Title :
Admittance and Impedance Representations of Friction Based on Implicit Euler Integration
Author :
Kikuuwe, Ryo ; Takesue, Naoyuki ; Sano, Akihito ; Mochiyama, Hiromi ; Fujimoto, Hideo
Author_Institution :
Dept. of Mech. Eng., Nagoya Inst. of Technol.
Abstract :
Modeling of friction force is cumbersome because of its discontinuity at zero velocity. This paper presents a set of discrete-time friction models for the purpose of haptic rendering and virtual environment construction. These models allow friction to be treated as an admittance-type or impedance-type element of a virtual environment. They are derived from implicit Euler integration of Coulomb-like discontinuous friction and linear mass-spring-damper dynamics, and have closed-form expressions. They include rate-dependent friction laws, and their extension to multidimensional cases is easy in most practical cases. The validity of the models is demonstrated through numerical examples and implementation experiments
Keywords :
force feedback; friction; haptic interfaces; telerobotics; Coulomb-like discontinuous friction; admittance representation; admittance-type element; discrete-time friction models; friction force modeling; haptic rendering; impedance representation; impedance-type element; implicit Euler integration; linear mass-spring-damper dynamics; rate-dependent friction laws; virtual environment construction; zero velocity; Admittance; Closed-form solution; Friction; Haptic interfaces; Impedance; Intelligent robots; Kinetic theory; Mechanical engineering; Multidimensional systems; Virtual environment; Admittance; friction; haptic rendering; impedance; implicit Euler scheme;
Journal_Title :
Robotics, IEEE Transactions on
DOI :
10.1109/TRO.2006.886262
