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1) Scenario requirements
(1) In ToC scenario, the internal space of the airport is large and there are many types of operations. In order to provide more convenient services for passengers or arrivals at the airport, it is necessary to use the map as the carrier and positioning as the driver to provide navigation, station search and other services for users at the C end.
(2) In the ToB scenario, there are a large number of staff in the airport, including both airline employees and airport employees; And many jobs at airports are highly mobile. Airports need efficient means of staff management and scheduling. There are also a large number of mobile equipment in the airport such as trolleys, ground handling vehicles, cleaning vehicles, etc. How to know the location of these mobile devices in real time and implement effective scheduling is an important aspect of airport management.
2) Solution ideas
In order to solve the application requirements of the airport in the ToC scenario and the ToB scenario, the 5G network + Bluetooth positioning fusion technology is adopted. The location information and sensing data of various information sensing devices are collected through the network. Based on the 5G network + Bluetooth system end sensing data collection, the airport's huge environment of people, objects, and environment to establish efficient connections, greatly enhancing the management of the airport platform.
3) Description of application scenarios
(1) Physicochemical information service
The physical and chemical information service is responsible for providing digital maps, POI information and navigation services based on the map, and its application is the most extensive, such as providing airport facility search, gate guidance, exit guidance, and consumption guidance for catering, shopping and entertainment venues around passengers.
(2) People management based on location
Quickly understand the location of employees, goods distribution, cooperate with the central control for overall scheduling management, quickly allocate resources and achieve team cooperation. Airport staff wear work cards to achieve personnel location management, real-time personnel location search, improve the monitoring and management of employees, and effectively improve personnel safety supervision and personnel scheduling.
(3) Security/monitoring
Video linkage, based on real-time flow data heat map, sub-regional focus monitoring, abnormal changes in time to push to the relevant workers, combined with video linkage, quickly identify events, remote scheduling command.
One key help, the work card supports one key alarm button, when the staff life danger or emergency situation, you can trigger one key alarm button, combined with the positioning system, quickly locate the location of personnel, dispatch related staff around, to prevent evil accidents.
Dynamic monitoring, the smart work card is equipped with a gravity sensor, when in the working hours, the monitoring is in a static state for a long time, there may be a state of shock or fall, in the case of the party does not start their own "one-click help", the platform can also deal with or confirm the scene situation as early as possible to prevent malignant accidents. For staff, security monitoring will be maintained at all times.
Fence monitoring, the platform provides map-based fence Settings, indoor and outdoor pre-set fences in the airport, for long stays, entering/leaving the fence can be alerted to prevent deviations or accidents. Proper use of fences can make ground operations more standardized, thus making air traffic control more efficient and safe.
(4) Equipment asset management
Locate equipment assets, realize intelligent inventory, such as warehousing, borrowing, returning, and inventory, and bid farewell to the pain and mistakes of manual inventory. Real-time positioning of equipment location, moving track at any time to view, beyond the fence intelligent warning, anti-disassembly alarm, to prevent theft. Monitor the frequency, duration and status of the equipment, analyze the utilization rate, idle rate, depreciation rate and maintenance rate, and provide reasonable optimization for the purchase, configuration and maintenance of the equipment in the airport.
Using 5G+ Bluetooth positioning technology, 5G network provides passengers and managers in the airport with a large bandwidth wireless network to meet the needs of individual travel navigation, entertainment Internet access, and airport management network requirements. 5G ubiquitous connection gathers a variety of sensor data and combines location services provided by Bluetooth to meet the business needs of passenger navigation, staff and equipment management in the airport.
