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Air Traffic Control

Airport facilities are responsible for offering a safer and smoother experience to their passengers while maintaining the facilities. Nowadays, modern airports are using geographic information systems for the in-ground and air flight operations efficiently. GIS tools are implemented in the aviation industry. Because of the growing popularity of the geographic information system in airport management, the authorities are using these advanced geospatial systems to ensure smooth aviation operations. Whether it is about locating a flight or identifying the obstacles that might interfere with the flight operations, the GIS tools play a pivotal role in managing airport operations effectively.

This has left people and scientists wondering if the remote-sensing tools and satellite imagery can be used for measuring the air traffic? Or, what role do these systems play in air traffic control? The air traffic regulators have already embraced GIS and remote-sensing tools for airspace planning.

GIS in Flight Monitoring and Air Traffic Control

The authorities use GIS for flight tracking and monitoring purposes. All it takes for the crew to track the current status of the flight is the number of the flight, and the GIS will fetch real-time information about the aircraft. The software shows you the details of departure, arrival, weather in the destination country, and air traffic. This makes it easier for the airport authorities to plan the aircraft operations depending on the current status of the air traffic. The main purpose of these applications is to promote airspace efficiency while promoting a broad range of airport security and management programs.

If you have ever wondered how the airport crew can tell you the arrival time and the current status of different flights, it is because of the GIS tools. They are able to collect real-time data about the flying status of the aircraft, thus helping people find the most accurate information about flights. The recent innovation in GIS technology, such as 3D imaging, has made these tools even more effective in planning flight operations. These tools generate a better and clearer picture of the aircraft while covering the surrounding areas, such as building heights, land use, etc. Authorities believe that GIS has become a crucial component in collecting critical information stored in its database. It is much easier to modify this data and update this information into the navigational chart.

On-ground and Air Operations

In addition to controlling air operations, GIS is also used for the on-ground management. Modern airports are supposed to meet security challenges. Considering the current traffic at airports, security has become a major concern of airport authorities and crew. Besides, the overall maintenance is getting quite difficult. In order to ensure efficient management and smooth running of both the on-ground and air operations, the crew is turning to GIS technology to monitor airports and flights. This helps the teams plan aircraft maintenance and operations while enhancing the airports' security using the GIS’s modeling capabilities. GIS offers information that can’t be found in any software app.