FMCW光達晶片為全固態設計,具輕、薄、小、便宜等優勢。積體化設計與震鏡掃描模組相較,總體積可縮小約700倍。
相較ToF技術,FMCW技術可以同時偵測外界移動物體速度,輔助自駕車判斷,減少緊急時刻運算處理資料量,縮短反應時間一半以上,更適合自駕車應用。
相較ToF技術,FMCW技術可以同時偵測外界移動物體速度,輔助自駕車判斷,減少緊急時刻運算處理資料量,縮短反應時間一半以上,更適合自駕車應用。
FMCW LiDAR chips adopt an all-solid-state design that is light, thin, small, and inexpensive. In comparison with Galvo scanning modules, the integrated design can be 700 times smaller in size.
In comparison with the ToF technology, FMCW simultaneously detects the speed of moving objects to assist the decision-making of self-driving vehicles. By reducing the computing data volume during emergencies, it shortens the reaction time by over 50%. It is more suitable for self-driving vehicle applications.
In comparison with the ToF technology, FMCW simultaneously detects the speed of moving objects to assist the decision-making of self-driving vehicles. By reducing the computing data volume during emergencies, it shortens the reaction time by over 50%. It is more suitable for self-driving vehicle applications.