CN216287023U - Object displacement monitoring and early warning system based on wireless communication - Google Patents

Abstract

The system comprises an object displacement monitoring and early warning system based on wireless communication, wherein the monitoring front end of the system comprises a displacement monitoring module, a displacement monitoring module and a displacement monitoring module, wherein the displacement monitoring module is used for positioning and monitoring the moving position information of an object in real time and generating real-time positioning data of the object; the environment monitoring module is used for monitoring temperature, humidity, rainfall, wind power, wind direction and vibration data around the geographical position where an object is located in real time; the monitoring module is used for monitoring video monitoring data around the geographic position of the object in real time; the controller module is used for carrying out data analysis according to real-time positioning data of an object, temperature, humidity, rainfall, wind power, wind direction and vibration data and video monitoring data and controlling the monitored data to be transmitted to the client terminal; and the early warning module is used for early warning according to the data analysis result of the controller module and transmitting early warning information to the client terminal, and the displacement monitoring module comprises a BDS module and a GPS module. The technical scheme of the utility model improves the reliability of geological disaster prediction.

Description

Object displacement monitoring and early warning system based on wireless communication

Technical Field

The utility model relates to the technical field of wireless communication, in particular to an object displacement monitoring and early warning system based on wireless communication.

Background

In recent years, the potential for geological disasters has increased due to global climate abnormal changes. China is wide in territory, and natural geological environment conditions with geological disasters are complex and changeable. Due to the fact that the nature and the intensity of human activities in different regions are different, the difference of the types and the damage sizes of the formed geological disasters is large. Early warning monitoring, monitoring systems and the like for geological disasters and secondary disasters are not established, and the conventional monitoring means for the geological disasters mainly comprises on-site monitoring by monitoring personnel and the like; the geological disasters mainly show collapse, landslide, debris flow, ground collapse, subsidence and the like, are caused by the main reasons, besides meteorological factors, ground surface displacement is a main reason for disasters, and the threats of the geological disasters to the lives and properties of people and the national economy are increasingly serious.

At present, the manual measurement modes of visual measurement and other tools are large in labor investment, so that all-weather uninterrupted monitoring can not be realized, real-time monitoring can not be realized under severe weather conditions, and the personal safety of monitoring personnel in dangerous areas can not be ensured; the interior of the geological structure cannot be subjected to deep inspection, and the geological structure can be damaged to a certain extent by finding out specific damage points through the deep inspection, namely the monitoring precision is relatively low, and particularly, the high-precision monitoring cannot be carried out by adopting a simple monitoring method; real-time dynamic monitoring cannot be realized, real-time monitoring data cannot be acquired at key moments, early-stage information of geological disasters cannot be acquired in time, and monitoring service cannot be provided for timely decision making.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide an object displacement monitoring and early warning system based on wireless communication, which aims to solve the problem that geological disasters cannot be predicted accurately and timely and improve the reliability of geological disaster prediction.

In order to achieve the purpose, the object displacement monitoring and early warning system based on wireless communication comprises a monitoring front end and a client terminal, wherein the monitoring front end comprises a displacement monitoring module, an environment monitoring module, a monitoring module, an early warning module and a controller module;

the displacement monitoring module is used for positioning and monitoring the moving position information of the object in real time and generating real-time positioning data of the object;

the environment monitoring module is used for monitoring temperature, humidity, rainfall, wind power, wind direction and vibration data around the geographical position where the object is located in real time;

the monitoring module is used for monitoring video monitoring data around the geographic position of the object in real time;

the controller module is used for carrying out data analysis according to real-time positioning data of an object, temperature, humidity, rainfall, wind power, wind direction and vibration data and video monitoring data and controlling the monitored data to be transmitted to the client terminal;

the early warning module is used for early warning according to the data analysis result of the controller module and transmitting early warning information to the client terminal, wherein,

the displacement monitoring module comprises a BDS module and a GPS module.

Optionally, the monitoring object comprises a mountain, a foundation, a road surface or a building.

Optionally, the environment monitoring module comprises a temperature sensor, a humidity sensor, a rainfall sensor, a wind direction sensor and a vibration sensor.

Optionally, the monitoring module includes a plurality of high-definition cameras and a plurality of TOF cameras.

Optionally, the controller module is further configured to model according to the video surveillance data around the geographic location of the object, so as to output three-dimensional data around the geographic location of the object.

Optionally, the early warning module comprises an explosion flashing LED lamp and a high-power alarm horn.

Optionally, the high power alarm horn is in a power range of 60W to 600W.

Optionally, the monitoring front end further comprises a communication module;

the communication module is used for being in communication connection with a controller module of the monitoring front end and the client terminal so as to transmit the monitoring data of the monitoring front end to the client terminal.

Optionally, the communication module includes a 4G module, a 5G module, and an ad hoc network module.

Optionally, the client terminal comprises a mobile phone, a tablet computer, a personal computer or a wearable device.

The technical scheme includes that the object displacement monitoring and early warning system based on wireless communication comprises a monitoring front end and a client terminal, wherein the monitoring front end comprises a displacement monitoring module, an environment monitoring module, a monitoring module, an early warning module and a controller module; specifically, through the control of the controller module, the BDS module and the GPS module in the displacement monitoring module are used for positioning and monitoring the moving position information of the object in real time and generating real-time positioning data of the object to be fed back to the controller module; the environment monitoring module monitors temperature, humidity, rainfall, wind power, wind direction and vibration data around the geographical position of an object in real time so as to feed back the data to the controller module; the monitoring module monitors video monitoring data around the geographic position of the object in real time and feeds the video monitoring data back to the controller module; the controller module carries out data analysis according to the received object real-time positioning data, temperature, humidity, rainfall, wind power, wind direction, vibration data and video monitoring data, controls the monitored data to be transmitted to the client terminal, and controls the early warning module to carry out early warning according to a data analysis result. Thereby through the combination of displacement monitoring module, environmental monitoring module and monitor module, realize the accurate judgement of controller module to the object displacement to control early warning module when the object takes place the displacement and carry out the early warning, in order to inform that personnel around the object in time keep away from, inform the position condition that client terminal staff object is located simultaneously, the staff of being convenient for makes corresponding processing. The problem that the geological disaster cannot be predicted accurately and timely is solved, and reliability of prediction of the geological disaster is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of an object displacement monitoring and early warning system based on wireless communication according to the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the descriptions relating to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout is: the method comprises three parallel schemes, wherein the scheme is taken as an A/B (A/B) as an example, the scheme comprises the scheme A, the scheme B or the scheme A and the scheme B simultaneously satisfy, in addition, the technical schemes between the various embodiments can be combined with each other, but the technical schemes must be based on the realization of the technical schemes by a person skilled in the art, and when the technical schemes are mutually contradictory or can not be realized, the combination of the technical schemes is not considered to exist, and the protection scope of the utility model is not within the protection scope of the utility model.

The object displacement monitoring and early warning system based on wireless communication comprises a monitoring front end and a client terminal 70, wherein the monitoring front end comprises a displacement monitoring module 10, an environment monitoring module 20, a monitoring module 30, an early warning module 40 and a controller module 50;

the displacement monitoring module 10 is used for positioning and monitoring the moving position information of the object in real time and generating real-time positioning data of the object;

the environment monitoring module 20 is configured to monitor temperature, humidity, rainfall, wind power, wind direction, and vibration data around a geographical location where an object is located in real time;

the monitoring module 30 is configured to monitor video monitoring data around the geographic position of the object in real time;

the controller module 50 is configured to perform data analysis according to real-time location data of an object, temperature, humidity, rainfall, wind power, wind direction, vibration data, and video monitoring data, and control transmission of the monitored data to the client terminal 70;

the early warning module 40 is configured to perform early warning according to the data analysis result of the controller module 50, and transmit early warning information to the client terminal 70, wherein,

the displacement monitoring module 10 includes a BDS module and a GPS module.

In this embodiment, the environment monitoring module 20 includes, but is not limited to, a temperature sensor, a humidity sensor, a rainfall sensor, a wind direction sensor, and a vibration sensor, the monitoring module 30 includes a plurality of high-definition cameras and a plurality of TOF cameras to comprehensively monitor the surroundings of the geographic location of the monitored object, and the controller module 50 may include, but is not limited to, a single chip, an MCU, a programmable logic controller, a PLC, and the like. It is understood that the number of the specific temperature sensor, the specific humidity sensor, the specific rainfall sensor, the specific wind direction sensor, the specific vibration sensor, the specific high-definition camera, the specific TOF camera and the like is not specifically limited, and is set according to the actual application.

Furthermore, the objects monitored by the monitoring front end include, but are not limited to, a mountain, a foundation, a road surface, a building and the like, that is, the monitoring front end monitors landslide, foundation and road surface subsidence, building subsidence, deviation and the like through the displacement monitoring module 10, the environment monitoring module 20 and the monitoring module 30, so that the problem that geological disasters cannot be predicted accurately and timely is solved, and the reliability of geological disaster prediction is improved.

The object displacement monitoring and early warning system based on wireless communication comprises a monitoring front end and a client terminal 70, wherein the monitoring front end comprises a displacement monitoring module 10, an environment monitoring module 20, a monitoring module 30, an early warning module 40 and a controller module 50; specifically, under the control of the controller module 50, the BDS module and the GPS module in the displacement monitoring module 10 perform real-time positioning and monitoring on the moving position information of the object, and generate real-time positioning data of the object to be fed back to the controller module 50; the environment monitoring module 20 monitors temperature, humidity, rainfall, wind power, wind direction and vibration data around the geographical position of the object in real time to feed back the data to the controller module 50; the monitoring module 30 monitors video monitoring data around the geographical position of the object in real time and feeds the video monitoring data back to the controller module 50; the controller module 50 performs data analysis according to the received real-time object location data, temperature, humidity, rainfall, wind power, wind direction, vibration data, and video monitoring data, controls the monitored data to be transmitted to the client terminal 70, and controls the early warning module 40 to perform early warning according to the data analysis result. Therefore, through the combination of the displacement monitoring module 10, the environment monitoring module 20 and the monitoring module 30, the controller module 50 can accurately judge the displacement of the object, and control the early warning module 40 to give an early warning when the object is displaced, so as to inform people around the object to keep away in time, and inform the client terminal 70 of the position of the object, so that the staff can conveniently make corresponding treatment. The problem that the geological disaster cannot be predicted accurately and timely is solved, and reliability of prediction of the geological disaster is improved.

In one embodiment, referring to FIG. 1, the controller module 50 is further configured to model video surveillance data surrounding the geographic location of the object to output three-dimensional data surrounding the geographic location of the object. It should be noted that, by combining the three-dimensional data constructed by the controller module 50 and the monitoring module 30, the comparison between the real-time three-dimensional data and the historical three-dimensional data can be realized, so as to facilitate the judgment of the displacement condition of the monitored object.

In one embodiment, referring to FIG. 1, the early warning module 40 includes a flashing LED light and a high power warning horn. When landslide, foundation and road surface sinking and building sinking are monitored, the controller module 50 controls the early warning module 40 to flash the LED lamp and the high-power alarm horn to give out an alarm to inform people around the object to keep away in time so as to protect the safety of the people around the object. It should be noted that the power range of the high power alarm horn is 60W to 600W, that is, the power of the high power alarm horn may be 60W, 120W, 250W, 600W, which is selected according to the practical application environment and is not limited herein.

In one embodiment, referring to fig. 1, the monitoring front-end further comprises a communication module 60 for communicatively connecting the controller module 50 of the monitoring front-end and the client terminal 70 to transmit the monitoring data of the monitoring front-end to the client terminal 70. The communication module may include, but is not limited to, a 4G module, a 5G module, and an ad hoc network module. It should be noted that the ad hoc network module includes a plurality of client terminals 70 that are communicatively connected to each other, and each client terminal 70 includes a mobile phone, a tablet computer, a personal computer, or a wearable device. Each client terminal 70 constitutes a signal transceiving network. That is, the mobile phone, the tablet computer, the personal computer and/or the wearable device are connected to each other in a communication manner to form a huge signal network, so that the reception of communication signals can be enhanced, and the communication fluency of the client terminal 70 can be improved.

The above description is only an alternative embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the technical solutions of the present invention that are made by using the contents of the specification and the drawings or directly/indirectly applied to other related technical fields are included in the scope of the present invention.

Claims (10)

1. The object displacement monitoring and early warning system based on wireless communication comprises a monitoring front end and a client terminal, and is characterized in that the monitoring front end comprises a displacement monitoring module, an environment monitoring module, a monitoring module, an early warning module and a controller module;

the displacement monitoring module is used for positioning and monitoring the moving position information of the object in real time and generating real-time positioning data of the object;

the environment monitoring module is used for monitoring temperature, humidity, rainfall, wind power, wind direction and vibration data around the geographical position where the object is located in real time;

the monitoring module is used for monitoring video monitoring data around the geographic position of the object in real time;

the controller module is used for carrying out data analysis according to real-time positioning data of an object, temperature, humidity, rainfall, wind power, wind direction and vibration data and video monitoring data and controlling the monitored data to be transmitted to the client terminal;

the early warning module is used for early warning according to the data analysis result of the controller module and transmitting early warning information to the client terminal, wherein,

the displacement monitoring module comprises a BDS module and a GPS module.

2. The wireless-communication-based object displacement monitoring and warning system of claim 1, wherein the monitored object comprises a mountain, a foundation, a road surface, or a building.

3. The wireless-communication-based object displacement monitoring and warning system of claim 1, wherein the environment monitoring module comprises a temperature sensor, a humidity sensor, a rainfall sensor, a wind direction sensor, and a vibration sensor.

4. The wireless-communication-based object displacement monitoring and early warning system of claim 1, wherein the monitoring module comprises a plurality of high-definition cameras and a plurality of TOF cameras.

5. The wireless-communication-based object displacement monitoring and early warning system of claim 4, wherein the controller module is further configured to model based on video monitoring data around the geographic location of the object to output three-dimensional data around the geographic location of the object.

6. The wireless-communication-based object displacement monitoring and early warning system of claim 1, wherein the early warning module comprises an explosion flashing LED lamp and a high-power warning horn.

7. The wireless-communication-based object displacement monitoring and warning system of claim 6, wherein the high power alarm horn is powered in a range of 60W to 600W.

8. The object displacement monitoring and early warning system based on wireless communication as claimed in claim 1, wherein the monitoring front end further comprises a communication module;

the communication module is used for being in communication connection with a controller module of the monitoring front end and the client terminal so as to transmit the monitoring data of the monitoring front end to the client terminal.

9. The object displacement monitoring and early warning system based on wireless communication of claim 8, characterized in that the communication module comprises a 4G module, a 5G module and an ad hoc network module.

10. The wireless-communication-based object displacement monitoring and warning system of any one of claims 1 to 9, wherein the client terminal comprises a cell phone, a tablet, a personal computer, or a wearable device.

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