CN110910605A

CN110910605A - Security control method for Internet of things

Info

Publication number: CN110910605A
Application number: CN201910979192.8A
Authority: CN
Inventors: 张百顺; 徐俊梅; 王晓芳; 陈滨; 张敬修; 孟小曼; 陈东东; 孙丽英; 候崇明; 李云; 孙晓军; 刘锦宁
Original assignee: Hefei University of Science and Technology
Current assignee: Hefei University of Science and Technology
Priority date: 2019-10-15
Filing date: 2019-10-15
Publication date: 2020-03-24

Abstract

The invention discloses a security control method for the Internet of things, wherein a light monitoring camera and a dark monitoring camera are adopted to monitor the same area, once the monitoring camera at the bright place works abnormally or is damaged artificially, a hidden monitoring camera matched with the monitoring camera is started to monitor, so that the situation that a monitoring blind area appears due to the abnormal work of the monitoring camera is avoided, and the comprehensive monitoring of buildings is facilitated; the environment is monitored in real time by adopting the temperature sensor, the smoke sensor and the infrared sensor, so that the occurrence of fire can be detected in time, measures are taken in time to extinguish the fire, the loss which cannot be estimated due to the spread of fire is avoided, and the safety of personnel and property in the building is ensured; when entrance guard and vehicle go out the warehouse entry, adopt identification's mode to carry out authentication to the personnel and the vehicle of cominging in and going out and the personnel in the vehicle, for entrance guard and vehicle cominging in and going out increase a safe shackle, the security is high, avoids suspicious personnel and suspicious vehicle to come in and go out the building.

Description

Security control method for Internet of things

Technical Field

The invention relates to a security control method, in particular to a security control method for the Internet of things, and belongs to the technical field of security.

Background

The security system is a system for maintaining social public safety, and is an intrusion alarm system, a video security monitoring system, an entrance and exit control system, explosion-proof safety inspection and the like which are formed by safety precaution products and other related products; or an electronic system or network of combinations or integrations of subsystems by these systems. The existing security system is to set a security network in an area to be monitored by means of comprehensive wiring and the like, arrange alarm terminals at a plurality of monitoring points, set monitoring equipment such as a monitor, a server and the like in a monitoring room, upload security data transmitted by each alarm terminal to the monitoring equipment by using the security network, store and analyze the security data by using special monitoring equipment, and upload or alarm the security data under necessary conditions.

The existing building generally achieves the security protection effect by simply adding a monitoring camera, an entrance guard, a license plate number recognition control vehicle in and out of a warehouse and a smoke sensor, the security protection system is low in security protection capability, fire hazard dangerous situations cannot be timely handled, some suspicious people and suspicious vehicles cannot be checked to enter the building, and once the camera fails, the monitoring camera cannot monitor a certain area, and a monitoring blind area easily occurs.

Disclosure of Invention

The invention provides a security control method for the Internet of things, and solves the problems that in the prior art, buildings are low in security capability, fire dangerous situations cannot be handled in time, some suspicious people and suspicious vehicles cannot be checked to enter the buildings, and monitoring blind areas are prone to occurring.

In order to solve the technical problems, the invention provides the following technical scheme:

the invention provides a security control method for the Internet of things, which comprises the following specific steps:

the method comprises the following steps: setting a security protection range, installing a plurality of monitoring cameras in the security protection range to form a monitoring module for monitoring, and simultaneously setting a fire fighting module, an access module and an entrance guard module to respectively carry out fire fighting, vehicle access and personnel access control on the building;

step two: through the Internet of things, the monitoring module, the fire fighting module, the in-out library module and the entrance guard module are respectively in real-time communication with the main control center, and the monitoring module can transmit monitored data information to the main control center for display, so that security personnel can conveniently check whether the fire fighting module, the in-out library module and the entrance guard module displayed in the monitoring camera are abnormal or not;

step three: when the monitoring module displays that one of the fire fighting module, the entrance and exit library module and the entrance guard module is abnormal, the fire fighting module, the entrance and exit library module or the entrance guard module can send information to an alarm in a master control center and an alarm at a corresponding position in a building to remind security personnel of the master control center to take remedial measures and remind personnel in the building to carry out self-protection or self-rescue work, meanwhile, the master control center carries out condition judgment through received data information, controls the fire fighting module to send an alarm signal to the fire fighting center to enable the fire fighting center to timely start the fire fighting personnel, or automatically sends the alarm signal to the police center to enable the police center to timely start the police personnel;

step four: the monitoring module, the fire fighting module, the entrance and exit library module and the entrance guard module further upload data to the cloud server platform through the Internet of things respectively, so that security personnel, a police center or a fire center can search the data conveniently, and accident reasons can be analyzed.

As a preferred technical solution of the present invention, the monitoring module is composed of a plurality of infrared monitoring cameras, a controller and a wireless communication module, a hidden monitoring camera is further provided near each monitoring camera, and the monitoring module specifically includes the following monitoring steps:

(1) the controller controls the plurality of monitoring cameras to perform monitoring work through the wireless communication module, the plurality of monitoring cameras respectively transmit monitored data to the master control center to be checked, and the monitored data are uploaded to the cloud service platform through the Internet of things;

(2) when one monitoring camera works abnormally, the controller transmits a control signal to the hidden monitoring camera nearby the abnormal monitoring camera through the wireless communication module, the hidden monitoring camera is started to start monitoring work, and the hidden monitoring camera uploads monitoring data to the cloud service platform through the Internet of things.

As a preferred technical scheme of the invention, the fire-fighting module adopts a temperature sensor, a smoke sensor and an infrared sensor to monitor the environment in real time, is also provided with a self-fire-fighting module and is used for fighting fire in small fire accidents.

As a preferred technical scheme of the invention, the fire-fighting control steps of the fire-fighting module are as follows:

(1) when a fire disaster dangerous case occurs, the temperature sensor and the smoke sensor respectively monitor high temperature and smoke, and the infrared sensor and a monitoring module camera in a monitoring module near a fire disaster source are matched for imaging to present the condition of a fire disaster site;

(2) the main control center receives a temperature signal and a smoke signal respectively transmitted by the temperature sensor and the smoke sensor, and an infrared thermal imaging video transmitted by the monitoring camera and the infrared sensor after being matched, and analyzes the received data and analyzes the current fire danger condition;

(3) the main control center judges the condition of a fire scene, if the fire scene is an explosive and flammable product, the control self-fire-fighting module can give corresponding emergency treatment measures as soon as possible to preliminarily control the fire dangerous situation, a dry powder fire-extinguishing mode is adopted to prevent the occurrence of secondary explosion or injury, the fire-fighting module also enables an alarm to give an alarm to inform security personnel in the main control center while carrying out preliminary control, transmits the dangerous situation to the fire center through the Internet of things, and requests a fire truck and professional fire fighters to be dispatched to cooperate to control the fire;

(4) if the fire extinguishing agent is a non-explosive inflammable, the alarm is given out through the alarm, and the video transmitted to the main control center by matching with the upper monitoring camera reminds security personnel in the main control center to match with upper fire control personnel and carry fire extinguishers around the fire to extinguish the fire;

(5) the fire fighting module can also transmit the monitored data and video to the cloud server platform through the Internet of things, fire fighters and security personnel can search fire data in the cloud server platform, analyze the reasons of fire occurrence and eliminate the hidden danger of secondary disaster.

As a preferred technical scheme of the invention, the self-fire-fighting module comprises manual fire fighting and active fire fighting, wherein the manual fire fighting comprises a fire hydrant and a fire extinguisher, and the active fire fighting comprises a ceiling surface fire hydrant and a sprinkler head.

As a preferred technical scheme of the invention, the entrance guard module adopts a card swiping access mode and is matched with an identity verification mode using face recognition, fingerprint recognition or voice recognition, the entrance guard can be removed only after the card swiping is successful and the identity verification of a card holder is correct, the entrance guard can not be removed normally, once the card swiping is incorrect or the identity verification is not correct, an alarm device in the entrance guard module alarms to remind security personnel to carry out personnel detection, a monitoring camera in the monitoring module can also monitor the entrance guard module and transmit a monitoring video to a master control center, so that the security personnel in the master control center can send an alarm signal to a police center in time.

As a preferred technical scheme of the invention, the garage entering and exiting module mainly identifies the license plate number of vehicles coming and going and verifies the identity of a driver, checks the entrance and exit of suspicious vehicles and suspicious personnel, and can normally enter and exit the garage only after the license plate number is identified correctly and the identity of the driver is verified successfully.

As a preferred technical scheme of the invention, a monitoring camera in the monitoring module also monitors vehicles and drivers who come in and go out of the in-out library module, when the license plate number is incorrectly identified and the driver identity verification is not in accordance, an alarm in the in-out library module is triggered to alarm, security personnel at the side of the in-out library is reminded to check, suspicious signals are sent to the main control center through the Internet of things, the security personnel at the main control center are reminded to monitor the vehicles and the personnel needing to come out of the library through monitoring, alarm signals are sent to the police service center if necessary, and the in-out library module also adopts a face identification mode to verify the identity of the driver.

The invention has the following beneficial effects: compared with the prior art, the security control method for the Internet of things has the following beneficial effects:

1. the security control method can comprehensively monitor the building, eliminate suspicious people and vehicles from entering the building, and timely rescue the fire disaster dangerous situation in the building, so as to avoid economic loss and personnel injury caused by the increased fire of the building, and has strong security capability and high safety, thereby being convenient for adoption and popularization.

2. The security control method of the invention adopts the light and dark monitoring cameras to monitor the same area, once the monitoring camera at the bright place works abnormally or is damaged artificially, the hidden monitoring camera matched with the monitoring camera is started to monitor, thereby avoiding the situation that the monitoring blind area occurs due to the abnormal work of the monitoring camera, being beneficial to monitoring buildings comprehensively, being beneficial to the security personnel or the police personnel to check the monitoring video of the area and providing beneficial evidence for the security or the police work.

3. The security control method also adopts the temperature sensor, the smoke sensor and the infrared sensor to monitor the environment in real time, can detect the occurrence of fire in time, and takes measures to extinguish the fire in time, thereby avoiding the loss which can not be estimated caused by the spread of the fire, and being beneficial to ensuring the personnel safety and property safety in the building.

4. According to the security control method, when the entrance guard and the vehicle enter and exit the garage, the identity of the person entering and exiting the garage, the vehicle and the person in the vehicle are verified in an identity recognition mode, a safety shackle is added for entrance guard and vehicle entering and exiting, the entrance guard and vehicle entering and exiting safety is improved, and suspicious people and suspicious vehicles are prevented from entering and exiting the building.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a flowchart of a security control method for the internet of things according to the present invention;

FIG. 2 is a monitoring control flow chart of a security control method for the Internet of things, which is provided by the invention;

fig. 3 is a fire control flow chart of the security control method for the internet of things according to the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example 1

As shown in fig. 1, the invention provides a security control method for the internet of things, which specifically comprises the following steps:

The monitoring module adopts two monitoring camera systems of light and shade to carry out comprehensive control to the region in the building to the cooperation fire control module, the warehouse entry and exit module and the entrance guard module use, can follow four aspects of control, fire control, entrance guard and warehouse entry and exit and improve building security protection ability, guarantee the safety of personnel and property in the building.

Example 2

As shown in fig. 2, a monitoring module in the security control method for the internet of things provided by the present invention is composed of a plurality of infrared monitoring cameras, a controller and a wireless communication module, a hidden monitoring camera is further provided near each monitoring camera, and the specific monitoring steps of the monitoring module are as follows:

(2) when a certain monitoring camera works abnormally, the controller transmits a control signal to the hidden monitoring camera nearby the abnormal monitoring camera through the wireless communication module, the hidden monitoring camera is started to start monitoring work, and the hidden monitoring camera uploads monitoring data to the cloud service platform through the Internet of things.

The monitoring camera system has the advantages that the light and dark monitoring cameras are used for monitoring the same area, once the monitoring camera at the bright place works abnormally or is damaged artificially, the hidden monitoring camera matched with the monitoring camera is started to monitor, the situation that a monitoring blind area appears due to the abnormal work of the monitoring camera is avoided, comprehensive monitoring of buildings is facilitated, once an accident happens in the area, security personnel or police can check the monitoring video in the area, the reason of the accident is found, and favorable evidence is provided for security protection or police work.

The mode that entrance guard module package adopted the discrepancy of punching the card, and the cooperation uses face identification, fingerprint identification or speech recognition's authentication mode, only can remove the entrance guard after the card is successful and the card holder identity is verified correctly, normally come in and go out, in case the card is improper or authentication is not conform to, just can't remove the entrance guard, the alarm that is located entrance guard module simultaneously reports to the police, remind security protection personnel, carry out personnel and detect, and surveillance camera among the monitoring module still can keep watch on to the entrance guard module, and will monitor video transmission for the main control center, so that security protection personnel in the main control center in time send alarm signal for police service center.

The access module is mainly used for identifying license plate numbers of vehicles coming and going and verifying the identity of a driver, checking access of suspicious vehicles and suspicious personnel, and enabling the vehicles to normally access the garage only after the license plate numbers are correctly identified and the identity of the driver is successfully verified.

The monitoring camera in the monitoring module also monitors vehicles and drivers who come in and go out of the in-out library module, when license plate identification is incorrect and driver authentication is not in accordance, an alarm in the in-out library module can be triggered to alarm, security personnel beside the in-out library module are reminded to check, suspicious signals are sent to the main control center through the Internet of things, security personnel who are reminded of the main control center need to go out of the in-out library and personnel through monitoring, alarm signals are sent to the police service center if necessary, and the in-out library module also adopts a face identification mode to verify the identity of the drivers.

Example 3

As shown in fig. 3, in the security control method for the internet of things, the fire-fighting module monitors the environment in real time by using the temperature sensor, the smoke sensor and the infrared sensor, is also provided with the self-fire-fighting module, and is used for fighting fire in small fire accidents.

The fire control module comprises the following fire control steps:

(5) the fire-fighting module can also transmit monitored data and videos to the cloud server platform through the Internet of things, fire fighters and security personnel can search fire data in the cloud server platform, the reasons of fire occurrence are analyzed, and hidden dangers of secondary disasters are eliminated.

The fire fighting module comprises an artificial fire fighting module and an active fire fighting module, the artificial fire fighting module comprises a fire hydrant and a fire extinguisher, the fire hydrant and the fire extinguisher can be used manually to extinguish fire, the active fire fighting module comprises a ceiling fire hydrant and a sprinkler head, the fire hydrant can be used for providing water resources, and the sprinkler head is controlled to spray water to extinguish fire.

According to the security control method, the light and dark monitoring cameras are adopted to monitor the same area, once the monitoring camera at the bright place works abnormally or is damaged artificially, the hidden monitoring camera matched with the monitoring camera is started to monitor, the situation that a monitoring blind area appears due to abnormal work of the monitoring camera is avoided, comprehensive building monitoring is facilitated, security personnel or police personnel can check the monitoring video of the area, and favorable evidence is provided for security or police work; the environment is monitored in real time by adopting the temperature sensor, the smoke sensor and the infrared sensor, so that the occurrence of fire can be detected in time, measures are taken in time to extinguish the fire, the loss which cannot be estimated due to the spread of fire is avoided, and the safety of personnel and property in the building is ensured; when entrance guard and vehicle go out to put in storage, adopt the mode of identification to carry out authentication to personnel and vehicle and the personnel in the vehicle that go in and out, increase a safe shackle for entrance guard and vehicle access, improve the security that entrance guard and vehicle came in and out, avoid suspicious personnel and suspicious vehicle access building.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A security control method for the Internet of things is characterized by comprising the following specific steps:

2. The security control method for the internet of things according to claim 1, wherein the monitoring module is composed of a plurality of infrared monitoring cameras, a controller and a wireless communication module, a hidden monitoring camera is further arranged near each monitoring camera, and the specific monitoring steps of the monitoring module are as follows:

3. The security control method for the internet of things as claimed in claim 1, wherein the fire-fighting module monitors the environment in real time by using a temperature sensor, a smoke sensor and an infrared sensor, is further provided with an auto-fire-fighting module, and is used for fighting fire in small fire accidents.

4. The security control method for the internet of things according to claim 3, wherein the fire control steps of the fire control module are as follows:

5. The security control method for the Internet of things according to claim 4, wherein the self-fire-fighting module comprises manual fire fighting and active fire fighting, the manual fire fighting comprises a fire hydrant and a fire extinguisher, and the active fire fighting comprises a ceiling fire hydrant and a sprinkler head.

6. The security control method for the internet of things as claimed in claim 1, wherein the access control module adopts a card swiping access mode and is matched with an identity verification mode using face recognition, fingerprint recognition or voice recognition, the access control can be released only after the card swiping is successful and the identity verification of a card holder is correct, the access control cannot be released once the card swiping is incorrect or the identity verification is not correct, and meanwhile, an alarm device in the access control module gives an alarm to remind security personnel to perform personnel detection.

7. The security control method for the Internet of things according to claim 1, wherein the access module mainly identifies license plate numbers of vehicles coming and going and verifies the identity of a driver, checks access of suspicious vehicles and suspicious people, and can normally access the garage only after the license plate numbers are correctly identified and the identity of the driver is successfully verified.

8. The security control method for the Internet of things according to claim 7, wherein a monitoring camera in the monitoring module further monitors vehicles and drivers who come in and go out of the in-out library module, when license plate numbers are incorrectly identified and driver identity verification is not met, an alarm in the in-out library module is triggered to give an alarm to remind security personnel at the side of the in-out library to check, suspicious signals are sent to the main control center through the Internet of things, the security personnel at the main control center are reminded to monitor the vehicles and the personnel needing to come out of the in-out library through monitoring, and if necessary, alarm signals are sent to the police center, and the in-out library module further adopts a face identification mode to verify the identity of the drivers.