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Construction of Controller Model of Notch Continuum Manipulator for Laryngeal Surgery Based on Hybrid Method

Haodong Wang, Xiaolong Wang, Wenlong Yang, Zhijiang Du, Zhiyuan Yan

2020IEEE/ASME Transactions on Mechatronics45 citationsDOI

Abstract

The laryngeal surgery is usually performed with rigid surgical instruments. However, those instruments inevitably cause tissue damage. A novel notch continuum manipulator for laryngeal surgery is proposed. The deformation of the notch continuum manipulator is highly nonlinear. The controller is difficult to construct. The model-based modeling strategy from micro to macro is adopted for forward kinematics. The proposed notch continuum manipulator is modeled as a series of flexible units. Based on the mechanical model and Denavit-Hartenberg method, the mapping from the driven space to the Cartesian space is constructed. The model-free strategy based on the forward kinematics and machine learning is adopted to provide an approximate solution for the inverse kinematics. Therefore, combining the advantages of model-free and model-based strategies, a hybrid method can be proposed to accurately model and solve the kinematics of a class of continuum manipulators. The experimental results obtained through the prototype show that the proposed controller model can meet the actual engineering requirement.

Topics & Concepts

Inverse kinematicsKinematicsCartesian coordinate systemControl theory (sociology)Computer scienceNonlinear systemControl engineeringRobotArtificial intelligenceMathematicsEngineeringPhysicsClassical mechanicsGeometryControl (management)Quantum mechanicsSoft Robotics and ApplicationsDrilling and Well EngineeringRobot Manipulation and Learning
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