Active tremor compensation in microsurgery

Wei-Tech Ang, Pradeep Khosla, and Cameron Riviere

Conference Paper, Proceedings of 26th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC '04), pp. 2738 - 2741, September, 2004

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Abstract

This work presents the development of an intelligent microsurgical instrument to perform real-time tremor compensation within a handheld tool. The intelligent instrument senses its own motion, distinguishes between voluntary and erroneous motion, and manipulates its tip to cancel the undesired component in real-time. The on-board sensing unit is made up of a magnetometer-aided all-accelerometer inertial measurement unit and sensor fusion is performed via a quaternion-based Kalman filtering. Tremor is modeled and filtered by an adaptive zero-phase notch filter. The intraocular shaft manipulator is a three DOF piezoelectric actuated mechanism driven by a feedforward controller with inverse rate-dependent hysteresis model. Laboratory experimental results of the system are presented.

BibTeX

@conference{Ang-2004-16951,
author = {Wei-Tech Ang and Pradeep Khosla and Cameron Riviere},
title = {Active tremor compensation in microsurgery},
booktitle = {Proceedings of 26th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC '04)},
year = {2004},
month = {September},
pages = {2738 - 2741},
}

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