Title :
System architecture and techniques for gesture recognition in unconstrained environments
Author_Institution :
Dortmund Univ., Germany
Abstract :
Controlling appliances in home environments by gestures is a step towards more intuitive and natural human computer interfaces. A brief overview of an existing vision based gesture recognition system and its architecture and details of ergonomic remote control of devices by gestures are clarified. The focus is on motion detection, object normalization and identification, modelling, and prediction of motion using a Kalman filter. The initialization problem of the Kalman filter of a vision based system for human motion tracking differs from initialization for physical systems, where manuals report measurement errors. One main aim was to develop the initialization and adequate Kalman model for human motion. Most aspects mentioned in the report were implemented in the ARGUS prototype
Keywords :
Kalman filters; computer vision; domestic appliances; image recognition; motion estimation; telecontrol; user interfaces; ARGUS prototype; Kalman filter; appliance control; ergonomic remote control; gesture recognition; home environment; human motion tracking; initialization problem; intuitive human computer interface; modelling; motion detection; motion prediction; natural human computer interfaces; object identification; object normalization; system architecture; unconstrained environments; vision based gesture recognition system; Computer architecture; Computer interfaces; Control systems; Ergonomics; Home appliances; Humans; Machine vision; Motion detection; Predictive models; Tracking;
Conference_Titel :
Virtual Systems and MultiMedia, 1997. VSMM '97. Proceedings., International Conference on
Conference_Location :
Geneva
Print_ISBN :
0-8186-8150-0
DOI :
10.1109/VSMM.1997.622340
