Title :
Modeling and canceling tremor in human-machine interfaces
Author :
Riviere, Cameron N. ; Thakor, Nitish V.
Author_Institution :
Robotics Inst., Carnegie Mellon Univ., Pittsburgh, PA, USA
Abstract :
Zero-phase modeling and canceling of tremor can improve precision in human-machine control applications. Past methods of tremor suppression have been hindered by feedback delays due to phase lag and by the inability to track tremor frequency over time. The weighted-frequency Fourier linear combiner (WFLC) is an adaptive noise canceller that precisely models tremor with zero phase lag. This article briefly presents the WFLC algorithm and describes its application to computer input filtering, clinical tremor quantification, and active tremor canceling for microsurgery
Keywords :
adaptive signal processing; biocontrol; biomechanics; human factors; physiological models; active tremor canceling; adaptive noise canceller; clinical tremor quantification; computer input filtering; human-machine control precision improvement; human-machine interfaces; microsurgery; phase lag; tremor canceling; weighted-frequency Fourier linear combiner; zero-phase modeling; Application software; Computer applications; Delay effects; Feedback; Filtering algorithms; Frequency; Man machine systems; Microsurgery; Noise cancellation; Surgery;
Journal_Title :
Engineering in Medicine and Biology Magazine, IEEE
