A high-performance velocity estimator for haptic applications

World Haptics Conference. World Haptics Conference Pub Date : 2013-04-01 DOI:10.1109/WHC.2013.6548396
Kamran Ghaffari Toiserkan, J. Kövecses
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引用次数: 6

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.
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用于触觉应用的高性能速度估计器
本文介绍了一种基于采样量化位置测量的速度估计器,实现了低延迟、低噪声的速度估计。该方法在较宽的速度和激励频率范围内保持其效率。该算法计算效率高,在几乎任何采样频率下都能很好地工作。更好的速度观测,提高了虚拟阻尼器在阻抗控制中的效率;因此,系统在较高的虚拟刚度值下保持稳定。这项工作得到了模拟和实验的支持。
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World Haptics Conference. World Haptics Conference
World Haptics Conference. World Haptics Conference
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