Title :
Operating system-induced jitter in force display computations
Author :
Kirkpatrick, A.E. ; Sze, Jason
Author_Institution :
Simon Fraser Univ., Vancouver, BC, Canada
Abstract :
Haptic interfaces require a consistent rate of force computation for stable high-frequency displays. This paper reports measurements of force computation consistency under Windows 2000 and XP in single- and dual-processor systems. The median time was accurate at 1 ms. However, as the computation in the force loop increased to 500 μs/iteration, release time jitter in the single-processor system increased up to 52%. Jitter was also introduced by network load. Contention from other real-time applications, such as audio and video display, dramatically increased the jitter, up to 100%. These high levels of jitter could perceptibly degrade force display for some tasks. Jitter was substantially lower for the dual-processor system. Haptic applications requiring consistent force computation should consider dual-processor configurations.
Keywords :
computer displays; force feedback; haptic interfaces; operating systems (computers); timing jitter; 1 ms; Windows 2000; Windows XP; audio display; dual-processor systems; force computation consistency; force display computations; force loop; haptic applications; haptic interfaces; network load; operating system-induced jitter; real-time applications; single-processor systems; stable high-frequency displays; time jitter; video display; Auditory displays; Computer displays; Computer interfaces; Delay; Force measurement; Haptic interfaces; Jitter; Laboratories; Operating systems; Process control;
Conference_Titel :
Haptic Interfaces for Virtual Environment and Teleoperator Systems, 2004. HAPTICS '04. Proceedings. 12th International Symposium on
Print_ISBN :
0-7695-2112-6
DOI :
10.1109/HAPTIC.2004.1287213
