GPS technology is now very common in commercial aviation. Most commercial liners are now increasingly using GPS navigation for an initial and inaccurate landing approach at specific aerodromes. Automatic Dependent Surveillance – Broadcast (ADB-B) is a futuristic primary navigation and navigation technology GPS, for which a significant amount of research, development and investment is invested. The ADB-B technology also includes a direct link between aircraft in a predetermined radial proximity, in which it allows the aircraft to link its relative speeds, distances, flight paths and locations. The development of this technology is not limited to any one country, but is developing globally through strategic technology multilateral alliances. In addition to use in commercial aviation, the ADB-B GPS technology is also used in the navigation of unmanned aerial vehicles (UAVs). UAVs are mainly used for resource mapping and visualization of aerial surveillance — a task that was previously assigned to orbiting Earth satellites, such as NASA Landsat.
Maritime and rail transport
All encompassing, all progressive GPS technologies have once again emphasized their presence in the field of marine technology. Vessel Traffic Services (VTS), an automatic identification system (AIS) was used to include such key operational parameters as navigation across the ocean and the coast, databases, access to the port and the port. ), hydrographic data collection and freight logistics.
With regard to railway navigation, GPS technology is now widely used to rationalize basic requirements such as rolling stock management, passenger information, preventing door releases depending on the leveling of the car platform, cargo tracking signaling, train integrity, and approach at railroad crossings.
The use of GPS technology in various scientific fields is quite wide and effective; such as environmental and atmospheric monitoring, animal behavior studies, botanical sample localization, meteorology and climate studies, agriculture, fishing and fishing, land area mapping, yield monitoring, accurate crop planting, spraying and harvest monitoring, autonomous vehicle monitoring .
Security is another very broad area in which GOS technology is used. GPS security applications include tracking of all types of vehicles – light and heavy vehicles, 20 and 40 feet. containers containing general cargo, special containers for conditioning perishable foodstuffs, monitoring the safety of vehicles for transporting criminals and suspects, etc.
Obviously, GPS technology is indeed very applicable and suitable for a very wide range of scientific and technological applications that require constant monitoring and tracking of data, especially if the target objects are important, urgent, sensitive and valuable. This includes people, animals, cars, precious metals, banknotes, etc.