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Real-time monitoring system for dangerous areas in scenic spots

A dangerous area, real-time monitoring technology, applied to alarms, instruments, etc., can solve problems such as insufficient effects, achieve good effectiveness, improve warning effects, and improve monitoring strength and efficiency

Active Publication Date: 2021-04-13
成都中科大旗软件股份有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although many scenic spots have built protective fences, video surveillance systems, and warning signs in dangerous areas in order to improve safety management capabilities, accidents still occur from time to time due to insufficient monitoring and warning efforts and effects. Therefore, There is an urgent need for a safety monitoring method that is more effective in actively warning and preventing dangerous areas in scenic spots

Method used

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  • Real-time monitoring system for dangerous areas in scenic spots

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Experimental program
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Effect test

Embodiment 1

[0023] A real-time monitoring system for dangerous areas in scenic spots, including a data acquisition unit, a data transfer unit, a monitoring terminal and a warning unit, the data acquisition unit includes an image collector, a stress detector, a deformation detector, a distance detector and a collection sub-station , the acquisition sub-stations are respectively connected with the image collector, stress detector, deformation detector and distance detector. The image collector is used for image acquisition of the set dangerous area, and the stress detector is used for the protection device of the set dangerous area. For stress detection, the deformation detector is used to detect the deformation of the protective device in the dangerous area, the distance detector is used to detect the distance between the tourists and the protective device in the dangerous area, and the acquisition sub-station is used to detect the image collector and the stress detector. , The deformation ...

Embodiment 2

[0031]The image data collected by the image collector is separately transmitted between the data transfer unit and the monitoring terminal through the real-time transmission protocol (RTP). Interactive video audio or analog data over a broadcast or unicast network service. Applications typically run RTP over UDP in order to use its multi-node and checksum services; both protocols provide the functionality of a transport-layer protocol. But RTP can be used with other suitable underlying network or transport protocols. If the underlying network provides multicast, then RTP can use this multicast table to transmit data to multiple destinations. RTP itself does not provide on-time delivery mechanism or other quality of service (QoS) guarantees, it relies on the underlying services to achieve this process. RTP does not guarantee delivery or prevent out-of-order delivery, nor does it determine the reliability of the underlying network. RTP implements in-order delivery. The sequen...

Embodiment 3

[0042] Preferably, as figure 2 shown,

[0043] The image collector is arranged in the cross-sectional view of the glass trestle, the protective device is a glass trestle guardrail, and the height of the image collector is set to the same height position as the glass trestle guardrail, and the image processing module is pre-implanted with an image Recognition algorithms and models of people and protective devices, which identify tourists and protective devices after receiving image data, and estimate the distance between tourists and protective devices, and the analysis control module determines the tourists and protective devices according to the monitoring data of the distance detector. When the distance between them is smaller than the corresponding safety distance, the analysis and control module sends out the first type of feedback information.

[0044] In the prior art, when tourists visit the glass trestle, in order to be safe, it is generally necessary to tell the tou...

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Abstract

The invention discloses a real-time monitoring system for dangerous areas of scenic spots, including a data acquisition unit, a data transfer unit, a monitoring terminal and a warning unit, and the data acquisition unit includes an image collector, a stress detector, a deformation detector, and a distance detector and the acquisition sub-station, the acquisition sub-station is separately connected with the image collector, stress detector, deformation detector and distance detector, and the data transfer unit transfers the monitoring data uploaded by the acquisition sub-station and transmits it to the monitoring terminal remotely. After receiving the monitoring data, the terminal performs data analysis and processing, and sends corresponding feedback information according to the processing results. The warning unit is connected with the data transfer unit to send corresponding warning information to tourists. When it is applied, it can realize multi-directional data monitoring of tourists and protective devices in dangerous areas of scenic spots, improve monitoring strength and efficiency, and at the same time feed back corresponding warning information to tourists according to the monitoring data processing results to improve the warning effect.

Description

technical field [0001] The invention relates to the technical field of monitoring and management of scenic spots, in particular to a real-time monitoring system for dangerous areas of scenic spots. Background technique [0002] Based on the economic growth and the improvement of living standards, tourism has increasingly become a rigid demand for life of the general public. The vigorous development of tourism has driven economic development, but also brought great pressure to the safe operation of scenic spots. The continuous increase of tourist traffic in scenic spots, the high density of tourists in popular scenic spots, the congestion of regional passenger flow, and the entry of tourists into dangerous areas have always tested the safety monitoring and management capabilities of scenic spots. How to do a good job of safety supervision has become a challenge that tourist attractions cannot avoid and must be highly valued. Although many scenic spots have built protective b...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G08B19/00G08B21/24
CPCG08B19/00G08B21/24
Inventor 周道华杨陈曾俊洪江彭容黄维李武鸿刘瑞东张明娟许江泽吴婷婷付志华刘杰詹飞程武彬杨眉
Owner 成都中科大旗软件股份有限公司
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