Title :
A high-performance velocity estimator for haptic applications
Author :
Ghaffari, T.K. ; Kovecses, J.
Abstract :
In this paper, a velocity estimator is introduced, which results in low-delay and low-noise velocity estimation based on the sampled-quantized position measurement. The method maintains its efficiency for a broad range of velocities and excitation frequencies. The algorithm is computationally efficient and operates well at virtually any sampling frequency. Better velocity observation, increases the efficiency of virtual dampers employed in impedance control; hence, the system remains stable at higher values of virtual stiffness. This work is supported by simulations and experiments.
Keywords :
elasticity; estimation theory; haptic interfaces; position measurement; vibration control; excitation frequencies; haptic applications; high-performance velocity estimator; impedance control; low-delay low-noise velocity estimation; sampled-quantized position measurement; sampling frequency; virtual dampers; virtual stiffness; Band-pass filters; Estimation; Noise; Oscillators; Position measurement; Trajectory; Velocity measurement; Velocity estimation; encoder noise; filtering quantization noise; haptic simulation;
Conference_Titel :
World Haptics Conference (WHC), 2013
Conference_Location :
Daejeon
Print_ISBN :
978-1-4799-0087-9
DOI :
10.1109/WHC.2013.6548396
