potential geological disaster area, main wired lower engineering settlement observation and assessment, regional land subsidence monitoring, tunnel
Content, these monitoring contents and the methods such as monitoring, bridge monitoring, excavation of foundation pit monitoring is measured to compare in specification in detail
Thin regulation.And the phase is runed in addition to composition deformation is constructed in concern, the ride comfort change of track is more paid close attention to, specification has not yet been formed at present
System.
Analyzed according to existing statistics, sedimentation and deformation, which occur, for circuit mainly following reason:1. special geological structure
Or environment.Regional land subsidence, karst foundation etc. can cause the sedimentation of circuit, and ground fissure can cause circuit to deform, severe cold area
Roadbed frost damage can cause circuit to arch up.2. soft foundation.Tunnel Base crushing rock formation, Deep Thick Soft Ground containing abundant underground water
Base, dilatancy Rock soil Foundation etc. can cause Track Settlement, arch or deformation.3. bridge complex structure.China express railway is built
Level increasingly improves, and devises some across great rivers, the new long-span bridges of the steep paddy of zanjon.Palpus and rail when it is designed
Road structure accurately couples calculating, could meet that ride comfort and dynamic indicator control require.4. external factor.Topple over rubbish on the outside of circuit
Rubbish, construction pile foundation, filling roadbed, construction culvert and bridge etc. can all cause circuit to deform or settle.5. construction quality is bad.
It is not close that the void tiny fragments of stone, coal, etc. cleaning of tunnel inverted arch bottom does not cause totally concrete to be combined with bedrock surface, and basement transition stage packing quality does not conform to
Lattice or the compacting of dead angle position not in place can cause Track Settlement.Have also appeared in construction roadbed employ it is broken with dilatancy
The quick lime that filler and the roadbed admixture of stone are not cleared up completely, generation expansion, which causes roadbed to arch up, after later stage chance water causes no tiny fragments of stone, coal, etc.
The quality problems of track structure deformation.
During high speed railway construction and operation, the mode of generally use classified leveling, the method manually measured back and forth
Carry out settlement observation.This method takes, effort, consumption people, the activity duration is long, it is necessary to which personnel are more, and each section of surveying is required for largely
Manpower carries out independent measurement, and to ensure precision, it is also necessary to consider the influence of time, weather, environment etc., seriously constrain survey
The progress and effect of amount;Accurately deformation tendency can not be analyzed and judged, while measurement result cannot upload in real time, lead
Cause result hysteresis.
The content of the invention
The present invention solves the problems, such as be existing high ferro settlement observation take, effort, consume people, can not be accurately to deformation tendency
The problem of being analyzed and being judged.
To solve the above problems, the present invention provides a kind of high ferro sedimentation monitoring system.The monitoring system includes acquisition system
And cloud platform.The acquisition system includes base station and receives satellite positioned at the monitoring station of monitoring point, monitoring station and base station
Signal, processing satellite-signal obtain observation data;It is pre- that the cloud platform includes data handling system, data-storage system and monitoring
Alert system, wherein, data handling system receives the observation data from acquisition system, handles the observation data and is monitored
The current location of point;The data-storage system stores the current location;The monitoring early-warning system compare current location with
Corresponding predetermined threshold value and the safe class for determining monitoring point sedimentation, produce in the case of exceeding corresponding predetermined threshold value in current location
Alarm signal.
Compared with prior art, the present invention has at least the following advantages:
1st, since the present invention monitors by base station and monitoring station the change of the position of monitoring point etc., and by cloud platform at
Whether the current state (such as position) that reason has obtained monitoring point exceedes default safe class, if so, alarm is just produced,
If it is not, would not alarm, in this way, manually round-trip measurement, time saving and energy saving, moreover, can be obtained li based on satellite-signal
Meter level positioning accurate, can carry out deformation tendency accurately to analyze and judge, in whole process, measurement result uploads in real time, no
Result can be caused to lag.
2nd, as a result of acquisition system+cloud platform " cloud+end " pattern, so, have the following advantages that:A. use
The framework platform of " cloud+end " has the following advantages that:A1) ultra-large, " cloud " can the unprecedented computing capability of imparting system;
A2) virtualize, support user to obtain railway sedimentation information service using various terminals at an arbitrary position;A3) high reliability, " cloud "
The measures such as the more copies of data are fault-tolerant, calculate node isomorphism is interchangeable have been used to ensure the high reliability of service;A4 it is) high scalable
Property, the scale of " cloud " can meet application and the needs that userbase increases with dynamic retractility;A5 it is) extremely cheap, " cloud " it is special
Fault-tolerant measure allows to form cloud using extremely cheap node;The automatic management of " cloud " makes data center management cost
It is greatly reduced;The utilization rate of resource is substantially improved in the public property and versatility of " cloud ";" cloud " facility can build electric power resource in
Abundant area, so that energy cost be greatly reduced.Therefore, " cloud " has the unprecedented ratio of performance to price, and user can fill
Share the low-cost advantage by " cloud ";B. as a result of acquisition system+cloud platform " cloud+end " pattern, so, it can be achieved that
Long-range measurement, unmanned value;C. as a result of acquisition system+cloud platform " cloud+end " pattern, it is possible on a large scale into
Row difference resolves, precision is high;D. as a result of acquisition system+cloud platform " cloud+end " pattern, it is possible to support more
Plurality of devices, supports customization upgrading, meets more different equipment accesses.Monitoring data can be stored in multitype database,
And the inquiry of historical data can be carried out, generate seclected time period in GNSS maximins, can also directly generate EXCEL or its
His form report;E. as a result of acquisition system+cloud platform " cloud+end " pattern, it is possible to support different manufacturers, no
Online-monitoring software, support the market mainstream GNSS navigation products, there is provided maximum compatible sex service are accessed with model device;F. by
In the pattern for " cloud+end " for employing acquisition system+cloud platform, it is possible to realize Terminals Report customization, figure number display function;
G. as a result of acquisition system+cloud platform " cloud+end " pattern, so end host occur obvious alarm screen and
Warning message, while may also provide the type of alarms such as mail, SMS;H. as a result of the " cloud of acquisition system+cloud platform
The pattern at+end ", so the management of password and operating right can be carried out to each user in system, ensures the peace of runtime
Quan Xing;I. as a result of acquisition system+cloud platform " cloud+end " pattern, so supporting monitoring function expansion, realize synchronous
Monitor and carry out software upgrading according to being actually needed.
Brief description of the drawings
Fig. 1 is the structure diagram of high ferro sedimentation monitoring system of the present invention;
Fig. 2 is the flow chart of data processing of high ferro sedimentation monitoring system of the present invention.
Embodiment
For technology contents, construction feature, institute's reached purpose and effect that the present invention will be described in detail, below in conjunction with embodiment
And attached drawing is coordinated to be described in detail.
Please refer to Fig.1 and Fig. 2, high ferro sedimentation monitoring system of the present invention utilize GNSS receiver, sensor and video equipment
The data of the data collecting system collection monitoring point of composition, by internet by the data transfer of collection to cloud platform, cloud platform
Data are handled by means such as concurrent big data memory technology, data mining technologies, it is running to assess high ferro in real time
Health status, for railroad maintenance, personnel provide science decision.The high ferro sedimentation monitoring system be using the operating mode of " cloud+end " as
User provides service, including data collecting system 1 (end) and cloud platform 2 (cloud).The cloud platform 2 includes data-storage system
21st, data handling system 22, monitoring early-warning system 23 and delivery system 24.The data handling system 22 takes including deformation process
Be engaged in device 221 and analysis center 222.
Please continue to refer to Fig. 1 and Fig. 2, data collecting system 1 includes base station and is arranged at monitoring in the present embodiment
Monitoring station, sensor and the video equipment of point.Base station and monitoring station include GNSS receiver, pass through respective GNSS receiver
Satellite-signal is received, the satellite-signal is handled and obtains observation data, pass through the data of the network transmission monitoring data to cloud platform 2
Storage system 21.Sensor includes slit gauge, hydrostatic level or multipoint displacement meter in the present embodiment.The slit gauge is adopted
The variable quantity in the crack of monitor set point.The elevation change of the hydrostatic level collection monitoring point.The multipoint displacement meter collection
The displacement of monitoring point.Crack variable quantity, elevation variable quantity and displacement are referred to as terrain data, which passes through network transmission
Data-storage system 21 to cloud platform 2.The video data of the video equipment collection monitoring point, passes through the network transmission video
Data-storage system 21 of the data to cloud platform 2.The data handling system 22 handles the monitoring number from data collecting system 1
According to, the current location of monitoring point is obtained, specifically, analysis center 221 is to 222 transmitting satellite information of deformation process server, this
A little satellite informations include providing satellite clock correction, satellite orbit, ionosphere correcting information etc., so that deformation process server 222 is real
Existing high-acruracy survey algorithm.Deformation process server 22 high-acruracy survey algorithm process satellite information and the sight from monitoring point
Survey data and obtain the current location of observation station, it is fixed that the high-acruracy survey algorithm includes Static Precise Point Positioning (PPP), real time differential
The methods of position, static Baselines.Static Precise Point Positioning (PPP) method is to utilize precise ephemeris and satellite clock correction, based on carrier wave
The high accuracy positioning that carrier phase observable carries out.Real-time requiring method is same with reference station (base station) using Beidou receiver
Step observation, the correction of coordinate, distance or phase is calculated according to the precision coordinate of known reference station, and passed through by reference station
Correction is sent to receiver user by data-link in real time, so as to correct its positioning result, improves positioning accuracy.Real time differential is determined
Position method can be divided into two kinds of tupes of real-time RTK and real-time epoch difference again.Static Baselines method is to utilize carrier wave phase
Position observation or its difference observation, solve the basic lineal vector coordinate difference between the survey station of two simultaneous observations.Successive iteration base
Survey station approximate coordinate precision is continuously improved in line measured value.Railway settlement monitoring passes through static PPP by Beidou navigation satellite system
The methods of measurement, real-time dynamic positioning (RTK) and static Baselines, Beidou navigation satellite system resource can be made full use of,
Realize centimeter-level positioning, play bigger benefit.The high-acruracy survey algorithm used based on deformation process server 222, in analysis
The heart 221 can provide the algorithm required satellite information.The deformation process server 222 obtains ground from data-storage system 21
Graphic data, processing terrain data obtains topography variation as a result, the topography variation result is stored in the data-storage system 21, has
Body, the deformation process server 222 handles the crack variable quantity, and to obtain variable quantity corresponding as a result, for representing crack
Width;Handling the elevation variable quantity, to obtain elevation variable quantity corresponding as a result, the corresponding pressure of elevation for passing through each monitoring point
Variable quantity and can obtain earth's surface relative settlement height;Also handle the displacement variable and obtain the corresponding knot of displacement variable
Fruit, if point being monitored deforms, drives measuring staff, measuring staff pulls displacement meter by being arranged on the anchor head of displacement meter of monitoring point
Displacement deformation is produced, displacement transfer obtains the change of vibratory string stress to type vibration wire displacement meter, so as to change the vibration frequency of vibratory string
Rate.Electromagnetic coil exciting vibratory string simultaneously measures the vibration frequency, and frequency signal can be calculated by cable transmission to reading plotter
Go out the deflection of monitored target.By above-mentioned processing, deformation process server 222 can obtain the change in displacement of each monitoring point
Measure corresponding result.The deformation process server 222 also obtains video data, which enrolled by camera
Video information is extracted as 3D model visual informations by the video information of live specified point, then, deformation process server 222, will
Monitoring data and the 3D models visual information are resolved to obtain the 3D models of monitored live different conditions, more by software
Historical data can be integrated, form dynamic 3D variation models, made up single data and non-intuitive deficiency is presented.The prison
Control early warning system 23 compares current location and corresponding predetermined threshold value and determines the safe class of monitoring point sedimentation, surpasses in current location
Alarm signal is produced in the case of crossing corresponding predetermined threshold value, specifically, foundation《Global positioning system (GPS) railroad survey code》
With《High Speed Rail Projects specifications of surveys》Deng national specifications of surveys setting safe class, by position, the corresponding knot of crack variable quantity
Fruit, the corresponding result of elevation variable quantity, the result of the corresponding result of displacement variable and video data integrated treatment and safety etc.
The numerical value of level is contrasted, and determines its safe class, beyond threshold value, safe class be set as it is low, it is on the contrary then to be high.
Please continue to refer to Fig. 1 and Fig. 2, the sedimenting system further includes delivery system 24.The delivery system 24 is producing institute
In the case of stating alarm signal, from the inner acquisition addressee information of data-storage system 21, transmission alarm signal gives addressee's letter
The corresponding addressee of manner of breathing.The addressee information includes cell-phone number, email address, QQ number or WeChat ID, in this manner it is possible to
Related personnel is notified by way of short message, Email, QQ or wechat.It could be obtained to reach only validated user
Warning message, warning message and the purpose of monitoring data or monitoring data are either received, the delivery system 24 includes authentication
Module, for determining whether user is validated user, which includes receiving module, OEM modules and judgment module, described
Receiving module receives the access request of user, which includes the identification information of user, and the OEM modules memory storage is useful
The unique identification information in family, the judgment module judge identification information in access request and the identification information that prestores whether
Match somebody with somebody, if it does, then, it is allowed to the user accesses, conversely, not allowing to access and forbid using.Monitored for the ease of user
Data, the delivery system 24 further include download module, which receives download request from the user, based on the download
Request obtains monitoring data corresponding with download request from data-storage system, and the monitoring data are sent to and are asked with downloading
Corresponding user is asked, as the further scheme of this mode, the delivery system 24 is also after download request is received, to sending
The user of the download request is authenticated, and after the authentication is passed, is obtained from data-storage system 21 corresponding with download request
Monitoring data, further, after the authentication is passed, also determine the Permission Levels of the user, according to the Permission Levels, if should
Permission Levels are matched with user name, then, delivery system 24 just will corresponding with download request data (be sent to user, conversely,
It is not sent to user.The monitoring data include at least position data, terrain data and the alarm signal of monitoring point, monitoring number
According to, daily record and its corresponding chart based on monitoring data generation.
Please continue to refer to Fig. 1 and Fig. 2, the course of work of high ferro sedimentation monitoring system of the present invention is as follows:
A. monitoring station and base station receive the broadcast message and observation information of GNSS satellite by GNSS antenna and receiver,
Monitoring station website video equipment (camera) and sensor obtain the video information and sensor information of monitoring station respectively;
B. the information of monitoring station and base station collection is sent to data handling system 22 in real time by TCP/IP transmission modes;
C. data handling system 22 completes the processing of monitoring station monitoring information using relevant treatment algorithm, and by data
Reason result is preserved to data-storage system 21;
D. the data after the processing of 21 major storage monitoring station of data-storage system, are delivery system 24 and early warning monitoring
System 23 provides data and supports;
E. prewarning monitoring system 23 in real time from data-storage system 21 acquisition processing after data, for the number after processing
According to being analyzed, according to respective threshold, the safe class that monitoring station settles is judged.If exceeding threshold value, pass through mail or short message
Mode notify railway security person liable, expert and related leader;
F. delivery system 24 by data interaction provide user just register, user right identification, browsing data, data download
Etc. function.
Please refer to Fig.1 and Fig. 2, the advantage of the invention is that:
1st, since the present invention monitors by base station and monitoring station the change of the position of monitoring point etc., and by cloud platform at
Whether the current state (such as position) that reason has obtained monitoring point exceedes default safe class, if so, alarm is just produced,
In this way, not manually round-trip measurement, time saving and energy saving, moreover, centimeter-level positioning essence can be obtained based on satellite-signal, can become to deformation
Gesture accurately analyze and judgement, and in whole process, measurement result uploads in real time, result will not be caused to lag.
2nd, a. is had the following advantages that using the framework platform of " cloud+end ":
A1) ultra-large, " cloud " can the unprecedented computing capability of imparting system;A2) virtualize, support user any
Position obtains railway sedimentation information service using various terminals;A3) high reliability, " cloud " used the more copies of data it is fault-tolerant, meter
Operator node isomorphism is interchangeable to wait measure to ensure the high reliability of service;A4) high scalability, the scale of " cloud " can dynamically stretch
Contracting, meets application and the needs that userbase increases;A5) extremely cheap, the special fault-tolerant measure of " cloud " allows to use pole
Its cheap node forms cloud;Data center management cost is greatly reduced in the automatic management of " cloud ";The public property of " cloud "
The utilization rate for making resource with versatility is substantially improved;" cloud " facility can build the area that electric power resource enriches in, so as to significantly drop
Lower energy cost.Therefore, " cloud " has the unprecedented ratio of performance to price, and user can enjoy the inexpensive excellent of " cloud " to the full
Gesture.
B. it is long-range to measure, is unattended
After system installation and debugging, can with 24 it is small when measure automatically, real-time returned data, avoids traditional work mode
In, survey crew needs to enter the problem of scene reality measures.Each measuring point sensor can be monitored in real time, can set acquisition time,
And the processing such as be filtered, calculate to initial data, data in the form of numeral or response curve, figure etc. real-time display, record and
Printing.
C. difference resolving, precision are high
System sets a variety of measurement patterns optional, fixed with real-time RTK measurement patterns, real-time epoch difference, accurate one-point
The various modes such as position, static Baselines.It can be selected according to Different field condition, it is ensured that measurement accuracy.
D. more plurality of devices are supported
System supports multiple devices to access at the same time, and quantity does not have the upper limit in principle;Support customization upgrading, meet more different
Equipment access.Monitoring data can be stored in multitype database, and can carry out the inquiry of historical data, generate seclected time period
Interior GNSS maximins, can also directly generate EXCEL or other forms report.
E. interface is various
It can support different manufacturers, different models of equipment access online-monitoring software, support the market mainstream GNSS navigation productions
Product, there is provided maximum compatible sex service.
F. Report Customization, figure number display function
Original observed data report is exported according to related specifications, results report is may customize according to specific requirement.It is more convenient for into
Fruit is submitted.Software interface is clear and intuitive, tool bar and push-botton operation.Shown in the form of main interface and each sub-interface, between each interface
Switching is flexible, and interface pattern can be drawn by customer requirement and be changed.Data can show with various graphics modes, time history curve
The form such as figure, X/Y/Z coordinate diagrams, simulation drawing, histogram.
G. warning function
Display function is set with data off-limit alarm, when scene uploads warning message immediately, host occurs significantly
Alarm screen and warning message, while may also provide the type of alarms such as mail, SMS.
H. rights management function
The management of password and operating right can be carried out to each user in system, can be different to different user's distribution
System accesses, operating right rank.User log in after operation by writing system daily record, ensure the security of runtime.
I. monitoring function expansion is supported
Software support sensor accesses, and realizes synchronization monitoring.Such as slit gauge, hydrostatic level, multipoint displacement meter etc. pass
Sensor accesses.System meets the requirement of open standard, facilitates addition, deletion, maintenance, modification, the extension of systemic-function.It is compatible
Multitype database currently popular, including Access, Sql Server, Oracle, and meet the expansion of database volume, system
The requirement of the enhancing of software function etc..Using advanced software development, powerful, flexible, beautiful interface is information-based
Management, intelligent monitoring, can carry out software upgrading according to being actually needed.
Claims (11)
1. high ferro sedimentation monitoring system, it is characterized in that:Including acquisition system and cloud platform, wherein, the acquisition system includes base
Standard stands and receives satellite-signal positioned at the monitoring station of monitoring point, monitoring station and base station, and processing satellite-signal obtains observation number
According to;
The cloud platform includes data handling system, data-storage system and monitoring early-warning system, wherein, the storage system is deposited
Store up the observation data;
The data handling system receives the observation data from acquisition system, handles the observation data and obtains monitoring point
Current location;
The data-storage system stores the current location;
The monitoring early-warning system compares current location and corresponding predetermined threshold value and determines the safe class of monitoring point sedimentation, is working as
In the case that front position exceedes corresponding predetermined threshold value, alarm signal is produced.
2. high ferro sedimentation monitoring system according to claim 1, it is characterized in that:The acquisition system further includes sensor,
The sensor is in real time based on the topography variation of monitoring point to obtain terrain data;The data-storage system stores terrain data,
The data handling system processing terrain data obtains topography variation as a result, the topography variation result is stored in the data storage
System, the monitoring early-warning system compares the topography variation result and predetermined threshold value and determines safe class, in current landform
In the case that result of variations is more than predetermined threshold value, alarm signal is produced.
3. high ferro sedimentation monitoring system according to claim 2, it is characterized in that:The sensor includes slit gauge, static(al)
Spirit level or multipoint displacement meter, the variable quantity in the crack of the slit gauge collection monitoring point, the hydrostatic level collection monitoring
The elevation change of point, the displacement of the multipoint displacement meter collection monitoring point.
4. high ferro sedimentation monitoring system according to claim 2, it is characterized in that:The acquisition system further includes video and sets
Standby, which gathers the video data of monitoring point in real time, and the data-storage system stores the video data, the data
Processing system processing video data obtains the view data of monitoring point, the monitoring early-warning system combination view data, crust deformation
Change result and current location and predetermined threshold value, be more than the feelings of predetermined threshold value in view data, topography variation result and current location
Alarm signal is produced under condition.
5. the high ferro sedimentation monitoring system according to any one of Claims 1-4, it is characterized in that:The system is also wrapped
Delivery system is included, which obtains addressee's letter in the case where producing the alarm signal in data-storage system
Breath, transmission alarm signal give the corresponding addressee of addressee information.
6. high ferro sedimentation monitoring system according to claim 5, it is characterized in that:The addressee information include cell-phone number,
Email address, QQ number or WeChat ID.
7. high ferro sedimentation monitoring system according to claim 1, it is characterized in that:The data handling system is included in analysis
The heart and deformation process server, the analysis center take device to deformation monitoring and provide satellite information, the deformation process server
Satellite information and the monitoring data are handled to obtain the current location of monitoring point.
8. high ferro sedimentation monitoring system according to claim 1, it is characterized in that:The delivery system includes authentication module,
The authentication module includes receiving module, OEM modules and judgment module, and the receiving module receives the access request of user, the visit
Ask the identification information that request includes user, the OEM modules memory storage has the unique identification information of user, and the judgment module is sentenced
Whether the identification information in disconnected access request matches with the identification information to prestore, if it does, then, it is allowed to the user accesses, instead
It, does not allow to access and forbid using.
9. high ferro sedimentation monitoring system according to claim 5, it is characterized in that:The delivery system includes download module,
The download module receives download request from the user, is obtained based on the download request from data-storage system and download request
Corresponding monitoring data, and the monitoring data are sent to user corresponding with download request.
10. high ferro sedimentation monitoring system according to claim 9, it is characterized in that:The delivery system is also receiving download
After request, the user for sending the download request is authenticated, after the authentication is passed, obtains and downloads from data-storage system
Ask corresponding monitoring data.
11. high ferro sedimentation monitoring system according to claim 10, it is characterized in that:The delivery system is further authenticating
By rear, the Permission Levels of the user are obtained from data-storage system, and based on the Permission Levels from data-storage system
Obtain and download request and the matched monitoring data of Permission Levels.
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111049666A (en) * | 2018-10-12 | 2020-04-21 | 千寻位置网络有限公司 | Road right management system and method based on space-time information service |
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CN111049666A (en) * | 2018-10-12 | 2020-04-21 | 千寻位置网络有限公司 | Road right management system and method based on space-time information service |
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CN114615250B (en) * | 2022-03-17 | 2023-09-01 | 重庆益尔感知数据研究院有限公司 | Oil gas storage station safety monitoring system and monitoring method |
CN116007576A (en) * | 2023-02-14 | 2023-04-25 | 成都建工第三建筑工程有限公司 | Road settlement detection system and method based on artificial intelligence analysis |
CN116007576B (en) * | 2023-02-14 | 2023-06-09 | 成都建工第三建筑工程有限公司 | Road settlement detection system and method based on artificial intelligence analysis |
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