Disclosure of Invention
An object of the embodiments of the present application is to provide an interconnection control system and a control method in a scenic spot, so as to solve the problem of low accuracy of manual identification. The specific technical scheme is as follows:
the invention provides an interconnection control system in a scenic spot, which comprises a cloud service center server, a video monitoring subsystem, an entrance guard subsystem, an attendance checking subsystem, a patrol subsystem, a parking lot subsystem, a visual intercom subsystem and a satellite monitoring subsystem, wherein the cloud service center server is connected with the video monitoring subsystem;
the cloud service center server comprises a basic application subsystem, a database management module and an operation and maintenance subsystem;
the basic application subsystem is used for uniformly managing the user and the user authority, is respectively in communication connection with the database management module, the operation and maintenance subsystem, the video monitoring subsystem, the entrance guard subsystem, the attendance checking subsystem, the patrol subsystem, the parking lot subsystem, the visual intercom subsystem and the satellite monitoring subsystem, and is used for realizing information sharing among the subsystem modules; the shared information comprises control information issued by the cloud service center server to each subsystem module and feedback information fed back by each subsystem module to the cloud service center server;
the database management module is used for establishing an independent storage system and ensuring that all the shared information interacted on the cloud service center server is independently stored (ensuring that the shared information can still be stored when the cloud service center server of the system crashes);
the operation and maintenance subsystem is used for respectively monitoring the basic application subsystem, the database management module, the video monitoring subsystem, the entrance guard subsystem, the attendance checking subsystem, the patrol subsystem, the parking lot subsystem, the visual intercom subsystem and the satellite monitoring subsystem, analyzing and verifying feedback information uploaded by each subsystem module, judging according to the feedback information of each subsystem module, and generating alarm information when the judgment is that the safety is abnormal.
Preferably, as an implementable embodiment, the intra-scenic spot interconnection control system further includes a central display device and an intelligent terminal device; the operation and maintenance subsystem is in communication connection with the central display equipment and the intelligent terminal equipment respectively; and the operation and maintenance subsystem is used for sending the generated alarm information to the central display equipment and the intelligent terminal equipment for displaying when the feedback information of each subsystem module is found to be abnormal.
Preferably, as an implementation, the video monitoring subsystem comprises a video device, a decoding device and a video storage device; the video monitoring subsystem is used for realizing centralized management of video equipment, decoding equipment and video storage equipment, and particularly adopts a B/S architecture and C/S architecture control combination mode for centralized management;
the video monitoring subsystem is used for realizing access management operation on the video equipment and the video storage equipment, performing real-time monitoring operation on the states of the video equipment and the video storage equipment, and when the states of the video equipment and the video storage equipment are detected to be abnormal, aggregating abnormal log information corresponding to the equipment into feedback information and sending the feedback information to a cloud service center server and uploading the feedback information to a block chain; the video equipment is used for collecting videos, recording and storing the videos and retrieving and replaying the videos; the video storage device is used for storing the video adopted by the video device;
the decoding equipment decodes the video collected by the video equipment, carries out face recognition analysis on the decoded video, and assembles feedback information to the image where the current frame of the video is located, the number where the video equipment is located and the number where the video storage equipment is located to the cloud service center server and uplink to the block chain after finding that the face recognition in the image of the current video matches with the image in the face image library of the suspicious person issued by the cloud service center server.
Preferably, as an implementable embodiment, the access control subsystem comprises a face recognition access control device, a card swiping access control device, an access control router and an access control panel; the access control panel is used for monitoring the states of the face recognition access control equipment, the card swiping access control equipment and the access router in real time, and when the abnormal state of the equipment is detected, the abnormal log information corresponding to the equipment is gathered into feedback information and sent to the cloud service center server and linked to the block chain;
the face recognition access control equipment and the card swiping access control equipment are connected with the control panel through the access router; the card swiping access control equipment is also connected with a camera, and the camera is used for people passing through the card swiping access control equipment in real time; the camera is further used for calling a follow-up event video of personnel passing through the card swiping access control equipment after the follow-up event is sent by the control panel and confirmed as the follow-up event, simultaneously capturing a plurality of image pictures in the follow-up event video, and collecting feedback information of the plurality of image pictures to be sent to the cloud service center server and be linked to the block chain;
the control panel is used for comparing the access control card swiping times of the card swiping access control equipment with the personnel times passing through the card swiping access control equipment in real time; when the number of times of swiping the card of the entrance guard in a preset period is found to be inconsistent with the number of times of the personnel passing through the card swiping entrance guard equipment, determining that a following event of the personnel occurs, and sending a calling control instruction to a camera so that the camera executes video operation of calling the following event of the personnel passing through the card swiping entrance guard equipment;
the cloud service center server is used for storing the image pictures in the following events; the cloud service center server is also used for carrying out face recognition analysis on the image picture in the following event and the face image library of the suspicious person, and determining the image picture as a target suspicious person image after finding that the image picture in the current following event is matched with the image in the face image library of the suspicious person issued by the cloud service center server; identifying the number of the current camera, identifying the shooting time point of the camera, taking the time of subtracting the preset range from the shooting time point of the current camera as the lower limit of the search time point, and taking the time of adding the preset range from the shooting time point of the current camera as the upper limit of the search time point; calling a shooting position point of the camera, and taking a preset radius range of a current shooting time point of the camera as a search range;
the cloud service center server is used for sending a consultation instruction and a target suspicious person image to all the video monitoring subsystems and the face recognition access control equipment within a preset radius range of a shooting time point of the current camera; the video monitoring subsystem and the face recognition entrance guard equipment receive the collaborative checking instruction, then carry out active face recognition on the video collected by the equipment within the time range from the lower limit of the searching time point to the upper limit of the searching time point, detect whether the image of the self-shot video is matched with the image of the target suspicious person issued by the cloud service center server, and if the image is matched, assemble the number of the self-shot video into feedback information and send the feedback information to the cloud service center server and uplink the feedback information to the block chain.
The cloud service center server is used for sending a collaborative check instruction to all the card swiping access control devices within a preset radius range of a shooting time point of the current camera; and all the card swiping access control devices in the preset radius range are used for calling all videos collected by the device in the time range from the lower limit of the search time point to the upper limit of the search time point to be sent to the cloud service center server and to be linked to the block chain.
Preferably, as an implementable embodiment, the attendance subsystem comprises an attendance control system, a plurality of attendance machines; the attendance control system is used for realizing access management operation on a plurality of attendance machines, carrying out real-time monitoring operation on the states of the plurality of attendance machines, and when detecting that the states of the plurality of attendance machines are abnormal, gathering abnormal log information corresponding to the equipment into feedback information and sending the feedback information to the cloud service center server and uploading the feedback information to the block chain;
the cloud service center server is used for sending specific control information to different attendance machines; the control information comprises the number of people needing attendance checking of the current attendance checking machine, an attendance checking personnel list, definition of set time period and shift, personnel scheduling information (including the conditions of shift change and 24-hour cross-shift work change), attendance checking rule information and holiday definition information; the attendance machine is used for identifying attendance information of current attendance personnel in real time, calling attendance card swiping records of the current attendance personnel when the attendance information of the current attendance personnel is found to be abnormal, summarizing the attendance card swiping records of the attendance personnel of other abnormal attendance personnel of the attendance machine to form a report, and summarizing the report into feedback information to be sent to the cloud service center server and to be linked to the block chain.
Preferably, as an implementable embodiment, the patrol subsystem comprises a patrol control system, a plurality of patrol robots; the inspection subsystem is used for realizing access management operation on a plurality of inspection robots, carrying out real-time monitoring operation on the states of the inspection robots, and when the inspection robots are detected to be abnormal, gathering abnormal log information corresponding to the equipment into feedback information and sending the feedback information to the cloud service center server and uplink the feedback information to the block chain;
the cloud service center server is used for sending specific control information to different patrol robots; the control information comprises a patrol route of the current patrol robot, an electronic map corresponding to the patrol route, key region patrol GPS position point information, patrol duration information of each key region patrol GPS position point, images in a suspicious person face image library and patrol broadcast information; the inspection robot is used for identifying an electronic map corresponding to an inspection path and driving according to the analyzed inspection path; the patrol robot is also used for carrying out patrol of key areas according to the key area patrol GPS position point information and the patrol duration information of each key area patrol GPS position point, and broadcasting patrol broadcast information in a voice broadcasting mode in real time;
the inspection robot is also provided with a laser radar scanner, and the inspection robot scans surrounding objects and personnel through the laser radar scanner and avoids the objects and the personnel on the inspection path;
the inspection robot is provided with a face recognition camera device; the inspection robot is used for being in real time the head image of shooting personnel on the inspection path, after the head image of the shooting personnel is found to be consistent with the image matching in the suspicious personnel face image library issued by the cloud service center server, the current position information of the inspection robot is gathered, the head image of the shooting personnel is sent to the cloud service center server and is linked up to the block chain, the current suspicious personnel are tracked and shot, and meanwhile, the follow-up tracking path of the inspection robot is gathered into feedback information and sent to the cloud service center server and is linked up to the block chain.
Preferably, as an implementation scheme, the parking lot subsystem comprises a camera barrier gate display all-in-one machine, a vehicle detection coil, an entrance and exit control execution mechanism and a parking lot control system;
the camera barrier gate display all-in-one machine is electrically connected with the vehicle detection coil and the entrance and exit control execution mechanism respectively; the camera barrier gate display all-in-one machine is used for identifying an IC card, a radio frequency card and a license plate, receiving configuration information control issued by a parking lot control system, verifying the identification of the IC card, the radio frequency card and the license plate and ensuring that the vehicles enter and exit according to the evidence; the entrance and exit control actuating mechanism comprises electric control equipment, a car stopper and an alarm indicating device; the electric control equipment is respectively electrically connected with the car stopper and the alarm indicating device;
the parking lot control system is used for monitoring the states of the gateway display integrated machine, the vehicle detection coil and the entrance and exit control executing mechanism in real time, and when the abnormal state of the equipment is detected, abnormal log information corresponding to the equipment is collected into feedback information which is sent to the cloud service center server and linked to the block chain;
the cloud service center server is used for sending specific control information to the camera barrier display all-in-one machine; the control information comprises configuration information of the camera barrier display all-in-one machine, the opening time length of the entrance and exit control executing mechanism, the opening height, the adjacent opening interval time length, a starting instruction of the car stopper and a starting instruction of the alarm indicating device; the cloud service center server is used for sending license plate identification information of suspicious vehicles to the camera barrier display all-in-one machine, sending a starting instruction of the car stopper to the current camera barrier display all-in-one machine to realize blocking of the current suspicious vehicles and sending a starting instruction of the alarm indicating device to the current camera barrier display all-in-one machine after the camera barrier display all-in-one machine identifies the license plate identification information of the suspicious vehicles; the parking lot control system is further used for summarizing the number of the camera barrier display all-in-one machine and the position information of the camera barrier display all-in-one machine into feedback information, sending the feedback information to the cloud service center server and chaining the feedback information to the block chain.
Preferably, as an implementation scheme, the visual intercom subsystem comprises a plurality of visual intercom devices and an intercom control system; the talkback control system is used for realizing access management operation on a plurality of visual talkback devices, carrying out real-time monitoring operation on the states of the visual talkback devices, and when the states of the visual talkback devices are detected to be abnormal, collecting abnormal log information corresponding to the devices into feedback information and sending the feedback information to the cloud service center server and uplink the feedback information to the block chain;
the cloud service center server is used for sending specific control information to different visual intercom devices; the control information comprises a patrol electronic map of the current visual intercom device and images in a face image library of suspicious persons.
Preferably, as an implementable embodiment, the satellite monitoring subsystem comprises a map display module, a satellite data query module and a statistical chart module;
the map display module is used for monitoring geographic data in scenic spots and displaying a satellite simulation map formed by the geographic data through display screen equipment; the satellite simulation map formed by the geographic data supports multiple times of synchronous amplification and rapid browsing; the map display module is also used for dynamically updating the geographic data in real time and forming an updated satellite simulation map in a preset time period; the map display module is also used for providing geographic data query and online editing of different position partitions in the scenic spot; the scenic spot is divided into a plurality of position subareas by a grid;
the data query is used for carrying out real-time fuzzy query on the position partitions according to text fields provided by a user so as to obtain geographic data in the current position partitions; the geographic data comprises longitude and latitude information of a current position partition, topographic data information and satellite monitoring rainfall data information;
and the statistical chart module is used for summarizing the geographic data in the current position subarea to generate a daily report, a monthly report, a rainfall covering chart and a rain distribution chart.
The embodiment of the invention provides an interconnection control method in a scenic spot, which utilizes the interconnection control system in the scenic spot to implement control operation and comprises the following operations:
the basic application subsystem sends control information to a database management module, an operation and maintenance subsystem, a video monitoring subsystem, an entrance guard subsystem, an attendance checking subsystem, a patrol subsystem, a parking lot subsystem, a visual intercom subsystem, a satellite monitoring subsystem and a visitor subsystem;
each subsystem module executes control operation and simultaneously feeds back feedback information to the cloud service center server;
the operation and maintenance subsystem respectively monitors the basic application subsystem, the database management module, the video monitoring subsystem, the entrance guard subsystem, the attendance checking subsystem, the patrol subsystem, the parking lot subsystem, the visual intercom subsystem, the satellite monitoring subsystem and the visitor subsystem, analyzes and verifies feedback information uploaded by each subsystem module, judges according to the feedback information of each subsystem module, and generates alarm information when the judgment is that the safety is abnormal.
The embodiment of the application has the following beneficial effects:
the embodiment of the application provides an intra-scenic spot interconnection control system and a control method, wherein the intra-scenic spot interconnection control system comprises a cloud service center server, a video monitoring subsystem, an entrance guard subsystem, an attendance checking subsystem, a patrol subsystem, a parking lot subsystem, a visual intercom subsystem and a satellite monitoring subsystem;
the basic application subsystem is used for uniformly managing the user and the user authority, is respectively in communication connection with the database management module, the operation and maintenance subsystem, the video monitoring subsystem, the entrance guard subsystem, the attendance checking subsystem, the patrol subsystem, the parking lot subsystem, the visual intercom subsystem and the satellite monitoring subsystem, and is used for realizing information sharing among the subsystem modules; the shared information comprises control information issued by the cloud service center server to each subsystem module and feedback information fed back by each subsystem module to the cloud service center server; the database management module is used for establishing an independent storage system and ensuring that all the shared information interacted on the cloud service center server is independently stored;
the operation and maintenance subsystem is used for respectively monitoring the basic application subsystem, the database management module, the video monitoring subsystem, the entrance guard subsystem, the attendance checking subsystem, the patrol subsystem, the parking lot subsystem, the visual intercom subsystem and the satellite monitoring subsystem, analyzing and verifying feedback information uploaded by each subsystem module, judging according to the feedback information of each subsystem module, and generating alarm information when the judgment is that the safety is abnormal.
The system constructed by the interconnection control system in the scenic spot through the multi-function subsystem modules can have multiple angles and functions, and the safety management function is improved by combining the information interaction of the cloud service center server, so that the safety management working efficiency is improved.
Of course, not all of the above advantages need be achieved in the practice of any one product or method of the present application.
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.
Referring to fig. 1, the embodiment of the present application provides an intra-scenic spot interconnection control system, which includes a cloud service center server 10, a video monitoring subsystem 20, an entrance guard subsystem 30, an attendance checking subsystem 40, a patrol subsystem 50, a parking lot subsystem 60, a visual intercom subsystem 70, and a satellite monitoring subsystem 80;
the cloud service center server 10 includes a basic application subsystem 110, a database management module 120, and an operation and maintenance subsystem 130;
the basic application subsystem 110 is configured to perform unified management on users and user rights, and is also respectively in communication connection with the database management module 120, the operation and maintenance subsystem 130, the video monitoring subsystem 20, the access control subsystem 30, the attendance subsystem 40, the patrol subsystem 50, the parking lot subsystem 60, the video intercom subsystem 70, and the satellite monitoring subsystem 80, and is configured to enable the above subsystem modules to share information; the shared information comprises control information issued by the cloud service center server 10 to each subsystem module and feedback information fed back by each subsystem module to the cloud service center server 10;
the database management module 200 is configured to establish an independent storage system, and ensure that all the shared information interacted with the cloud service center server is stored independently (ensure that the shared information can still be stored when the cloud service center server of the system crashes); it should be noted that, in order to ensure that the shared information is stored in time, the embodiment of the present invention adopts a shared information chaining manner in addition to the conventional storage method, that is, the shared information is shared to the block chain in a ciphertext manner, and when it needs to be called, the ciphertext is analyzed to realize the analysis of the shared information, and the shared information is stored in the local storage system. When the system crashes, the database management module 200 resolves the information on the block chain and traces back the shared information, so that the calling speed of the shared information can be increased, the tracing back of the shared information is guaranteed, and the loss of the shared information caused by the storage system is avoided.
The operation and maintenance subsystem 300 is used for respectively monitoring the basic application subsystem 110, the database management module 120, the video monitoring subsystem 20, the entrance guard subsystem 30, the attendance checking subsystem 40, the patrol subsystem 50, the parking lot subsystem 60, the visual intercom subsystem 70 and the satellite monitoring subsystem 80, analyzing feedback information uploaded by each subsystem module, and generating alarm information when the feedback information of each subsystem module is determined to be abnormal.
The basic application subsystem 110: the basic application subsystem provides basic framework support and centralized management for the comprehensive security integrated system, unified management is carried out on organization and region information, unified management and configuration are carried out on personnel and card information, unified management is carried out on users and user authorities, and resource sharing, cooperative linkage and unified scheduling are achieved among all subsystem modules.
The database management module 120: the centralized management software is based on database software, the database software is a software system which can run practically and provides data for storage, maintenance and application systems, and is an aggregate of storage media, processing objects and management systems. The database software DB has the functions of storage, interception, safety guarantee and backup and is a management tool of system resource data. The database can ensure the data independence, high sharing, convenient use, reliable operation, modification and expandability of system resources and can fully describe the internal relation among data. The access process of System resources in the DB is performed under the command and scheduling of a DBMS (Database Management System), and performs corresponding operations on the Database strictly according to security policies (including System security policies, Database security policies, and user security policies).
The operation and maintenance subsystem 130: the operation and maintenance subsystem is mainly responsible for monitoring video equipment and services, acquiring equipment and service information, performing certain statistical analysis on acquired results, generating alarms, providing a reliable information source for the comprehensive security management platform, adopting B/S (browser/Server) architecture configuration, realizing state detection and display of the equipment and the server on the platform, and realizing abnormal alarms of various states, thereby satisfying the requirement of monitoring the equipment state in real time and uniformly by users.
The following describes in detail a specific architecture of the intra-scenic spot interconnection control system provided in the embodiment of the present application with reference to specific embodiments:
preferably, as an implementable embodiment, the intra-scenic spot interconnection control system further includes a central display device and an intelligent terminal device; the operation and maintenance subsystem 300 is in communication connection with the central display device and the intelligent terminal device respectively; the operation and maintenance subsystem 300 is configured to send the generated alarm information to the central display device and the intelligent terminal device for displaying when finding that the feedback information of each subsystem module is abnormal.
It should be noted that, by the above method, various abnormal state alarms can be realized, so that the user can monitor the device state in real time and in a unified manner.
Preferably, as an implementation, the video monitoring subsystem comprises a video device, a decoding device and a video storage device; the video monitoring subsystem is used for realizing centralized management of video equipment, decoding equipment and video storage equipment, and particularly adopts a B/S architecture and C/S architecture control combination mode for centralized management;
the video monitoring subsystem is used for realizing access management operation on the video equipment and the video storage equipment, performing real-time monitoring operation on the states of the video equipment and the video storage equipment, and when the states of the video equipment and the video storage equipment are detected to be abnormal, aggregating abnormal log information corresponding to the equipment into feedback information and sending the feedback information to a cloud service center server and uploading the feedback information to a block chain; the video equipment is used for collecting videos, recording and storing the videos and retrieving and replaying the videos; the video storage device is used for storing the video adopted by the video device;
the decoding equipment decodes the video collected by the video equipment, carries out face recognition analysis on the decoded video, and assembles feedback information to the image where the current frame of the video is located, the number where the video equipment is located and the number where the video storage equipment is located to the cloud service center server and uplink to the block chain after finding that the face recognition in the image of the current video matches with the image in the face image library of the suspicious person issued by the cloud service center server.
It should be noted that the video monitoring subsystem implements centralized management of video devices, decoding devices, video storage devices, and the like. The mode of combining B/S architecture configuration and C/S architecture control is adopted to realize the functions of video security equipment access management, real-time monitoring, video storage, retrieval playback, intelligent analysis, decoding, face recognition abnormal information reporting, control and the like. Through an open system architecture, comprehensive and rich product support is achieved, and an on-demand integral solution is provided for users.
Preferably, as an implementable embodiment, the access control subsystem comprises a face recognition access control device, a card swiping access control device, an access control router and an access control panel; the access control panel is used for monitoring the states of the face recognition access control equipment, the card swiping access control equipment and the access router in real time, and when the abnormal state of the equipment is detected, the abnormal log information corresponding to the equipment is gathered into feedback information and sent to the cloud service center server and linked to the block chain;
the face recognition access control equipment and the card swiping access control equipment are connected with the control panel through the access router; the card swiping access control equipment is also connected with a camera, and the camera is used for people passing through the card swiping access control equipment in real time; the camera is further used for calling a follow-up event video of personnel passing through the card swiping access control equipment after the follow-up event is sent by the control panel and confirmed as the follow-up event, simultaneously capturing a plurality of image pictures in the follow-up event video, and collecting feedback information of the plurality of image pictures to be sent to the cloud service center server and be linked to the block chain;
the control panel is used for comparing the access control card swiping times of the card swiping access control equipment with the personnel times passing through the card swiping access control equipment in real time; when the number of times of swiping the card of the entrance guard in a preset period is found to be inconsistent with the number of times of the personnel passing through the card swiping entrance guard equipment, determining that a following event of the personnel occurs, and sending a calling control instruction to a camera so that the camera executes video operation of calling the following event of the personnel passing through the card swiping entrance guard equipment; it should be noted that, in the specific technical scheme, the following event can be processed by using the above method, the unintelligent problem of the card swiping access control equipment is avoided, and the safety of the intelligent scenic spot is improved;
the cloud service center server is used for storing the image pictures in the following events; the cloud service center server is also used for carrying out face recognition analysis on the image picture in the following event and the face image library of the suspicious person, and determining the image picture as a target suspicious person image after finding that the image picture in the current following event is matched with the image in the face image library of the suspicious person issued by the cloud service center server; identifying the number of the current camera, identifying the shooting time point of the camera, taking the time of subtracting the preset range from the shooting time point of the current camera as the lower limit of the search time point, and taking the time of adding the preset range from the shooting time point of the current camera as the upper limit of the search time point; calling a shooting position point of the camera, and taking a preset radius range of a current shooting time point of the camera as a search range;
the cloud service center server is used for sending a consultation instruction and a target suspicious person image to all the video monitoring subsystems and the face recognition access control equipment within a preset radius range of a shooting time point of the current camera; the video monitoring subsystem and the face recognition entrance guard equipment receive the collaborative checking instruction, then carry out active face recognition on the video collected by the equipment within the time range from the lower limit of the searching time point to the upper limit of the searching time point, detect whether the image of the self-shot video is matched with the image of the target suspicious person issued by the cloud service center server, and if the image is matched, assemble the number of the self-shot video into feedback information and send the feedback information to the cloud service center server and uplink the feedback information to the block chain.
The cloud service center server is used for sending a collaborative check instruction to all the card swiping access control devices within a preset radius range of a shooting time point of the current camera; all the card swiping access control devices in the preset radius range are used for calling all videos collected by the device in the time range from the lower limit of the searching time point to the upper limit of the searching time point to be sent to a cloud service center server and uplink to a block chain; it should be noted that, in a specific technical scheme, because the card swiping access control device does not have an active face recognition function, face recognition cannot be actively realized, and only the cloud service center server sends a collaborative query instruction, which summarizes all videos and feeds back the videos to the cloud service center server.
It should be noted that, in the specific technical solution of the embodiment of the present invention, the access control subsystem is a digital management system for managing the entrance and exit of people. The entrance guard subsystem mainly solves the entrance and exit safety problem of important places, has the idea of unified management, and simultaneously takes an all-purpose card platform as a basis, adopts a mode of combining B/S architecture configuration and C/S architecture control, so that a configuration end can greatly meet the experience requirement of a user on convenient operation, carries out integrated management on entrance guard resources, cards, personnel, authority and the like, and realizes the ingenious fusion of physical concepts and logical concepts by taking a center and an area as a unit. The control client side performs unified operation management on the access control resources and realizes centralized management on events, so that the safety requirements of users on the access are met, and a unified, centralized and systematic management solution is realized.
Preferably, as an implementable embodiment, the attendance subsystem comprises an attendance control system, a plurality of attendance machines; the attendance control system is used for realizing access management operation on a plurality of attendance machines, carrying out real-time monitoring operation on the states of the plurality of attendance machines, and when detecting that the states of the plurality of attendance machines are abnormal, gathering abnormal log information corresponding to the equipment into feedback information and sending the feedback information to the cloud service center server and uploading the feedback information to the block chain;
the cloud service center server is used for sending specific control information to different attendance machines; the control information comprises the number of people needing attendance checking of the current attendance checking machine, an attendance checking personnel list, definition of set time period and shift, personnel scheduling information (including the conditions of shift change and 24-hour cross-shift work change), attendance checking rule information and holiday definition information; the attendance machine is used for identifying attendance information of current attendance personnel in real time, calling attendance card swiping records of the current attendance personnel when the attendance information of the current attendance personnel is found to be abnormal, summarizing the attendance card swiping records of the attendance personnel of other abnormal attendance personnel of the attendance machine to form a report, and summarizing the report into feedback information to be sent to the cloud service center server and to be linked to the block chain.
It should be noted that, above-mentioned attendance subsystem is based on attendance machine and access control machine, carries out attendance calculation according to the data of punching the card, and the design has realized each attendance demand function, wherein includes: the system has the functions of time period and shift definition, personnel shift (including the conditions of shift change and 24-hour cross-shift work change), attendance rule and holiday definition, card swiping record and attendance result query, attendance adjustment, report and the like.
Preferably, as an implementable embodiment, the patrol subsystem comprises a patrol control system, a plurality of patrol robots; the inspection subsystem is used for realizing access management operation on a plurality of inspection robots, carrying out real-time monitoring operation on the states of the inspection robots, and when the inspection robots are detected to be abnormal, gathering abnormal log information corresponding to the equipment into feedback information and sending the feedback information to the cloud service center server and uplink the feedback information to the block chain;
the cloud service center server is used for sending specific control information to different patrol robots; the control information comprises a patrol route of the current patrol robot, an electronic map corresponding to the patrol route, key region patrol GPS position point information, patrol duration information of each key region patrol GPS position point, images in a suspicious person face image library and patrol broadcast information; the inspection robot is used for identifying an electronic map corresponding to an inspection path and driving according to the analyzed inspection path; the patrol robot is also used for carrying out patrol of key areas according to the key area patrol GPS position point information and the patrol duration information of each key area patrol GPS position point, and broadcasting patrol broadcast information in a voice broadcasting mode in real time;
the inspection robot is also provided with a laser radar scanner, and the inspection robot scans surrounding objects and personnel through the laser radar scanner and avoids the objects and the personnel on the inspection path;
the inspection robot is provided with a face recognition camera device; the inspection robot is used for being in real time the head image of shooting personnel on the inspection path, after the head image of the shooting personnel is found to be consistent with the image matching in the suspicious personnel face image library issued by the cloud service center server, the current position information of the inspection robot is gathered, the head image of the shooting personnel is sent to the cloud service center server and is linked up to the block chain, the current suspicious personnel are tracked and shot, and meanwhile, the follow-up tracking path of the inspection robot is gathered into feedback information and sent to the cloud service center server and is linked up to the block chain.
It should be noted that, in the specific technical solution of the present invention, the patrol sub-system can implement mobile monitoring (mobile monitoring alarm), fixed point monitoring, flexible configuration of patrol routes, and periodic arrangement of patrol personnel to patrol routes, thereby implementing effective and timely supervision and management of patrol work. The patrol management can realize functions of video association, alarm linkage, electronic maps, reports and the like of patrol points, and realize automatic operation, omnibearing scheduling and visual display of patrol work. Support punctual, early patrol, night patrol, leak patrol and repair leak patrol five kinds of inspection incident types, can dispose multiple linkage warning at the incident center, the linkage mode includes: client linkage, video linkage, cradle head linkage, image capturing linkage, television wall linkage, I/O output linkage, door opening linkage, short message linkage, mail linkage and plan linkage.
Preferably, as an implementation scheme, the parking lot subsystem comprises a camera gateway display all-in-one machine, a vehicle detection coil (used for identifying and detecting an entering vehicle and triggering the camera gateway display all-in-one machine to implement work if the vehicle is detected to pass in advance), an entrance and exit control execution mechanism and a parking lot control system;
the camera barrier gate display all-in-one machine is electrically connected with the vehicle detection coil and the entrance and exit control execution mechanism respectively; the camera barrier gate display all-in-one machine is used for identifying an IC card, a radio frequency card and a license plate, receiving configuration information control issued by a parking lot control system, verifying the identification of the IC card, the radio frequency card and the license plate and ensuring that the vehicles enter and exit according to the evidence; the entrance and exit control actuating mechanism comprises electric control equipment, a car stopper and an alarm indicating device; the electric control equipment is respectively electrically connected with the car stopper and the alarm indicating device;
the parking lot control system is used for monitoring the states of the gateway display integrated machine, the vehicle detection coil and the entrance and exit control executing mechanism in real time, and when the abnormal state of the equipment is detected, abnormal log information corresponding to the equipment is collected into feedback information which is sent to the cloud service center server and linked to the block chain;
the cloud service center server is used for sending specific control information to the camera barrier display all-in-one machine; the control information comprises configuration information of the camera barrier display all-in-one machine, the opening time length of the entrance and exit control executing mechanism, the opening height, the adjacent opening interval time length, a starting instruction of the car stopper and a starting instruction of the alarm indicating device; the cloud service center server is used for sending license plate identification information of suspicious vehicles to the camera barrier display all-in-one machine, sending a starting instruction of the car stopper to the current camera barrier display all-in-one machine to realize blocking of the current suspicious vehicles and sending a starting instruction of the alarm indicating device to the current camera barrier display all-in-one machine after the camera barrier display all-in-one machine identifies the license plate identification information of the suspicious vehicles; the parking lot control system is further used for summarizing the number of the camera barrier display all-in-one machine and the position information of the camera barrier display all-in-one machine into feedback information, sending the feedback information to the cloud service center server and chaining the feedback information to the block chain.
In the specific technical scheme of the invention, the parking lot control system establishes a set of background service management system for fixed vehicle information and non-fixed vehicle information management and functions of vehicle in-out data summarization, issuing and the like. The camera barrier gate displays that the all-in-one machine can accurately record and recognize the license plate number, ensures that the vehicles can enter and exit according to the ground, can enter and exit in a controllable manner, and enhances the high-efficiency and safety management of the parking lot because the vehicles in the scenic spot quickly pass through the electric vehicle stopper. Meanwhile, the system also ensures that the vehicle quickly passes through the barrier gate, and supports the efficient and safe operation of the parking lot. Through the induction and the car searching function, a car owner of an unfixed parking space can conveniently and quickly find the parking space and take the car through various guide devices, and the parking experience of the car owner is optimized.
Preferably, as an implementation scheme, the visual intercom subsystem comprises a plurality of visual intercom devices and an intercom control system; the talkback control system is used for realizing access management operation on a plurality of visual talkback devices, carrying out real-time monitoring operation on the states of the visual talkback devices, and when the states of the visual talkback devices are detected to be abnormal, collecting abnormal log information corresponding to the devices into feedback information and sending the feedback information to the cloud service center server and uplink the feedback information to the block chain;
the cloud service center server is used for sending specific control information to different visual intercom devices; the control information comprises a patrol electronic map of the current visual intercom device and images in a face image library of suspicious persons.
It should be noted that the visual intercom subsystem includes two functional modules of a B/S and a C/S architecture, and provides functions of server management (VISDAG visual intercom access server, SIP communication server), equipment management (indoor unit, door phone, supervisor), authority distribution (door phone authority, supervisor video authority), information transmission and log check (intercom log, event log), visiting video call, remote configuration of access card authority, real-time door phone video, remote transmission of information, etc., which facilitates management and maintenance of equipment and provides a good solution for property management.
Preferably, as an implementable embodiment, the satellite monitoring subsystem comprises a map display module, a satellite data query module and a statistical chart module;
the map display module is used for monitoring geographic data in scenic spots and displaying a satellite simulation map formed by the geographic data through display screen equipment; the satellite simulation map formed by the geographic data supports multiple times of synchronous amplification and rapid browsing; the map display module is also used for dynamically updating the geographic data in real time and forming an updated satellite simulation map in a preset time period; the map display module is also used for providing geographic data query and online editing of different position partitions in the scenic spot; the scenic spot is divided into a plurality of position subareas by a grid;
the data query is used for carrying out real-time fuzzy query on the position partitions according to text fields provided by a user so as to obtain geographic data in the current position partitions; the geographic data comprises longitude and latitude information of a current position partition, topographic data information and satellite monitoring rainfall data information;
and the statistical chart module is used for summarizing the geographic data in the current position subarea to generate a daily report, a monthly report, a rainfall covering chart and a rain distribution chart.
Researchers find that remote monitoring can be carried out through the satellite monitoring subsystem, however, the monitoring of geographic data is particularly beneficial to safety management of scenic spots, and analysis of escape routes of suspicious people in scenic spots is facilitated, so that safety monitoring efficiency is improved.
Referring to fig. 3, an embodiment of the present invention provides an intra-scenic spot interconnection control method, which implements control operations by using the intra-scenic spot interconnection control system, and includes the following operations:
step S100: the basic application subsystem sends control information to a database management module, an operation and maintenance subsystem, a video monitoring subsystem, an entrance guard subsystem, an attendance checking subsystem, a patrol subsystem, a parking lot subsystem, a visual intercom subsystem, a satellite monitoring subsystem and a visitor subsystem;
step S200: each subsystem module executes control operation and simultaneously feeds back feedback information to the cloud service center server;
step S300: the operation and maintenance subsystem respectively monitors the basic application subsystem, the database management module, the video monitoring subsystem, the entrance guard subsystem, the attendance checking subsystem, the patrol subsystem, the parking lot subsystem, the visual intercom subsystem, the satellite monitoring subsystem and the visitor subsystem, analyzes and verifies feedback information uploaded by each subsystem module, judges according to the feedback information of each subsystem module, and generates alarm information when the judgment is that the safety is abnormal.
The operation and maintenance subsystem comprises five data layer structures which are respectively an equipment access layer, a data interaction layer, a basic application layer, a service realization layer and a service presentation layer; the first layer is an equipment access layer, the equipment access layer comprises equipment resources of each monitoring security system, such as video equipment, access control equipment, an alarm host, a disk array and other infrastructure, and a reliable, effective and stable data source is provided for system application. The second layer is a data interaction layer which comprises a comprehensive information resource library composed of a relational database, a safety data interaction middleware and the like. The method has the advantages that the operating system, the database, the security encryption and the multimedia protocol are packaged, differences are shielded, platform independence of upper-layer application is achieved, and the operating efficiency and the system compatibility are improved. The third layer is a basic application layer, and the basic application layer is responsible for providing management of all subsystems on a software framework, such as videos, alarms, all-purpose cards, parking lots, visual talkbacks and the like. The platform development design based on the basic application layer can meet the actual operation and application requirements of users, enrich the comprehensive application function of security protection and realize the unified management among subsystems. The fourth layer is a service implementation layer, the service implementation layer is responsible for providing various applications on a unified comprehensive security application software framework, the applications comprise videos, alarms, one-card cards, parking lots, visual talkback and the like, and service integration and linkage among subsystems are achieved. The fifth layer is a Service presentation layer, and displays specific services to the final user by using various services provided by the platform through a Web Service interface. The platform supports a C/S client, a B/S client, a large-screen client, a mobile phone client and an iPad client, and the experience effect of a user is met to the maximum extent. The platform meets the sharing requirements of multiple departments on video data and information data, a user-defined and targeted user interface can be adopted according to different application requirements of each using department, and each department can share all subsystem resources and information data under the authorized condition.
Based on the same technical concept, the embodiment of the present invention further provides a computer-readable storage medium, in which a computer program is stored, and the computer program, when executed by a processor, implements the steps of any one of the above methods.
In a further embodiment provided by the present invention, there is also provided a computer program product containing instructions which, when run on a computer, cause the computer to perform any of the methods of the above embodiments.
In the above embodiments, the implementation may be wholly or partially realized by software, hardware, firmware, or any combination thereof. When implemented in software, may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. When loaded and executed on a computer, cause the processes or functions described in accordance with the embodiments of the invention to occur, in whole or in part. The computer may be a general purpose computer, a special purpose computer, a network of computers, or other programmable device. The computer instructions may be stored in a computer readable storage medium or transmitted from one computer readable storage medium to another, for example, from one website site, computer, server, or data center to another website site, computer, server, or data center via wired (e.g., coaxial cable, fiber optic, Digital Subscriber Line (DSL)) or wireless (e.g., infrared, wireless, microwave, etc.). The computer-readable storage medium can be any available medium that can be accessed by a computer or a data storage device, such as a server, a data center, etc., that incorporates one or more of the available media. The usable medium may be a magnetic medium (e.g., floppy Disk, hard Disk, magnetic tape), an optical medium (e.g., DVD), or a semiconductor medium (e.g., Solid State Disk (SSD)), among others.
It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.
The above description is merely exemplary of the present application and is presented to enable those skilled in the art to understand and practice the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.