CN112364813A - Station passenger flow safety intelligent monitoring system based on machine vision - Google Patents

Abstract

The invention provides a station passenger flow safety intelligent monitoring system based on machine vision, and relates to the technical field of intelligent monitoring systems. The intelligent station passenger flow safety monitoring system based on machine vision comprises platform monitoring, hall monitoring, corner monitoring and background management; the platform monitoring, the hall monitoring and the corner monitoring are all composed of people flow monitoring, color monitoring, temperature monitoring and tracking monitoring; the people flow monitoring comprises common people flow monitoring, key people flow monitoring, regional people flow monitoring and automatic people flow calculation; the color monitoring comprises clothes color monitoring and special color key monitoring; the temperature monitoring comprises normal temperature monitoring, local temperature monitoring, human body temperature monitoring and high-temperature fire monitoring. Through designing simple people flow monitoring, color monitoring, temperature monitoring and tracking monitoring systems, the passenger flow, key personnel, temperature in the station and the movement tracks of special personnel in the station can be rapidly and automatically monitored, and the system is worthy of great popularization.

Description

Station passenger flow safety intelligent monitoring system based on machine vision

Technical Field

The invention relates to the technical field of intelligent monitoring systems, in particular to a station passenger flow safety intelligent monitoring system based on machine vision.

Background

The intelligent monitoring system adopts image processing, mode recognition and computer vision technology, filters useless or interference information of video pictures by means of powerful data processing capacity of a computer through an intelligent video analysis module added in the monitoring system, automatically recognizes different objects, analyzes and extracts key useful information in a video source, quickly and accurately positions an accident site, judges abnormal conditions in the monitored pictures, sends out an alarm or triggers other actions in a fastest and optimal mode, and therefore, the intelligent monitoring system effectively performs pre-warning, in-situ processing and timely evidence obtaining after the accident. The intelligent monitoring system is a set of intelligent systems for security protection to enter the civilization field, the system integrates two major systems of mobile phone monitoring and mobile phone anti-theft alarm, when an illegal person breaks into a forbidden zone, a system host can make a call to a specified user and send a short message or an email user can check a picture of a monitoring area by using a mobile phone or a computer at the first time when receiving a telephone short message; the alarming system eliminates the worry that the traditional monitoring system behind the cannon and the traditional alarming system falsely alarm, integrates wireless alarming accessory information such as wireless door magnetism, wireless smoke sensation and the like, and effectively improves the civilization characteristic of the monitoring system.

Along with the continuous development of science and technology, the intelligent monitoring system is continuously upgraded, the application range of the intelligent monitoring system is more and more extensive, a complete intelligent monitoring system is established for a plurality of large-scale stations and is mainly used for monitoring the passenger flow condition and the safety condition of the stations, but the existing intelligent monitoring system also has certain defects at present, the existing intelligent monitoring system can only carry out static monitoring generally, the rapid fixed-point monitoring and alarming on the dangerous hidden dangers in the stations can not be carried out rapidly, the intelligence can be checked by background personnel in real time in all weather, time and labor are wasted, the fatigue strength of the background personnel is greatly increased, and therefore a new intelligent monitoring system for the passenger flow safety of the stations based on machine vision is developed.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a station passenger flow safety intelligent monitoring system based on machine vision, which solves the problems that the existing intelligent monitoring system can only carry out static monitoring generally, can not carry out quick fixed-point monitoring and alarming on dangerous hidden dangers in a station, and can not be checked in real time all weather by background personnel, thereby wasting time and labor, and simultaneously greatly increasing the fatigue strength of the background personnel.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the intelligent monitoring system for the passenger flow safety of the station based on the machine vision comprises platform monitoring, hall monitoring, corner monitoring and background management;

the platform monitoring, the hall monitoring and the corner monitoring are all composed of people flow monitoring, color monitoring, temperature monitoring and tracking monitoring;

the people flow monitoring comprises common people flow monitoring, key people flow monitoring, regional people flow monitoring and automatic people flow calculation;

the color monitoring comprises clothes color monitoring and special color key monitoring;

the temperature monitoring comprises normal temperature monitoring, local temperature monitoring, human body temperature monitoring and high-temperature fire monitoring;

the tracking and monitoring comprises staff fixed-point monitoring, whole-process monitoring of special staff, tracking and monitoring of abnormal body temperature staff and user-defined whole-process monitoring.

Preferably, the background management is composed of a monitoring room, system monitoring hardware and background monitoring personnel.

Preferably, the human body temperature monitoring range is 35-40 ℃.

Preferably, the high-temperature fire monitoring range is more than 120 ℃.

Preferably, the high-temperature fire monitoring system further comprises a high-temperature automatic alarm system.

The operation method of the station passenger flow safety intelligent monitoring system based on machine vision comprises the following specific contents:

s1, firstly, installing corresponding monitoring probes for platform monitoring, hall monitoring and corner monitoring at an appointed installation position, and debugging and calibrating by background management after the installation is finished;

s2, the system can be put into use after calibration is completed, and corresponding monitoring probes for platform monitoring, hall monitoring and corner monitoring can perform corresponding people flow monitoring, color monitoring, temperature monitoring and tracking monitoring on passenger flow of a station;

s3, when the station pedestrian volume is large and important people or regional pedestrian volume needs to be monitored in an important mode, important pedestrian flow monitoring and regional pedestrian flow monitoring in pedestrian flow monitoring can be started, so that the important pedestrian flow monitoring and the regional pedestrian flow monitoring can be carried out by using the monitoring system, and the pedestrian flow monitoring system can also automatically calculate the pedestrian volume of the important pedestrian flow and the regional pedestrian flow, so that background management personnel can know the flowing condition of the people in the station in time;

s4, for some special personnel, the clothes color or the special color of the special personnel can be rapidly monitored and positioned according to the color monitoring in the monitoring system, so that the background manager can rapidly position the specific position and action track of the special personnel;

s5, temperature monitoring is mainly used for monitoring the temperature of a human body, the local temperature and the temperature of a high-temperature fire in a station, and fixed-point monitoring and positioning can be carried out on some abnormal body temperatures, abnormal local temperatures and high-temperature fires so as to remind background monitoring personnel of rapidly knowing the actual situation of the site, and nearby personnel can be rapidly arranged to rapidly extinguish a fire when the fire occurs;

s6, tracking and monitoring can be carried out on the whole process of tracking and monitoring the working personnel, the special personnel and the abnormal body temperature personnel, and the movement tracks of the working personnel, the special personnel and the abnormal body temperature personnel are automatically recorded, so that the background management personnel can carry out the whole process of monitoring on some special personnel, and the daily management of the whole station is facilitated;

preferably, the people flow monitoring system further comprises noise volume monitoring and people gathering density monitoring.

(III) advantageous effects

The invention provides a station passenger flow safety intelligent monitoring system based on machine vision. The method has the following beneficial effects:

1. this station passenger flow safety intelligent monitoring system based on machine vision through utilizing intelligent monitoring system, can carry out real time monitoring to the various condition in the station, has not only improved the holistic intelligence of monitored control system, also greatly reduced backstage managers's fatigue strength simultaneously.

2. This station passenger flow safety intelligence monitored control system based on machine vision through designing simple people flow control, color control, temperature control and tracking monitored control system, can carry out quick automatic monitoring to passenger flow in the station, key personnel, the interior temperature of station and special personnel's activity orbit to make its holistic work efficiency improve greatly, be worth wideling popularize.

Drawings

FIG. 1 is a schematic diagram of a system structure of an intelligent station passenger flow safety monitoring system based on machine vision according to the present invention;

FIG. 2 is a schematic structural diagram of a passenger flow monitoring system of an intelligent station passenger flow safety monitoring system based on machine vision;

FIG. 3 is a schematic structural diagram of a color monitoring system of an intelligent station passenger flow safety monitoring system based on machine vision according to the present invention;

FIG. 4 is a schematic structural diagram of a temperature monitoring system of a station passenger flow safety intelligent monitoring system based on machine vision according to the present invention;

fig. 5 is a schematic structural diagram of a tracking and monitoring system of the intelligent station passenger flow safety monitoring system based on machine vision.

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.

Example (b):

as shown in fig. 1 to 5, an embodiment of the present invention provides an intelligent station passenger flow safety monitoring system based on machine vision, which includes platform monitoring, hall monitoring, corner monitoring, and background management;

the platform monitoring, the hall monitoring and the corner monitoring are all composed of people flow monitoring, color monitoring, temperature monitoring and tracking monitoring;

the people flow monitoring comprises common people flow monitoring, key people flow monitoring, regional people flow monitoring and automatic people flow calculation;

the color monitoring comprises clothes color monitoring and special color key monitoring;

the temperature monitoring comprises normal temperature monitoring, local temperature monitoring, human body temperature monitoring and high-temperature fire monitoring;

the tracking and monitoring comprises staff fixed-point monitoring, whole-process monitoring of special staff, tracking and monitoring of abnormal body temperature staff and self-defined whole-process monitoring.

The background management comprises a monitoring room, system monitoring hardware and background monitoring personnel, and the background management personnel can perform daily management and check on the monitoring system through the monitoring system hardware.

The human body temperature monitoring range is 35-40 ℃, the infrared monitoring device is arranged in the monitoring system, the human body temperature in a station can be monitored in real time, and in a special period, a heating person can be searched as soon as possible and isolated, so that the condition of large-scale infection is avoided.

The high-temperature fire monitoring range is more than 120 ℃, when the temperature monitoring detects that the temperature of the area rises to more than 120 ℃, the temperature monitoring system can automatically give an alarm, automatically turn the direction of the probe and aim at the position of a fire source, so that background monitoring personnel can find the fire in time and organize related fire extinguishing tasks.

The high-temperature fire monitoring system also comprises a high-temperature automatic alarm system which can automatically alarm after detecting the fire so as to ensure that monitoring personnel can find the fire in time.

The operation method of the station passenger flow safety intelligent monitoring system based on machine vision comprises the following specific contents:

s1, firstly, installing corresponding monitoring probes for platform monitoring, hall monitoring and corner monitoring at an appointed installation position, and debugging and calibrating by background management after the installation is finished;

s2, the system can be put into use after calibration is completed, and corresponding monitoring probes for platform monitoring, hall monitoring and corner monitoring can perform corresponding people flow monitoring, color monitoring, temperature monitoring and tracking monitoring on passenger flow of a station;

s3, when the station pedestrian volume is large and important people or regional pedestrian volume needs to be monitored in an important mode, important pedestrian flow monitoring and regional pedestrian flow monitoring in pedestrian flow monitoring can be started, so that the important pedestrian flow monitoring and the regional pedestrian flow monitoring can be carried out by using the monitoring system, and the pedestrian flow monitoring system can also automatically calculate the pedestrian volume of the important pedestrian flow and the regional pedestrian flow, so that background management personnel can know the flowing condition of the people in the station in time;

s4, for some special personnel, the clothes color or the special color of the special personnel can be rapidly monitored and positioned according to the color monitoring in the monitoring system, so that the background manager can rapidly position the specific position and action track of the special personnel;

s5, temperature monitoring is mainly used for monitoring the temperature of a human body, the local temperature and the temperature of a high-temperature fire in a station, and fixed-point monitoring and positioning can be carried out on some abnormal body temperatures, abnormal local temperatures and high-temperature fires so as to remind background monitoring personnel of rapidly knowing the actual situation of the site, and nearby personnel can be rapidly arranged to rapidly extinguish a fire when the fire occurs;

s6, tracking and monitoring can be carried out on the whole process of tracking and monitoring the working personnel, the special personnel and the abnormal body temperature personnel, and the movement tracks of the working personnel, the special personnel and the abnormal body temperature personnel are automatically recorded, so that the background management personnel can carry out the whole process of monitoring on some special personnel, and the daily management of the whole station is facilitated;

still include noise volume monitoring and personnel's gathering density monitoring among the stream of people monitored control system, through carrying out noise volume monitoring and personnel's gathering density monitoring, can be when taking place in disorder, monitored control system can discover the condition fast.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. Station passenger flow safety intelligent monitoring system based on machine vision, its characterized in that: the method comprises the steps of platform monitoring, hall monitoring, corner monitoring and background management;

the platform monitoring, the hall monitoring and the corner monitoring are all composed of people flow monitoring, color monitoring, temperature monitoring and tracking monitoring;

the people flow monitoring comprises common people flow monitoring, key people flow monitoring, regional people flow monitoring and automatic people flow calculation;

the color monitoring comprises clothes color monitoring and special color key monitoring;

the temperature monitoring comprises normal temperature monitoring, local temperature monitoring, human body temperature monitoring and high-temperature fire monitoring;

the tracking and monitoring comprises staff fixed-point monitoring, whole-process monitoring of special staff, tracking and monitoring of abnormal body temperature staff and user-defined whole-process monitoring.

2. The station passenger flow safety intelligent monitoring system based on machine vision as claimed in claim 1, characterized in that: the background management is composed of a monitoring room, system monitoring hardware and background monitoring personnel.

3. The station passenger flow safety intelligent monitoring system based on machine vision as claimed in claim 1, characterized in that: the human body temperature monitoring range is 35-40 ℃.

4. The station passenger flow safety intelligent monitoring system based on machine vision as claimed in claim 1, characterized in that: the high-temperature fire monitoring range is more than 120 ℃.

5. The station passenger flow safety intelligent monitoring system based on machine vision as claimed in claim 1, characterized in that: the high-temperature fire monitoring system also comprises a high-temperature automatic alarm system.

6. The operation method of station passenger flow safety intelligent monitoring system based on machine vision according to any one of claims 1-5, characterized in that: the method comprises the following specific contents:

s1, firstly, installing corresponding monitoring probes for platform monitoring, hall monitoring and corner monitoring at an appointed installation position, and debugging and calibrating by background management after the installation is finished;

s2, the system can be put into use after calibration is completed, and corresponding monitoring probes for platform monitoring, hall monitoring and corner monitoring can perform corresponding people flow monitoring, color monitoring, temperature monitoring and tracking monitoring on passenger flow of a station;

s3, when the station pedestrian volume is large and important people or regional pedestrian volume needs to be monitored in an important mode, important pedestrian flow monitoring and regional pedestrian flow monitoring in pedestrian flow monitoring can be started, so that the important pedestrian flow monitoring and the regional pedestrian flow monitoring can be carried out by using the monitoring system, and the pedestrian flow monitoring system can also automatically calculate the pedestrian volume of the important pedestrian flow and the regional pedestrian flow, so that background management personnel can know the flowing condition of the people in the station in time;

s4, for some special personnel, the clothes color or the special color of the special personnel can be rapidly monitored and positioned according to the color monitoring in the monitoring system, so that the background manager can rapidly position the specific position and action track of the special personnel;

s5, temperature monitoring is mainly used for monitoring the temperature of a human body, the local temperature and the temperature of a high-temperature fire in a station, and fixed-point monitoring and positioning can be carried out on some abnormal body temperatures, abnormal local temperatures and high-temperature fires so as to remind background monitoring personnel of rapidly knowing the actual situation of the site, and nearby personnel can be rapidly arranged to rapidly extinguish a fire when the fire occurs;

s6, tracking and monitoring can be carried out on the whole process of tracking and monitoring the working personnel, the special personnel and the abnormal body temperature personnel, and the movement tracks of the working personnel, the special personnel and the abnormal body temperature personnel are automatically recorded, so that the background management personnel can carry out the whole process of monitoring on some special personnel, and the daily management of the whole station is facilitated;

7. the operation method of station passenger flow safety intelligent monitoring system based on machine vision as claimed in claim 6, characterized in that: the people flow monitoring system also comprises noise volume monitoring and personnel gathering density monitoring.

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