CN103685507A - Secret place intelligent management monitoring platform based on Internet of Things - Google Patents

Abstract

The invention discloses an intelligent management and monitoring platform for confidential places based on the Internet of Things, including a master control node for data processing and system control, a door lock node for access authentication, and a cabinet lock node for automatic file access , Video monitoring nodes for real-time video acquisition, site monitoring nodes for environmental monitoring, linkage alarm nodes for alarms, short-distance wireless communication networks for data transmission, network servers for data storage and remote control; The main control node and the video monitoring node are connected to the network server through the network interface, and the main control node, the door lock node, the cabinet lock node, the video monitoring node, the site monitoring node and the linkage alarm node are logically connected through the short-distance wireless communication network. The invention realizes the integration of security monitoring and file management, overcomes the disadvantages of low efficiency and high cost of the original file management system, and has the characteristics of high safety, strong maintainability, automatic access, and wide application.

Description

Intelligent management and monitoring platform for confidential places based on the Internet of Things

technical field

The invention relates to the technical field of application of the Internet of Things, in particular to an intelligent management and monitoring platform for confidential places based on the Internet of Things.

Background technique

The ITU Internet Report released by the International Telecommunication Union (ITU) defines the Internet of Things as follows: information sensing through two-dimensional code reading equipment, radio frequency identification (RFID) devices, infrared sensors, global positioning systems and laser scanners, etc. Equipment, according to the agreed protocol, connects any item to the Internet for information exchange and communication, so as to realize a network of intelligent identification, positioning, tracking, monitoring and management. Through the Internet of Things technology, the interconnection between things and things (Thing to Thing, T2T), people and things (Human to Thing, H2T), and people and people (Human to Human, H2H) is finally realized.

The security monitoring system uses optical fiber, coaxial cable or microwave to transmit video signals in its closed loop, and forms an independent and complete system from camera to image display and recording. It can reflect the monitored object in real time, vividly and truly, not only greatly extending the observation distance of the human eye, but also expanding the function of the human eye. It can replace manual monitoring for a long time in harsh environments, allowing people to see Everything that actually happened at the monitored site was recorded by a video recorder. At the same time, the alarm system equipment alarms the illegal intrusion, and the generated alarm signal is input to the alarm host, which triggers the monitoring system to record and record. Traditional security monitoring systems are usually built on the basis of wired sensor networks, so they are limited by wiring methods, installation sites, operation and maintenance, etc. At the same time, once the line is cut off, the security of the system will be greatly threatened .

The traditional access management system for files and books (attached with electronic tags) uses manual methods, using RFID read-write equipment to manually read and write electronic tags on files and books, so as to realize access to files. There are disadvantages such as low efficiency and high labor cost.

Contents of the invention

The purpose of the present invention is to overcome the shortcomings and deficiencies of the prior art, and provide an intelligent management and monitoring platform for confidential places based on the Internet of Things.

The object of the present invention is achieved through the following technical solutions:

Intelligent management and monitoring platform for confidential places based on the Internet of Things, including master control nodes for data processing and system control, door lock nodes for access authentication, cabinet lock nodes for automatic file access, and real-time video acquisition The video monitoring node for environment monitoring, the site monitoring node for environmental monitoring, the linkage alarm node for alarm, the short-distance wireless communication network for data transmission, and the network server for data storage and remote control; the master control node 1. The video monitoring node is connected to the network server through a network interface, and the main control node, door lock node, cabinet lock node, video monitoring node, site monitoring node, and linkage alarm node are logically connected through a short-distance wireless communication network.

The master control node includes a central processor, and a master control node operation interface connected to the central processor, a short message module, a short distance wireless communication module of the master control node, a network interface and a voice prompt module of the master control node. The operation interface of the main control node is realized through the keyboard and touch screen for user interaction, the SMS module is used to realize the SMS alarm function, and the short-distance wireless communication module of the main control node is used to communicate with other nodes (door lock nodes, cabinet lock nodes, video surveillance nodes) , site monitoring nodes and linkage alarm nodes) are interconnected. The main control node communicates with other nodes through the short-distance wireless communication network of the main control node. At the same time, the main control node communicates with the network server through the network interface, sends monitoring information to the network server, and receives server instructions to control the sub-node devices. The main control node is installed indoors in secret-related places to complete functions such as information collection, information processing, command sending, monitoring places and maintaining system operation.

The door lock node is used for the entrance and exit of the place, and is composed of a door lock node sensor module, an RFID module, a door lock node operation interface, a door lock node short-distance wireless communication module, an electronic lock body module, a power supply module and an MCU, and the door lock node The sensor module, the RFID module and the door lock node short-range wireless communication module are connected to the MCU through the serial port. The door lock node sensor module includes a vibration sensor, a pressure sensor and a door valve sensor, which are used to detect whether the electronic lock has been violently attacked and whether the door is opened or closed; the RFID module is composed of an RFID reader and a processor, which is used for user authentication and Detect the entry and exit of files; the door lock node operation interface is realized through the keyboard and touch screen for user identity authentication; the door lock node short-distance wireless communication module is used for data transmission between the MCU and other nodes; the power supply module is used to realize the mains 220V and Lithium battery for power storage processing. The MCU controls the opening and closing of the solenoid valve of the electronic lock according to the instructions (user password authentication, RFID authentication, and master control node instructions). When the MCU detects an emergency, it can broadcast emergency information to other sub-control nodes through the short-range wireless communication module to realize linkage Alarm handling.

Furthermore, the door lock node is used to implement password/RFID authentication and detect files being taken out/into secret places. When the authentication fails, the door lock node will be locked and alarm processing; the door lock node can pass through various The sensor comprehensively judges whether the door lock has been cracked violently, and sends an emergency message to other nodes to realize linkage alarm; the door lock node detects the file information taken out/into the confidential place through the RFID module, and the RFID reader scans the process cyclically. The electronic tag at the entrance and exit of the place is sent to the processor through the serial port. After processing by the processor, the detected electronic tag is sent to the MCU through the serial port, and the MCU sends it to the main control node; the door lock node accepts the command control of the main control node Solenoid valve opening/closing, acquisition of sensor information and device information.

The cabinet lock section is used to realize password/RFID authentication and automatic access to files in the safe. Its components are the same as the door lock node and are used for safe cabinets. The main difference is that the antennas of the RFID modules are different, and the antennas of the cabinet lock nodes are different. It is a ceramic antenna, which is placed in the inside (side and top) of the safe cabinet, and is used to detect the electronic tags in the safe cabinet and realize automatic access to files. When the user opens the cabinet lock, the MCU identifies the user's identity information through password/RFID authentication, and after the user stores or takes out the file with the electronic label in the safe, the antenna of the RFID reader passes through periodic scanning or conditions (such as closing the insurance Cabinet) to trigger scanning, and send the detected electronic label information to the processor through the serial port, the processor judges the file information stored or taken out through the algorithm and sends it to the MCU, and the MCU stores the user information and the file stored or taken out The information is transmitted to the main control node through the short-distance wireless communication network, and then the data in the network server database is updated through the main control node, so as to realize the automatic access management of the files by the user; when the authentication fails, the cabinet lock node will be locked and the Alarm processing; the cabinet lock node can comprehensively judge whether the door lock has been cracked by violence through a variety of sensors, and send emergency messages to other nodes to realize linkage alarm; the cabinet lock node detects the files stored in/out of the safe through the RFID module information and send the file information to the master control node; the cabinet lock node accepts the command of the master control node to control the opening/closing of the solenoid valve, obtain sensor information and equipment information.

Described video monitoring node is made up of relay, network camera, video monitoring node short-distance wireless communication module, video monitoring node sensor module and MCU, video monitoring node sensor module and video monitoring node short-distance wireless communication module are connected with MCU by serial port, The webcam is connected to a web server through a web interface. The video monitoring node sensor module includes infrared pyroelectric sensors and microwave sensors, which are used to detect the activities of people in the place; the video monitoring node short-range wireless communication module is used for data transmission between the MCU and other nodes; the relay controls the switch of the network camera. When the sensor of the video monitoring node detects the entry and exit of people or receives instructions from other nodes, the MCU turns on the network camera for real-time video monitoring, and transmits the video information to the network server via the Internet for data storage.

Further, when the video monitoring node detects personnel entering and leaving activities through the video monitoring node sensor module, it turns on the network camera for real-time monitoring and video recording; after the video monitoring node receives emergency instructions from other nodes, it turns on the network camera for real-time monitoring and video recording; The monitoring node turns on the network camera for video monitoring and recording during the set time period; the user performs remote video monitoring and recording through the video monitoring node after being authenticated.

The site monitoring node includes a site monitoring node sensor module, a site monitoring node short-range wireless communication module and an MCU, and the site monitoring node sensor module and the site monitoring node short-range wireless communication module are connected to the MCU through a serial port. The site monitoring node sensor module includes an infrared sensor, a temperature/humidity sensor, and a smoke sensor, which are used to monitor the activities of personnel in the site, the ambient temperature/humidity of the site, and the fire situation in the site. When the temperature/humidity or smoke is abnormal, the monitoring node will send the alarm information to the linkage alarm node and the main control node through the short-distance wireless communication module of the site monitoring node to realize on-site alarm and SMS alarm; The video surveillance node turns on the network camera for video surveillance.

The linkage alarm node includes an alarm device and a short-distance wireless communication module of the linkage alarm node. The linkage alarm node receives alarm information from other nodes through the short-distance wireless communication module of the linkage alarm node and issues an alarm.

The short-distance wireless communication network is one or more of ZigBee, bluetooth, infrared or wireless local area network 802.11.

The network server is used to implement a management platform based on C/S or B/S, and can be remotely managed and operated through a PC or an intelligent handheld terminal. Realize personnel management functions, including personnel files, access authentication control methods and permissions, query and modification, etc.; realize file management functions, including file information, process status, location binding, query and modification, etc.; realize video surveillance functions, including camera authentication connections , real-time monitoring, video recording, etc.; realize device management functions, including device files, parameter configuration, process status, historical events, etc.; realize log management functions.

The authentication method of the intelligent management and monitoring platform for secret-related places based on the Internet of Things is to divide the safes in secret-related places into multiple authority levels (such as A, B, C, and D four authority levels), and the items in the safes The permission level of the file also corresponds to the permission level of the safe, and the user is also divided into multiple permission levels (such as A, B, C, D four permission levels).

When a user enters a confidential place (dedicated reference room), RFID identity authentication (the system obtains user information from the RFID card, such as authority level C) and password authentication is performed through the door lock node at the door. After a user with authority level C enters, By entering the password of the safe, you can only open the safes with permission level C and below (C, D permission levels) and obtain the item files corresponding to the permission level, and you cannot open the safes with A and B permission levels (even if you enter The safe password of the safe is correct), and if the C authority obtains the item files of the A and B level through illegal means (violent cracking or high-level users forget to close the A and B level safes), the read and write through the RFID channel at the door When the device is connected, the system will automatically alarm.

Compared with the prior art, the present invention has the following advantages and effects:

First, compared with the existing security monitoring system, each sub-control node in this patent has a linkage alarm function, and point-to-point communication can be directly performed between sub-control nodes, and at the same time, the sub-control nodes themselves have information analysis capabilities. When the control node judges that it is an emergency, it can directly send emergency messages to other sub-control nodes in the network, so that other sub-control nodes can take corresponding preventive measures (such as locking electronic locks and safes, video recording, SMS alarm, etc.) , to prevent the spread of disasters.

Second, the existing security monitoring system needs to collect sensor information to the central processor for analysis and processing. Once the central processor is damaged, the system will not be able to continue to work, and once the line between the central processor and the alarm device is cut off, the system will also fail. Unable to continue calling the police. The sub-control nodes of this patent have information processing capabilities, so that information can be judged at the sub-control nodes, and can directly communicate with other sub-control nodes, thereby greatly reducing the dependence on the central processor.

Third, once the sensor module of the traditional security monitoring system is destroyed, the system cannot continue to work. Each sub-control node (sensor node) of the invention patent is directly connected to multiple sensors, and each sub-control node works independently of each other, and the damage of a single sensor or sub-control node does not affect the normal work of other sub-control nodes. The mechanism can greatly improve the security of the monitoring site.

Fourth, the patent of the present invention has the intelligent storage function of surveillance video. The traditional video surveillance system is 24-hour uninterrupted surveillance, and all surveillance videos are stored. The hard disk space of hundreds of gigabytes can only support video storage for a few days, which greatly increases the pressure on storage. This patent has an intelligent video storage function. When the sensor of the sub-control node of the system detects an abnormal situation, the video storage function will be turned on, or the video storage function will be turned on during the accident-prone time period (such as 24:00 to 6:00 in the morning). In other time periods, only video monitoring is performed, and no video storage is performed, thereby greatly reducing the pressure on video storage of the system, saving system overhead, and shortening the time for analyzing surveillance video.

Fifth, this patent provides a system user identity classification authentication method, which divides users, safes, and items in the safes into different permission levels, and users with low permission levels cannot open high-privilege level safes ( Even if you know the password of the electronic lock of the safe), a user with a low authority level cannot take away an item file with a high authority level (even if the item file is obtained through illegal means). In terms of access control, it can greatly improve the security of the control place.

Sixth, this patent realizes the combination of security monitoring and automatic file access management. Users store or take out items/files in the safe, and the system will automatically judge the items stored or taken out through the RFID reader in the safe. /file information, and send the items/file information deposited or withdrawn to the server, so as to realize the automatic access management of files.

Description of drawings

Fig. 1 is the system node distribution diagram of the patent of the present invention;

Fig. 2 is a general diagram of the application environment of the patent system of the present invention;

Fig. 3(a)-Fig. 3(c) are three topology diagrams of the patented ZigBee short-distance wireless communication network of the present invention;

Fig. 4 is the schematic block diagram of the circuit of the main control node of the patent of the present invention;

Fig. 5 is the circuit schematic block diagram of the patented door lock node and the cabinet lock node of the present invention;

Fig. 6 is the circuit principle block diagram of the patent video surveillance node of the present invention;

Fig. 7 is the schematic block diagram of the circuit of the monitoring node of the patent site of the present invention;

Fig. 8 is a schematic block diagram of the circuit of the patent linkage alarm node of the present invention.

Detailed ways

The present invention will be further described in detail below in conjunction with the embodiments and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

Example

As shown in Figure 1, the entire system is divided into master control nodes, door lock nodes, cabinet lock nodes, video monitoring nodes, site monitoring nodes, and joint alarm nodes according to different functional module applications. These nodes form a ZigBee communication network to realize The wireless transmission of data in secret-related places, and then the master control node is connected to the server of the local area network and the Internet through the network interface, and finally realizes the interconnection and intercommunication of the three major networks of the wireless short-range wireless communication network, the local area network, and the Internet. Each node in the monitoring site realizes mutual data communication through the ZigBee wireless network, so as to monitor and manage the entire site, including access authentication, process monitoring, intrusion identification, linkage alarm and automatic access management of files. The master control node processes the collected information (the change process of the site, the change process of the facility, the change process of the file, the intrusion alarm information, etc.), and sends it to the network server through the Internet. The network server processes the received information and stores it in the database to realize the information management of the entire system - personnel management, file management, video surveillance, equipment management, log management, etc. Users can view the situation in the site through PC client or mobile client (such as mobile phone), and perform remote monitoring and remote management.

As shown in Figure 2, the application environment of the patent of the present invention is mainly secret-related places of government secret agencies, military agencies, and enterprises and institutions. Main monitoring objects and processes: changes in environmental factors in confidential places, personnel flow, and file flow. The master control node is placed in the center of the secret-related place for system control, data exchange with the network server and receiving command control system; the door lock node is placed at the entrance and exit of the secret-related place for identity authentication of personnel entering the secret-related place and monitoring files are brought into or taken out of secret-related places; the cabinet lock node is placed on the safe in the secret-related place for identity authentication of opening the safe and automatic access to files; video surveillance nodes are placed on The location with a wide indoor view is used for video monitoring and recording of secret-related places; the place monitoring nodes are placed in different positions in secret-related places to monitor the environment (temperature, humidity, smoke, personnel activities, etc.) in secret-related places ) change; the linkage alarm node is placed in the confidential place, and is used for on-site alarming of abnormal events in the place.

In practical applications, any one of the three network topologies shown in Figure 3(a)-Figure 3(c) can be used according to different application environments, where the coordinator node is the central node of the ZigBee network (with a five-pointed star Indicated), routing nodes and terminal nodes are ZigBee network sub-nodes (indicated by big circles and small circles). In a star network, all sub-nodes directly communicate with the central node; in a mesh network, routers and coordinators, routers and routers can communicate with each other, and terminal nodes can only communicate with their parent nodes; tree networks are A special case of a mesh network in which all nodes, except those directly connected to the coordinator, communicate only indirectly with the coordinator through parent nodes.

As shown in Figure 4, the main control node of the patent of the present invention includes a central processing unit, which is connected with a touch display screen, a USB interface, an IDE interface, an audio interface, an RJ45 interface, a ZigBee communication module, a short message module and a power supply module . The ZigBee communication module is the ZigBee coordinator, through which the central processor communicates with other nodes, regularly collects monitoring information in the site, and sends instructions to control other sub-control nodes. The central processing unit is connected to the Internet through the network interface, stores the processed monitoring information in the network server database, and accepts the server's instructions to control the entire system. When the central processing unit receives the alarm information, it can send a short message alarm to the user through the short message module. The touch screen is used for user password authentication, related inquiries, menu operations and related dialogues, and displays the information of each sub-control node. The power supply module is used to realize the processing of mains 220V and lithium battery for power storage.

The main control node monitors the change process of the site environment, mainly including temperature, smoke, personnel entry and exit, etc.; the main control node monitors the change process of the facility, mainly including the physical state change of the authentication equipment lock body (mechanical, power supply, temperature, etc.) , Changes in the operation status of the lock body (illegal cracking operation), the working status of the RFID device, the working status of the camera, the working status of each node, etc.; the master control node monitors the change process of the file, mainly referring to the The monitoring of files being stored or taken out of the safe; the master control node sends the monitoring information to the network server, and controls the sub-node devices after receiving instructions from the server (parameter setting, control on/off, etc.).

As shown in Figure 5, the door lock node of the patent of the present invention is composed of user interface, sensor module, UHF RFID module, ZigBee communication module, power supply module, solenoid valve, electronic lock body, voice prompt module, MCU and so on. The user operation interface is used for user password authentication and RFID authentication, and controls the opening/closing of the solenoid valve; the sensor module mainly includes vibration sensors, pressure sensors and door valve sensors, which are used to obtain lock body vibration, pressure status and electronic lock opening/closing conditions , to judge whether the door lock has been violently opened; the UHF RFID module is composed of a UHF RFID reader and processor, and uses a channel antenna to detect at the door that files with electronic tags are brought into or out of secret-related places situation, at the same time can also carry out RFID identity authentication; ZigBee communication module is a ZigBee router, used for data transmission with other nodes.

Among them, the MCU performs password authentication and RFID authentication judgment. When the password authentication or RFID authentication fails more than 3 times, the MCU will control the solenoid valve to lock, and send an on-site alarm, and send the alarm message to the server; MCU through vibration/pressure The sensor judges whether the door lock has been opened violently. Once it is judged as violent cracking, the MCU sends an emergency message to other nodes through the ZigBee communication module (such as notifying the linkage alarm node to turn on the alarm, notifying the video monitoring node to turn on the camera, notifying the main control node to SMS alarm, etc.) to realize linkage alarm; when the files with electronic tags are brought into/out of confidential places, the UHF RFID reader will scan the electronic tags passing through the entrance and exit of the place circularly through the channel antenna at the door and It is sent to the processor through the serial port, and after processing by the processor, the detected file information is sent to the MCU through the serial port, and the MCU sends the file information to the master control node, and the master control node sends it to the network server after processing; the MCU accepts the server command Control the opening/closing of the solenoid valve, obtain sensor information and equipment information.

As shown in Figure 5, the components of the cabinet lock node are the same as those of the door lock node. The main difference is that the antenna of the UHF RFID module is different. The antenna of the cabinet lock node is a ceramic antenna, which is placed inside the safe cabinet body (side and Top), when the user unlocks the cabinet, the MCU identifies the user's identity information through password/RFID authentication, and after the user stores or takes out the file with the electronic label in the safe, the antenna of the UHF RFID reader passes through periodic scanning Or conditions (such as closing the safe) trigger scanning, and send the detected electronic label information to the processor through the serial port. The processor judges the file information stored or taken out through an algorithm and sends it to the MCU. The file information stored or retrieved is transmitted to the master control node through the short-distance wireless communication network, and then the data in the network server database is updated through the master control node, so as to realize the automatic access management of the files by the user.

As shown in Figure 6, the video monitoring node is composed of a sensor module, a network camera, a ZigBee communication module, a power supply module, and an MCU. The sensor module mainly includes infrared pyroelectric sensors and microwave sensors, which are used to obtain the status of whether there are people entering/active in the place; the network camera is used for local storage video, remote video monitoring and video recording; the ZigBee communication module is a ZigBee router, used to communicate with communicate with other nodes.

When the MCU detects the entry and exit activities of people in the place through the sensor module, or receives emergency instructions from other nodes, it can turn on the power of the network camera through the power supply module for real-time monitoring or video recording, and upload the monitoring video to the network server for storage; MCU It can be set to turn on the network camera regularly for video monitoring during the time period when accidents occur frequently (such as 0:00-7:00); the administrator needs to pass the client identity authentication to perform remote video monitoring and recording.

As shown in Figure 7, the site monitoring node is composed of infrared/microwave sensor, temperature/humidity sensor, smoke sensor, ZigBee communication module, power supply module, MCU and so on. The ZigBee communication module is a Zigbee router. The site monitoring node monitors personnel activities in the site through infrared/microwave sensors, monitors the ambient temperature/humidity in the site through temperature/humidity sensors, and monitors the fire situation in the site through smoke sensors. In addition, an interface is also reserved to accommodate the access of more sensors in the future. When the temperature or smoke exceeds a certain threshold, the MCU sends the alarm information to the linkage alarm node and the main control node through the ZigBee communication module to realize on-site alarm and SMS alarm. When detecting people's entry and exit and activities, notify the video monitoring node to turn on the network camera for video recording.

As shown in Figure 8, the linkage alarm node is composed of alarm, ZigBee communication module and MCU. The ZigBee communication module is a Zigbee router. When the linkage alarm node receives alarm information from other nodes (main control node, door lock node, cabinet lock node and video monitoring node), the MCU controls the high-power alarm to give an on-site alarm.

The above-mentioned embodiment is a preferred embodiment of the present invention, but the embodiment of the present invention is not limited by the above-mentioned embodiment, and any other changes, modifications, substitutions, combinations, Simplifications should be equivalent replacement methods, and all are included in the protection scope of the present invention.

Claims (10)

1. the concerning security matters place intelligent management monitor supervision platform based on Internet of Things, it is characterized in that, comprise the main controlled node controlled for data processing and system, for the door lock node of access registrar, for the cabinet lock node of archives automatic access, for the video monitoring node of real time video collection, for the place monitor node of environmental monitoring, for the interlock alarming node of reporting to the police, for the wireless near field communication network of transfer of data and for the webserver of data storage and Long-distance Control; Described main controlled node, video monitoring node are connected with the webserver by network interface, and main controlled node, door lock node, cabinet lock node, video monitoring node, place monitor node, interlock alarming node are connected by wireless near field communication cellular logic.

2. the concerning security matters place intelligent management monitor supervision platform based on Internet of Things according to claim 1, it is characterized in that, described main controlled node comprises central processing unit, and the main controlled node operation interface being connected with central processing unit, SMS module, main controlled node close range wireless communication module, network interface and main controlled node auditory tone cues module; Main controlled node operation interface is realized by keyboard and touch-screen, for user interactions, SMS module is used for realizing SMS alarm function, and main controlled node close range wireless communication module is for interconnecting with other nodes, and main controlled node auditory tone cues module is used for carrying out voice message; Main controlled node communicates by main controlled node close range wireless communication module and other nodes, main controlled node communicates by network interface and the webserver simultaneously, monitor message is sent to the webserver, and reception server instruction is controlled to partial node equipment.

3. the concerning security matters place intelligent management monitor supervision platform based on Internet of Things according to claim 1, it is characterized in that, described door lock node is for gateway, place, door lock node sensor assembly, RFID module, door lock nodal operation interface, door lock node close range wireless communication module, electronic lock body module, supply module and MCU, consist of, door lock node sensor assembly, RFID module and door lock node close range wireless communication module are connected with MCU by serial ports; Door lock node sensor assembly involving vibrations transducer, pressure sensor and family of power and influence's transducer, for detection of electronic lock whether be subject to brute force attack and door open and-shut mode; RFID module is comprised of rfid interrogator and processor, for user's authentication and the discrepancy situation of detection archives; Realize by keyboard and touch-screen at door lock nodal operation interface, for authenticating user identification; Door lock node close range wireless communication module is carried out transfer of data for MCU and other nodes; Supply module is for realizing civil power 220V and lithium battery for the processing of electric power storage; MCU controls the switching of the electromagnetically operated valve of electronic lock according to instruction, when MCU detects emergency, can, by door lock node close range wireless communication module broadcasting emergency information to other sub-control nodes, realize interlink warning and process.

4. according to the concerning security matters place intelligent management monitor supervision platform based on Internet of Things described in claim 1 or 3, it is characterized in that, door lock node is used for realizing password/RFID authentication and detects archives by the situation with in/out concerning security matters place, when authentification failure, the locked and processing of reporting to the police of door lock node meeting; Door lock node can comprehensively judge that whether door lock is by Brute Force by multiple sensors, and emergency message is sent to other nodes, realizes interlink warning; Door lock node detects by the archive information with in/out concerning security matters place by RFID module, rfid interrogator scan round is through the electronic tag of gateway, place and it is sent to processor by serial ports, treated device sends to MCU by the archive information detecting by serial ports after processing, and MCU sends to main controlled node again; The order that door lock node is accepted main controlled node control electromagnetically operated valve open/close, obtain sensor information and facility information.

5. the concerning security matters place intelligent management monitor supervision platform based on Internet of Things according to claim 3, it is characterized in that, cabinet lock node is used for realizing the automatic access of password/RFID authentication and safe cabinet Archives, and its building block is identical with door lock node, for safe cabinet, when user beats cabinet lock, MCU identifies subscriber identity information by password/RFID authentication, user deposits in or takes out after safe cabinet by the archives that post electronic tag, the antenna of the rfid interrogator in safe cabinet is by periodic scan or condition driver sweep, the electronic labeling information detecting is sent to processor by serial ports, processor is judged the archive information that deposits in or take out and is sent it to MCU by algorithm, MCU passes through wireless near field communication Internet Transmission to main controlled node by user profile and its archive information that deposits in or take out, by main controlled node, upgrade the data in webserver data storehouse again, thereby realize the automation access management of user to archives, when authentification failure, the locked and processing of reporting to the police of cabinet lock node meeting, cabinet lock node can comprehensively judge that whether door lock is by Brute Force by multiple sensors, and emergency message is sent to other nodes, realizes interlink warning, cabinet lock node is detected and is stored into/takes out the archive information of safe cabinet and archive information is sent to main controlled node by RFID module, the instruction that cabinet lock node is accepted main controlled node control electromagnetically operated valve open/close, obtain sensor information and facility information.

6. the concerning security matters place intelligent management monitor supervision platform based on Internet of Things according to claim 1, it is characterized in that, described video monitoring node is comprised of relay, IP Camera, video monitoring node close range wireless communication module, video monitoring node sensor assembly and MCU; Video monitoring node sensor assembly is connected with MCU by serial ports with video monitoring node close range wireless communication module, and IP Camera is connected to the webserver by network interface; Video monitoring node sensor assembly comprises pyroelectric infrared sensor and microwave remote sensor, for detection of place personnel's activity; Video monitoring node close range wireless communication module is carried out transfer of data for MCU and other nodes; The switch of Control IP Camera; When video monitoring node transducer detects personnel's turnover activity or receive other node instructions, MCU opens IP Camera and carries out real-time video monitoring, and video information is transferred to the webserver by Internet carries out data storage.

7. the concerning security matters place intelligent management monitor supervision platform based on Internet of Things according to claim 6, it is characterized in that, when video monitoring node detects personnel's turnover activity by video monitoring node sensor assembly, open IP Camera and monitor in real time, record a video; Video monitoring node receives after the emergency instruction of other nodes, opens IP Camera and monitors in real time, records a video; Video monitoring node is opened IP Camera in setting-up time section and is carried out video monitoring, video recording; User carries out monitoring remote video and video recording by video monitoring node after authentication.

8. the concerning security matters place intelligent management monitor supervision platform based on Internet of Things according to claim 1, it is characterized in that, place monitor node comprises place monitor node sensor assembly, place monitor node close range wireless communication module and MCU, and place monitor node sensor assembly is connected with MCU by serial ports with place monitor node close range wireless communication module; Place monitor node sensor assembly comprises infrared sensor, temperature/humidity sensor, Smoke Sensor, is respectively used to monitor place personnel activity, site surrounding temperature/humidity, place fire-fighting situation; When temperature/humidity or smog are when abnormal, monitor node will send to interlink warning node and main controlled node by warning message by place monitor node close range wireless communication module, realize onsite alarming and SMS alarm; When personnel's turnover activity being detected, notice video monitoring node is opened IP Camera and is carried out recording monitor.

9. the concerning security matters place intelligent management monitor supervision platform based on Internet of Things according to claim 1, it is characterized in that, interlink warning node comprises MCU, warning device and interlink warning node close range wireless communication module, interlink warning node saves by interlink warning the warning message that close range wireless communication module receives other nodes, and MCU controls alarm module and reports to the police.

10. according to the concerning security matters place intelligent management monitor supervision platform based on Internet of Things described in any one in claim 1-9, it is characterized in that, described wireless near field communication network is one or more in ZigBee, bluetooth, infrared or WLAN (wireless local area network) 802.11.

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