High-accuracy drilling with an image guided light weight robot: autonomous versus intuitive feed control

Sebastian Tauscher¹, Alexander Fuchs², Fabian Baier², Lüder A Kahrs², Tobias Ortmaier²

Affiliations

¹ Institute of Mechatronic Systems, Leibniz Universität Hannover, Appelstrasse 11 a, 30167, Hannover, Germany. sebastian.tauscher@imes.uni-hannover.de.
² Institute of Mechatronic Systems, Leibniz Universität Hannover, Appelstrasse 11 a, 30167, Hannover, Germany.

PMID: 28707211
DOI: 10.1007/s11548-017-1638-x

High-accuracy drilling with an image guided light weight robot: autonomous versus intuitive feed control

Sebastian Tauscher et al. Int J Comput Assist Radiol Surg. 2017 Oct.

. 2017 Oct;12(10):1763-1773.

doi: 10.1007/s11548-017-1638-x. Epub 2017 Jul 13.

Authors

Sebastian Tauscher¹, Alexander Fuchs², Fabian Baier², Lüder A Kahrs², Tobias Ortmaier²

Affiliations

¹ Institute of Mechatronic Systems, Leibniz Universität Hannover, Appelstrasse 11 a, 30167, Hannover, Germany. sebastian.tauscher@imes.uni-hannover.de.
² Institute of Mechatronic Systems, Leibniz Universität Hannover, Appelstrasse 11 a, 30167, Hannover, Germany.

PMID: 28707211
DOI: 10.1007/s11548-017-1638-x

Abstract

Purpose: Assistance of robotic systems in the operating room promises higher accuracy and, hence, demanding surgical interventions become realisable (e.g. the direct cochlear access). Additionally, an intuitive user interface is crucial for the use of robots in surgery. Torque sensors in the joints can be employed for intuitive interaction concepts. Regarding the accuracy, they lead to a lower structural stiffness and, thus, to an additional error source. The aim of this contribution is to examine, if an accuracy needed for demanding interventions can be achieved by such a system or not.

Methods: Feasible accuracy results of the robot-assisted process depend on each work-flow step. This work focuses on the determination of the tool coordinate frame. A method for drill axis definition is implemented and analysed. Furthermore, a concept of admittance feed control is developed. This allows the user to control feeding along the planned path by applying a force to the robots structure. The accuracy is researched by drilling experiments with a PMMA phantom and artificial bone blocks.

Results: The described drill axis estimation process results in a high angular repeatability ([Formula: see text]). In the first set of drilling results, an accuracy of [Formula: see text] at entrance and [Formula: see text] at target point excluding imaging was achieved. With admittance feed control an accuracy of [Formula: see text] at target point was realised. In a third set twelve holes were drilled in artificial temporal bone phantoms including imaging. In this set-up an error of [Formula: see text] and [Formula: see text] was achieved.

Conclusion: The results of conducted experiments show that accuracy requirements for demanding procedures such as the direct cochlear access can be fulfilled with compliant systems. Furthermore, it was shown that with the presented admittance feed control an accuracy of less then [Formula: see text] is achievable.

Keywords: Active constraints; Direct cochlear access; Image guided surgery; Visual servoing.

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High-accuracy drilling with an image guided light weight robot: autonomous versus intuitive feed control

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High-accuracy drilling with an image guided light weight robot: autonomous versus intuitive feed control

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