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End-to-End Design of Bespoke, Dexterous Snake-Like Surgical Robots: A Case Study With the RAVEN II

Andrew Razjigaev, Ajay K. Pandey, David Howard, Jonathan Roberts, Liao Wu

2022IEEE Transactions on Robotics27 citationsDOIOpen Access PDF

Abstract

Keyhole surgery requires highly dexterous snake-like robotic arms capable of bending around anatomical obstacles to access clinical targets that diverge from the direct port-of-access. Design optimization for these robots under patient-specific anatomical constraints is still lacking, particularly concerning the critical metric of dexterity. In this article, we propose an end-to-end design and production workflow for patient-specific surgical manipulators, assessing dexterity using orientability constrained by task space obstacles. In our work, parametric evolutionary optimization maximizes dexterity in patient-specific task spaces for challenging knee arthroscopy operations. We implement our framework in the design of SnakeRaven—a 3-D printed tool to be attached to the RAVEN II surgical robot in a phantom study for knee arthroscopy. The solution achieved more than three times the dexterity of a state-of-the-art rigid instrument and more than twice the dexterity of a volume-based approach for the same task. We further assemble and validate this design by teleoperating the robot to reach the desired clinical targets in a phantom. We also investigate the changes in the design morphology to changes in the task objectives and found an advantage in task specialization. We also observe guidelines for achieving a dexterous design produced by our algorithms.

Topics & Concepts

BespokeRobotTask (project management)Computer scienceArtificial intelligenceImaging phantomPerformance metricWorkflowHuman–computer interactionSimulationComputer visionEngineeringSystems engineeringPolitical scienceEconomicsRadiologyDatabaseLawManagementMedicineSoft Robotics and ApplicationsRobot Manipulation and LearningAugmented Reality Applications