CN113537790A - Super-fusion management platform - Google Patents

Abstract

The invention relates to the field of management platforms, in particular to a super-integration management platform which comprises an infrastructure end and a platform server end. The infrastructure side comprises monitoring equipment, environment sensing equipment, computing equipment, storage equipment and network equipment, and the platform service side comprises a video screen management module, a tag adding module, a content management module and an intelligent application module. The computing device comprises an AR module and a three-dimensional orientation module, the AR module establishes a live-action map on the basis of the two-dimensional map by matching pictures shot by the monitoring device with environmental information collected by the environmental perception device, and the three-dimensional orientation module is used for computing the distance between people and objects in the live-action map. Therefore, the traditional two-dimensional map and the monitoring picture can be linked together, and the high-efficiency presentation and positioning of multi-dimensional data can be realized through one video map.

Description

Super-fusion management platform

Technical Field

The invention relates to the field of management platforms, in particular to a super-integration management platform.

Background

In the early stages of factory areas, production lines and the like of China, a video monitoring system is mostly built as a core and is matched with a fire protection system, a security system, a parking lot system and other safety precaution systems, so that a certain monitoring foundation system is formed. However, the traditional security construction mode has a plurality of problems: for example, the garden, scenic spot and factory area are mainly monitored by videos, and the video monitoring system focuses on local and detailed picture close-up shooting, so that the whole and local areas cannot be considered; the comprehensive application of the video is not deep enough, and the visualization degree of each system is not high; most of the calling of the video adopts a mode of viewing an equipment list or a two-dimensional electronic map to click and play the video, so that the operation is complex and the video is not directly viewed. Lack of data fusion among all systems, unable formation unified safety plan, the low efficiency of management and control to people, thing, line can't satisfy the requirement of monitoring situation at present stage.

At present, video monitoring systems, fire fighting systems, perimeter alarm systems, video access control systems and the like are built in most parks, scenic spots and factories, certain monitoring support systems are formed, however, corresponding cooperation mechanisms are lacked among the systems, the effect that 1+1 is larger than 2 cannot be achieved, the processes of information inquiry, correlation analysis, resource request and the like are complicated and burdensome, and the use efficiency of the system is not high. Based on this, some domestic manufacturers provide products and concepts for video monitoring system upgrade application, such as "video super fusion products", "BIM + video fusion", etc., but in the related fields of industrial industry, there is no integral platform or platform product for industrial management and intelligent application combination, and the development trend of industry and the functional and management requirements of users make the application management platform develop toward "great unity".

Disclosure of Invention

The invention aims to provide a super-fusion management platform, which solves the problems that a traditional video monitoring system, a fire fighting system, a perimeter alarm system, a video access control system and the like lack data fusion, cannot form a uniform safety plan, have low efficiency of managing and controlling people, objects and lines and cannot meet the requirements of monitoring situations at the present stage.

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

a super-convergence management platform comprises an infrastructure end and a platform service end. The infrastructure side comprises monitoring equipment, environment sensing equipment, computing equipment, storage equipment and network equipment, and the platform service side comprises a video screen management module, a tag adding module, a content management module and an intelligent application module. The network device is used for connecting the monitoring device and the environment perception device to the computing device and the storage device, connecting the computing device and the storage device to the view screen management module, the label adding module, the content management module and the intelligent application module, and connecting the monitoring device to the view screen management module. The computing device comprises an AR module and a three-dimensional orientation module, the AR module establishes a live-action map on the basis of the two-dimensional map by matching pictures shot by the monitoring device with environmental information collected by the environmental perception device, and the three-dimensional orientation module is used for computing the distance between people and objects in the live-action map. The storage device is used for storing pictures shot by the monitoring device, environment information collected by the environment sensing device and information on the live-action map. The content management module is used for sorting and classifying the video data shot by the monitoring equipment in the storage equipment and the service data collected by the environment sensing equipment, and dispatching the video data and the service data when the video data and the service data are needed to be used. The video management module is used for managing video data in the storage device and accessing pictures shot by the monitoring device. The label adding module is used for making a corresponding background label in the picture shot by the monitoring equipment. The intelligent application module is used for real-scene monitoring, warning plans, regional personnel management and control, historical scene backtracking, blind area prevention assistance, production line environment monitoring and production line safety management.

The further technical scheme is that the platform service end is based on J2EE and WPF technical framework, and uses SOA service-oriented software architecture.

According to a further technical scheme, the monitoring device comprises high-point monitoring, common monitoring and intelligent monitoring, the high-point monitoring is used for panoramic shooting at the high point, the common monitoring is used for fixed-point directional shooting and snapshot, the intelligent monitoring is used for person and object identification at the position of the gate, and the high-point monitoring, the common monitoring and the intelligent monitoring transmit shot pictures to the storage device and the computing device through the network device.

The further technical scheme is that the network equipment comprises a video access gateway and a networking gateway, the video access gateway supports compatible access of IP video coding equipment and provides quick access of third-party equipment, the networking gateway is a networking gateway which meets the national standard GB/T20181-2011 specification, and the networking gateway supports standardized cascade or interconnection among heterogeneous platforms and standardized transformation of non-national standard platforms.

The further technical scheme is that the high-point monitoring is communicated with ordinary monitoring and intelligent monitoring through a background label, and the picture in the high-point monitoring is enlarged and presented through the ordinary monitoring and the intelligent monitoring.

The further technical scheme is that the content management module realizes the third-party access data and related data query through an OPC UA interface.

The alarm plan further includes a step S1 in which the video management module detects the behavior of the person in the picture by analyzing the picture in the monitoring device. And step S2, when the person in the picture has abnormal behavior, the monitoring person is prompted by performing popup alarm at the platform server, and the monitoring equipment at the corresponding position is opened in a linkage manner. And step S3, the monitoring personnel determines whether to enter an emergency treatment plan or not through the real-time picture transmitted from the monitoring equipment.

According to a further technical scheme, the historical scene backtracking is implemented by retrieving videos and pictures shot by the monitoring device from the storage device, combining the videos and the pictures with the background tags, restoring and reconstructing the historical scene through a backtracking engine module embedded in the computing device, synchronizing time axes of all elements in the historical scene, and completing interaction and query of various information in the reconstructed historical scene.

The technical scheme is that the blind area is cooperated to prevent the blind area from being monitored in all directions without dead angles by moving monitoring equipment in a certain area through computing equipment.

Compared with the prior art, the invention has the beneficial effects that: the picture shot by the monitoring equipment is matched with the environmental information collected by the environmental sensing equipment through the AR module to establish a live-action map on the basis of the two-dimensional map, so that the previous two-dimensional map and the monitoring picture can be linked together, the efficient presentation and positioning of multi-dimensional data can be realized through one video map, and the daily operation management and safety production supervision of a plant area can be met. The unified integration and management of the factory service systems are really realized, the effect that 1+1>2 of each system is realized, and the efficiency and quality of daily production management work and safety prevention and control are improved. Through setting up intelligent application module, can get up supervisory equipment and environmental perception equipment linkage, realize outdoor scene monitoring, report an emergency and ask for help or increased vigilance plan, regional personnel management and control, historical scene backtrack, blind area are in charge of, production line environmental monitoring and production line safety control.

Drawings

Fig. 1 is a schematic diagram of a super convergence management platform according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example (b):

fig. 1 shows an embodiment of the present invention.

A super-convergence management platform comprises an infrastructure end and a platform service end. The infrastructure side comprises monitoring equipment, environment sensing equipment, computing equipment, storage equipment and network equipment, and the platform service side comprises a video screen management module, a tag adding module, a content management module and an intelligent application module. The network device is used for connecting the monitoring device and the environment perception device to the computing device and the storage device, connecting the computing device and the storage device to the view screen management module, the label adding module, the content management module and the intelligent application module, and connecting the monitoring device to the view screen management module. The computing device comprises an AR module and a three-dimensional orientation module, the AR module establishes a live-action map on the basis of the two-dimensional map by matching pictures shot by the monitoring device with environmental information collected by the environmental perception device, and the three-dimensional orientation module is used for computing the distance between people and objects in the live-action map. The storage device is used for storing pictures shot by the monitoring device, environment information collected by the environment sensing device and information on the live-action map. The content management module is used for sorting and classifying the video data shot by the monitoring equipment in the storage equipment and the service data collected by the environment sensing equipment, and dispatching the video data and the service data when the video data and the service data are needed to be used. The video management module is used for managing video data in the storage device and accessing pictures shot by the monitoring device. The label adding module is used for making a corresponding background label in the picture shot by the monitoring equipment. The intelligent application module is used for real-scene monitoring, warning plans, regional personnel management and control, historical scene backtracking, blind area prevention assistance, production line environment monitoring and production line safety management.

The platform service end is based on J2EE and WPF technology framework, and uses SOA service-oriented software architecture. The scientificity and the advancement of the application software are guaranteed from the design of the bottom layer architecture. The platform is ensured to have good expansibility, wide adaptability, strong compatibility and reliable stability; the advanced technical architecture brings good robustness, ensures that the system has the capacity of mass access and large concurrent access, and ensures that the platform can meet the technical requirement for constructing the whole informationized large integration.

The monitoring equipment comprises high-point monitoring, common monitoring and intelligent monitoring, the high-point monitoring is used for carrying out panoramic shooting at the high point, the common monitoring is used for fixed-point directional shooting and snapshot, the intelligent monitoring is used for identifying people and objects at the position of a bayonet, and the high-point monitoring, the common monitoring and the intelligent monitoring transmit shot pictures to the storage equipment and the computing equipment through the network equipment.

The high-point monitoring is communicated with the ordinary monitoring and the intelligent monitoring through the background label, and the picture in the high-point monitoring is enlarged and presented through the ordinary monitoring and the intelligent monitoring.

The AR module is used for monitoring high points, common monitoring and intelligent monitoring, the shot pictures are matched with environmental information collected by the environmental sensing equipment to establish a live-action map on the basis of the two-dimensional map, and therefore the original two-dimensional map and the monitoring pictures can be linked together. Through the fusion of the service data of a plurality of systems, the relevant data of operation management and safety prevention and control are effectively integrated, and can be visually and comprehensively monitored on a live-action map, so that the high-efficiency presentation and positioning of multi-dimensional data are realized through one video map, and the daily operation management and safety production supervision of a plant area are met. The unified integration and management of the factory service systems are really realized, the effect that 1+1>2 of each system is realized, and the efficiency and quality of daily production management work and safety prevention and control are improved. Through setting up intelligent application module, can get up supervisory equipment and environmental perception equipment linkage, realize outdoor scene monitoring, report an emergency and ask for help or increased vigilance plan, regional personnel management and control, historical scene backtrack, blind area are in charge of, production line environmental monitoring and production line safety control.

The method overcomes the defects of virtualization and planarization of the traditional two-dimensional electronic map and invisibility, integrates data information such as factory building information, road information, video monitoring resources, Internet of things sensing data and the like by taking a video as a carrier and an AR module (augmented reality technology) as a means, converges and fuses the data information into high-definition video, creates a video live-action map of a factory, converts the traditional service application taking the two-dimensional map as an inlet into live-action and scene change, enhances the service application capacity and improves the factory information management efficiency.

The traditional video monitoring application mode is changed, monitoring is divided into a high level and a low level, the high point watches the whole situation, and the low point watches the details. The factory-made high-point camera realizes the overall monitoring of scenes and a large visual field, and realizes the calling of low-point video (established original video monitoring) resources in a picture-in-picture mode in high-point videos by an intelligent tag linkage technology so as to simultaneously cover the whole and local parts of a key prevention and control area. The three-dimensional prevention and control system from top to bottom and from inside to outside is really realized.

The infrastructure end, the data resource end and the platform server end adopt a real-time interaction technology, so that the video monitoring function can be superposed into a command platform of a live-action map, the functions of video real-time retrieval, real-time zooming, front-end ball machine holder control and the like are realized, when an emergency in a video scene needs to be confirmed, the real-time interaction technology can be adopted to amplify the local position in the video to realize emergency linkage, and the identification content of the AR label is not influenced.

The computing equipment applies big data and cloud computing technology and principle, and utilizes intelligent decision making technology to extract, convert, clean and present data of each service working platform, and expression modes such as tables, diagrams and the like which are easy to be intuitively understood by leaders and managers are used for showing useful values of the data, so as to assist decision making and law enforcement inspection. The real-time monitoring of information of the existing terminal equipment in a factory and a production line and the statistics of data are realized.

The high-point monitoring can adopt a panoramic eagle eye, a high-altitude holder, a high-altitude ball and the like. The common monitoring can adopt low-point monitoring, vehicle snapshot monitoring and the like. The intelligent monitoring can adopt portrait bayonet monitoring, entrance guard bayonet monitoring, channel bayonet monitoring and the like. The environment sensing equipment can adopt a temperature and humidity sensor, a smoke sensor, a combustible gas detector, a light detector and the like. The video data comprises high-definition images, bayonet images, GPS information and the like shot by the monitoring equipment. The service data comprises environment perception data, asset management, fire fighting information, scene information, alarm information, security information and the like. And the video data and the service data form a label database after label addition is carried out through a label adding module. The basic functions of the platform server side comprise tag adding, tag inquiring, tag searching, snapshot and capture, video planning, content retrieval, map switching, external linking, system portal, one-machine three-screen, video on demand, video playback, image on-wall, alarm management, user management, log management and the like. The overall business functions of the super-fusion management platform comprise high-low monitoring linkage, high-card linkage, video patrol, personnel management and control, map switching, fire fighting linkage, video pre-planning, alarm pre-planning, peripheral screen viewing, blind area prevention, scene backtracking, environment perception, intelligent analysis, entrance guard linkage, security pre-planning, asset management and the like.

Each service of the platform server adopts a modular design, can be flexibly expanded according to the service development requirement, and the platform adopts a micro-core + plug-in technology to support the migration from a PC (personal computer), a server to a small machine and the transplantation of an operating system, thereby fully ensuring the flexibility and the expandability of the system

The platform service end supports the development and running environment of a mainstream operating system, Web middleware, database products and other third-party standard middleware products. Meanwhile, the platform server is compatible with equipment of a plurality of manufacturers at home and abroad, and provides an open third-party system docking scheme.

The platform server follows the easy-to-use principle, has friendly operation interface, has understandable prompt information, provides rich operation shortcut keys, supports a sound user verification mechanism and improves the platform access safety. In addition, the platform also supports batch configuration function, and the system configuration management is convenient and fast.

The network equipment comprises a video access gateway and a networking gateway, the video access gateway supports the compatible access of IP video coding equipment and provides the quick access of third-party equipment, the networking gateway is in accordance with the national standard GB/T20181-2011 specification, and the networking gateway supports the standardized cascade or interconnection among heterogeneous platforms and the standardized transformation of non-national standard platforms.

The content management module realizes the third party access data and related data query through an OPC UA interface.

The warning plan includes the following steps, step S1, the video management module detects the behavior of the person in the picture by analyzing the picture in the monitoring device. And step S2, when the person in the picture has abnormal behavior, the monitoring person is prompted by performing popup alarm at the platform server, and the monitoring equipment at the corresponding position is opened in a linkage manner. And step S3, the monitoring personnel determines whether to enter an emergency treatment plan or not through the real-time picture transmitted from the monitoring equipment.

Historical scene backtracking through retrieving videos and pictures shot by a monitoring device from a storage device and combining the videos and the pictures with background tags, restoring and reconstructing the historical scene through a backtracking engine module embedded in a computing device, and synchronizing time axes of all elements in the historical scene, interaction and query of various information can be completed in the reconstructed historical scene.

The blind area is cooperated to prevent, and the monitoring equipment in a certain area is moved through the computing equipment to carry out all-dimensional monitoring without dead angles. Aiming at the blind area of a certain camera, the camera images in other directions which cannot be taken into consideration by the camera are automatically calculated and called to carry out video cooperative defense. The method mainly provides an all-dimensional and dead-angle-free rapid monitoring mode for the working processes of video patrol, event tracking and the like of users. When monitoring personnel open a certain camera image to carry out video patrol in the video patrol process and want to know whether abnormal conditions exist in other directions and regions or not in the patrol process, the cameras in other directions which cannot be taken into consideration by the camera can be called out to check the abnormal conditions through the blind area defense, the problem that the visual range of a single camera is limited is solved, and the rapid monitoring without the dead angle in all directions is realized.

The platform uses a high-point video picture as a carrier, utilizes a large-range and large-scene monitoring picture acquired by high-point monitoring to realize the overall situation monitoring of a plant area, and can label the production line, buildings, roads, cameras, facilities and the like in the high-point video picture of the plant area in a live-action manner through a background video map engine and a label adding and interacting function to integrally form an intelligent video live-action map.

And (3) controlling regional personnel, constructing a video live-action map by using a high-point camera video by using a platform server to form an overall overview effect, and supporting automatic display of the falling point position of a low-point face bayonet on the video map constructed by the high-point camera to form a visual bayonet label. The picture-in-picture display of the snap-shot machine in real time is realized by linking the label with the bayonet. The high-point camera has an overview and overall grasping of the overall safe production condition of the factory area, and the detailed condition of the operating personnel in the key area of the factory area is grasped by calling the bayonet snap pictures through the picture-in-picture so as to support the visual management of the factory area on the operating personnel. Meanwhile, the platform can carry out control setting on non-factory-area operating personnel, and once the personnel are found not to belong to the factory-area operating personnel, the command dispatching desk of the platform service end is triggered to alarm and send to prompt monitoring personnel to pay key attention, and the personnel can be dispatched to intercept if necessary.

Production line environmental monitoring interconnects with environmental monitoring, acquires all kinds of sensor state information, carries out directly perceived show in the video picture in the workshop, makes things convenient for the monitoring personnel to know the environmental status in workshop more clearly, more conveniently, arranges the production activity more rationally.

The production line safety management is in butt joint with asset management, state data and information of various devices are obtained, corresponding device information labels are superposed on low-point videos in a production workshop, when the device information labels are clicked, relevant device information and the running temperature of the devices can be inquired, when the device temperature exceeds a set threshold value, the platform can automatically perform popup early warning, and monitoring personnel can accurately master the working state of the devices in the production workshop.

Although the invention has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this disclosure. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (9)

1. A super-convergence management platform is characterized by comprising an infrastructure end and a platform service end;

the infrastructure side comprises monitoring equipment, environment sensing equipment, computing equipment, storage equipment and network equipment, and the platform service side comprises a video screen management module, a tag adding module, a content management module and an intelligent application module;

the network equipment is used for connecting the monitoring equipment and the environment perception equipment to the computing equipment and the storage equipment, connecting the computing equipment and the storage equipment to the video screen management module, the label adding module, the content management module and the intelligent application module, and connecting the monitoring equipment to the video screen management module;

the computing equipment comprises an AR module and a three-dimensional orientation module, the AR module establishes a live-action map on the basis of a two-dimensional map by matching pictures shot by the monitoring equipment with environmental information collected by the environmental perception equipment, and the three-dimensional orientation module is used for computing the distance between people and objects in the live-action map;

the storage device is used for storing pictures shot by the monitoring device, environment information collected by the environment sensing device and information on a live-action map;

the content management module is used for sorting and classifying video data shot by monitoring equipment in the storage equipment and service data collected by the environment sensing equipment, and dispatching the video data and the service data when the video data and the service data are required to be used;

The video management module is used for managing video data in the storage device and accessing pictures shot by the monitoring device;

the label adding module is used for making a corresponding background label in a picture shot by the monitoring equipment;

the intelligent application module is used for real-scene monitoring, warning plans, regional personnel management and control, historical scene backtracking, blind area prevention assistance, production line environment monitoring and production line safety management.

2. The hyper-converged management platform according to claim 1, wherein: the platform service end is based on J2EE and WPF technical framework and uses SOA service-oriented software architecture.

3. The hyper-converged management platform according to claim 1, wherein: the monitoring device comprises a high-point monitor, a common monitor and an intelligent monitor, wherein the high-point monitor is used for panoramic shooting at the high point, the common monitor is used for fixed-point directional shooting and snapshot, the intelligent monitor is used for identifying people and objects at a bayonet position, and pictures shot by the high-point monitor, the common monitor and the intelligent monitor are transmitted to the storage device and the computing device through the network device.

4. The hyper-converged management platform according to claim 3, wherein: the high-point monitoring is communicated with ordinary monitoring and intelligent monitoring through the background label, and the picture in the high-point monitoring is enlarged and presented through the ordinary monitoring and the intelligent monitoring.

5. The hyper-converged management platform according to claim 1, wherein: the network equipment comprises a video access gateway and a networking gateway, the video access gateway supports the compatible access of IP video coding equipment and provides the quick access of third-party equipment, the networking gateway is a networking gateway which accords with the national standard GB/T20181-2011 specification, and the networking gateway supports the standardized cascade or interconnection between heterogeneous platforms and the standardized transformation of non-national standard platforms.

6. The hyper-converged management platform according to claim 1, wherein: the content management module realizes the third party access data and related data query through an OPC UA interface.

7. The super fusion management platform according to any one of claims 1 to 6, wherein: the alarm protocol comprises the following steps of,

step S1, the video management module analyzes the picture in the monitoring device and detects the behavior of the personnel in the picture;

step S2, when the person in the picture has abnormal behavior, the monitoring person is prompted by performing popup alarm at the platform server, and the monitoring equipment at the corresponding position is opened in a linkage manner;

and step S3, the monitoring personnel determines whether to enter an emergency treatment plan or not through the real-time picture transmitted from the monitoring equipment.

8. The super fusion management platform according to any one of claims 1 to 6, wherein: the historical scene backtracking is characterized in that videos and pictures shot by the monitoring device are called from the storage device and combined with the background tags, the historical scene is restored and reconstructed through a backtracking engine module embedded in the computing device, time axes of all elements in the historical scene are synchronous, and interaction and query of various information can be completed in the reconstructed historical scene.

9. The super fusion management platform according to any one of claims 1 to 6, wherein: the blind area is cooperated to prevent, and the monitoring equipment in a certain area is moved through the computing equipment to carry out all-dimensional monitoring without dead angles.

Images