hübriidnavigatsioonisüsteemideks

hübriidnavigatsioon refers to a navigational system that combines multiple positioning technologies to achieve greater accuracy, reliability, or availability. This approach is often employed when a single positioning method, such as GPS alone, may be insufficient due to environmental factors or signal limitations. By integrating data from different sources, a hybrid system can compensate for the weaknesses of individual components. Commonly integrated technologies include Global Navigation Satellite Systems (GNSS) like GPS, GLONASS, Galileo, and BeiDou, along with inertial navigation systems (INS), which use accelerometers and gyroscopes to track movement, and sometimes Wi-Fi positioning or cellular triangulation for indoor or urban canyon environments. The fusion of this data typically occurs through sophisticated algorithms that process and reconcile the information, providing a more robust and precise position fix. This type of navigation is crucial in applications demanding high accuracy and continuous positioning, such as autonomous vehicles, precision agriculture, surveying, and advanced aviation. The core benefit lies in its resilience, ensuring navigation is maintained even if one of the contributing systems experiences temporary failure or degraded performance.