Comparison of Baseline Tremor Under Various Microsurgical Conditions.

Conference proceedings. IEEE International Conference on Systems, Man, and Cybernetics Pub Date : 2013-01-01 DOI:10.1109/SMC.2013.256

Trent S Wells, Sungwook Yang, Robert A Maclachlan, James T Handa, Peter Gehlbach, Cameron Riviere

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引用次数: 14

Abstract

This paper presents the characterization and comparison of physiological tremor for pointing tasks in multiple environments, as a baseline for performance evaluation of microsurgical robotics. Previous studies have examined the characteristics of physiological tremor under laboratory settings as well as different operating conditions. However, different test methods make the comparison of results across trials and conditions difficult. Two vitroretinal microsurgeons were evaluated while performing a pointing task with no entry-point constraint, constrained by an artificial eye model, and constrained by a rabbit eye in vivo. For the three respective conditions the 3D RMS positioning error was 144 μm, 258 μm, and 285 μm, and maximum 3D error was 349 μm, 647 μm, and 696 μm. A spectral analysis was also performed, confirming a distinct peak near in the 6-12 Hz frequency range, characteristic of hand tremor during tasks in all three environments.

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不同显微外科条件下基线震颤的比较。

本文介绍了多种环境下指向任务的生理震颤的特征和比较，作为显微外科机器人性能评估的基线。以前的研究已经在实验室环境和不同的操作条件下检查了生理性震颤的特征。然而，不同的测试方法使得在不同的试验和条件下比较结果变得困难。两名体外视网膜显微外科医生在执行指向任务时进行了评估，其中没有入口点约束，受人工眼模型约束，受活体兔眼约束。三种条件下的三维均方根定位误差分别为144 μm、258 μm和285 μm，最大三维误差分别为349 μm、647 μm和696 μm。频谱分析也被执行，确认在6-12赫兹频率范围附近有一个明显的峰值，这是在所有三种环境中任务时手部震颤的特征。

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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Conference proceedings. IEEE International Conference on Systems, Man, and Cybernetics

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