Title :
Real-time haptic rendering using multi-rate output-estimation with ARMAX model
Author :
Lee, Kyungno ; Lee, Doo Yong
Author_Institution :
KAIST, Daejeon
Abstract :
This paper presents multi-rate output-estimation using an auto-regressive-moving-average with exogenous variable (ARMAX) model for real-time haptic rendering. In medical simulation, physics-based simulation of the organs and tissues including cutting and suturing is necessary for high-fidelity visual and haptic interaction. A deformation model based on a finite-element model or a mass-spring model is frequently used, which incurs heavy computational burden and time delay. Reflective force cannot be computed at 1 kHz because of the heavy computational overhead. This problem is resolved by employing a multi-rate output-estimation using ARMAX model that improves the original version of the multi-rate output-estimation with P-matrix resetting. High-fidelity reflective force is computed from the estimated input-output model at 1 kHz and the performance is evaluated with simulation.
Keywords :
autoregressive moving average processes; biological organs; biological tissues; finite element analysis; haptic interfaces; medical computing; rendering (computer graphics); ARMAX model; autoregressive-moving-average with exogenous variable; cutting; deformation model; finite-element model; mass-spring model; medical simulation; multirate output-estimation; organs; physics-based simulation; real-time haptic rendering; reflective force; suturing; tissues; Computational modeling; Deformable models; Electronic mail; Graphics; Haptic interfaces; Humans; Medical simulation; Physics computing; Real time systems; White noise; ARMAX model; Multi-rate output-estimation; real-time haptic rendering;
Conference_Titel :
Control, Automation and Systems, 2007. ICCAS '07. International Conference on
Conference_Location :
Seoul
Print_ISBN :
978-89-950038-6-2
Electronic_ISBN :
978-89-950038-6-2
DOI :
10.1109/ICCAS.2007.4406641
