The popularity of unmanned aerial vehicles (UAVs) is increasing as technological advancements boost their favorability for a broad range of applications. One application is science data collection. In fields like Earth and atmospheric science, researchers are seeking to use UAVs to augment their current portfolio of platforms and increase their accessibility to geographic areas of interest. By increasing the number of data collection platforms UAVs will significantly improve system robustness and allow for more sophisticated studies. Scientists would like be able to deploy an available fleet of UAVs to fly a desired flight path and collect sensor data without needing to understand the complex low-level controls required to describe and coordinate such a mission. A natural interaction interface for a Ground Control System (GCS) using gesture recognition is developed to allow non-expert users (e.g., scientists) to define a complex flight path for a UAV using intuitive hand gesture inputs from the constructed gesture library. The GCS calculates the combined trajectory on-line, verifies the trajectory with the user, and sends it to the UAV controller to be flown.
Natural Interaction Interface for UAVs Using Intuitive Gesture Recognition
2016
24 pages
Report
Keine Angabe
Englisch
A Natural Interaction Interface for UAVs Using Intuitive Gesture Recognition
Springer Verlag | 2016
|Towards an intuitive human-robot interaction based on hand gesture recognition and proximity sensors
BASE | 2020
|British Library Conference Proceedings | 2006
|