Effect of Direct Velocity Measurement on the Stability of Haptic Simulation Systems

Victor A. Luna Laija, P. G. Özdil, K. Hashtrudi-Zaad
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引用次数: 2

Abstract

The quality of the velocity signal required to implement linear viscoelastic virtual environments is of great importance for the stability of haptic simulation systems. In a typical haptic simulation system, the velocity is numerically estimated from position samples. The range of the implementable environment stiffness and damping for uncoupled stability is limited by quantization. In this paper, we analytically and numerically studied the effect of direct velocity measurement on the virtual environment viscoelastic dynamic range for guaranteed uncoupled stability and the passivity of the dynamics projected to the user. The analytical results are assessed through experiments conducted in a QET haptic knob testbed.
直接速度测量对触觉仿真系统稳定性的影响
实现线性粘弹性虚拟环境所需的速度信号质量对触觉仿真系统的稳定性至关重要。在典型的触觉仿真系统中,速度是由位置样本进行数值估计的。可实现的环境刚度和阻尼解耦稳定性的范围受到量化的限制。本文分析和数值研究了直接测速对虚拟环境粘弹性动态范围的影响,以保证解耦稳定性和投射给用户的动态无源性。通过在QET触觉旋钮测试台上进行的实验对分析结果进行了评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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