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Directory
Chapter 1 Overview
1.1 Status and needs
1.2 System construction goals
1.3 Application scenarios
1.3.1 Daily management of inspection personnel
1.3.2 The whole inspection process is controlled
1.3.3 Real-time scheduling of inspectors
1.3.4 Video return of inspection route
1.3.5 Daily emergency command, remote guidance and disposal
1.3.6 Circle selection and map scheduling
1.3.7 Solve the problem of unified scheduling in different regions
Chapter 2 Design Scheme
2.1 Project Overview
2.2 needs analysis
2.3 The overall design of the platform
2.3.1 Basic support platform
2.3.1.1 Network Architecture
2.3.1.2 Key technologies
2.3.1.3 Dynamic packet transmission DPT technology
2.3.1.4 MPLS
2.3.2 Data Center
2.3.2.1 Cloud Computing Data Center
2.3.2.2 Unified business database
2.3.3 Application system integration platform
2.3.4 Data sharing and exchange platform
2.3.5 Basic data management platform
2.3.6 Online Monitoring and Supervision Platform for Energy Consumption and Emissions
2.3.7 A county forestry bureau business management platform
2.4 Subsystem scheme
2.4.1 Data center construction
2.4.1.1 Data Center
2.4.2 Basic support platform construction
2.4.2.1 Management center decoration and renovation
2.4.2.2 Computer room construction
2.4.2.3 ware and server system
2.4.2.4 Basic software of the system
2.4.2.5 Network system construction
2.4.2.6 Security system construction
2.4.2.7 Computer room construction engineering equipment and cost budget
2.4.2.8 Hardware and server system equipment and cost budget
2.4.2.9 Basic software and cost budget
2.4.2.10 Network communication and security equipment and budget
2.4.2.11 Equipment and cost budget of digital monitoring system in the park
2.4.3 Application support platform construction
2.4.3.1 Data sharing and exchange platform
2.4.3.2 System Integration Platform
2.4.3.3 Basic data management platform
2.4.4 Forest Patrol Management System Design
2.4.4.1 System composition
2.4.4.1 External interface and system integration
2.4.4.2 Terminal product introduction and functions
2.4.5 Forestry Bureau business management platform
2.4.6 Visual display platform for fire protection
2.4.6.1 Construction goals
2.4.6.2 Key technologies
2.4.6.3 Technical route
2.4.6.4 GIS function and analysis
Chapter 3 System Construction Organization Design
1.1 System construction goals
How to discover the fire as quickly as possible, how to confirm the forest fire alarm, and how to judge the fire remotely are the key tasks to be done in forest fire prevention. In order to solve the real-time "visualization" and "visualization" of the forest situation within the forest area, the staff in the forest area can view the fire, smoke and other alarm information in real time remotely, so that the staff can always use the remote monitoring function of the system to monitor "Directly hit" the on-site scene in the forest area, increase the intuition and objectivity of the information obtained by the rear staff and leaders, and improve the efficiency of forest fire prevention work. At the same time, after a fire occurs, leaders at all levels and staff can monitor the situation in the fastest time through monitoring images, mobilize resources urgently, and cooperate with other departments to carry out fire-fighting operations.
This system is to provide the inspection management system for fire prevention, anti-theft, and pest prevention for the forestry protection department. Through GPS global positioning technology, it can realize strict and standardized management of forest rangers' fire prevention, anti-theft, and pest prevention work. It can pass GPS inspection device (Android smart phone) Automatically or manually report information, and support photography and video recording, and can timely feed back various events found during the inspection process to the management center, and mark the accurate longitude and latitude, in case of endangering the personal and life of forest management personnel In the event of a safe emergency, it can send an emergency signal to the police with one button, mark the exact latitude and longitude, and provide the rescuers with an accurate geographic location. And it can complete powerful functions such as the forestry bureau's own definition of inspection areas, inspection routes, inspection time, inspection personnel, shift planning, network query, remote management, and remote transmission. It is easy to use and can be used without any operation. Complete forestry patrol work.
1.2 Application scenarios
1.2.1 Daily management of inspectors
In the daily inspection work, the management personnel can realize the in-place monitoring of the equipment inspection tasks of the inspection personnel through the GPS function of the system. It can effectively manage the daily inspection work of inspection personnel, and achieve a high degree of supervision and management of the work of equipment inspection personnel.
At the same time, the management personnel can play back the daily inspection route of the inspection staff through the system's GPS track playback function, so as to achieve the supervision function of the inspection work. At the same time, it is convenient for managers to further optimize the inspection route according to the trajectory, and improve the utilization rate of manpower and material resources.
In the dispatching center, the situation of all inspection personnel in an area can be monitored at the same time, and the work status of each platform reported can be screened and sorted, so that the progress of each inspection team can be seen at a glance. And use real-time voice intercom, or text message push to uniformly dispatch all job site personnel to strengthen work coordination.
1.2.2 The whole inspection process is controlled
All kinds of business data (scheduling voice, scheduling video, real-time upload video, on-site recording and video, on-site photos, inspection GPS route, etc.) Real-time management and control of various business data generated during the inspection process, and at the same time ensure that all kinds of data can be checked in an orderly manner in the future, providing powerful data guidance for future inspection work.
When inspectors are on-site inspections, if suspicious faults are found, they can use the wireless handheld terminal to upload videos in real time or take photos, and video upload functions to let the command center know and verify the on-site situation, and contact relevant personnel for support. In this way, even in the dead corner of fixed monitoring, fast and flowing video can be shot in real time.
1.2.3 Real-time scheduling of inspectors
Using the multimedia command and dispatch system, through the unified command center and the dispatching desk of the branch, it is possible to flexibly conduct real-time patrol inspection and dispatch to each patrol personnel, and control the operation situation of each patrol inspection site at any time. Use the voice intercom function to realize the scheduling effect of responding to all staff. The timeliness of personnel scheduling is enhanced, and the collaborative work ability of various inspections is improved.
1.2.4 Video return of inspection route
In the process of daily inspection, the inspectors often need to send the video of the inspection point back to the background control center. At the same time, if the inspectors find that the inspection line is abnormal, they need to report the situation in time, so that the leaders can make timely decisions Therefore, during the inspection process, the video of the inspection line can be collected in real time by using the built-in camera of the device or through an extended external camera and sent back through the operator network.
1.2.5 Daily emergency command, remote guidance and disposal
When the inspectors find an abnormal situation, they can report the event through the system (through the cluster and video), and report the current event status to the relevant leader. The leader can make corresponding decisions through the video and voice sent back in real time from the front end. And conduct on-site or remote command to emergencies through handheld or vehicle-mounted terminals, so as to quickly complete the task of emergency repair support.
In some critical emergencies and emergency repairs, if the remote location or professionals cannot arrive at the scene in time, the on-site personnel can also use the real-time video upload function to send the real-time video of the actual situation on the spot point-to-point or point-to-multipoint. At the professional office, experts can conduct fault analysis and give corresponding shutdown or troubleshooting guidance through live video.
1.2.6 Circle selection and map scheduling
After the dispatcher logs in to the dispatching console, he can realize the circle selection on the dispatching console, and the online handheld terminals in the selected area can be displayed in the exact position, and can conduct voice, video, SMS operation.
1.2.7 Solve the problem of unified scheduling in different regions
Using the forestry inspection management system, you can control the operation of inspection personnel in various areas (without geographical restrictions) at any time in the command center. Use the voice intercom function to realize the scheduling effect of responding to all staff. The timeliness of personnel scheduling is enhanced, and the collaborative work ability of various inspection personnel is improved.
1.1 The overall design of the platform
According to the construction goals and content of the digital platform, based on the SOA specification, the overall architecture of the system is designed as shown in the figure:
Overall System Architecture
1.1.1 Basic support platform
On the basis of making full use of the existing basic software and hardware resources of government informationization, the basic sub-platform of the low-carbon digital platform is constructed, and the network communication is mainly optimized and upgraded.
1. Infrastructure: power distribution system, air conditioning fresh air system, fire alarm system, weak current control system, cabinet system and lightning protection system required for the construction of the data center computer room.
2. Monitoring equipment: the monitoring equipment required for real-time monitoring.
3. Storage equipment: provide massive data storage and backup equipment.
4. Disaster recovery system: storage backup equipment and remote disaster recovery solutions.
5. Operation and maintenance system: Real-time monitoring of system network status, hardware equipment operation and software operation to ensure stable and efficient operation of the system.
6. System software: operating system, GIS middleware, application middleware, database platform, etc.
7. Basic network: Relying on existing government network resources, establish and optimize a government information network that can cover various government management departments to achieve interconnection; build a public network that provides services for key enterprises and the public; government network and the public Between networks, according to the confidentiality requirements of urban network construction, security isolation is realized through routing, security, monitoring and other network equipment.
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