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Stiffness Control for Soft Surgical Manipulators

Seri Mastura Mustaza, Chakravarthini M. Saaj, F Comin, Wissam A. Albukhanajer, Duale Mahdi, Constantina Lekakou

Year
2018
Citations
20

Abstract

Tunable stiffness control is critical for undertaking surgical procedures using soft manipulators. However, active stiffness control in soft continuum manipulators is very challenging and has been rarely realized for real-time surgical applications. Low stiffness at the tip is much preferred for safe navigation of the robot in restricted spaces inside the human body. On the other hand, high stiffness at the tip is demanded for efficiently operating surgical instruments. In this paper, the manipulability and characteristics of a class of soft hyper-redundant manipulator, fabricated using Ecoflex-0050[Formula: see text] silicone, is discussed and a new methodology is introduced to actively tune the stiffness matrix, in real-time, for disturbance rejection and stiffness control. Experimental results are used to derive a more accurate description of the characteristics of the soft manipulator, capture the varying stiffness effects of the actuated arm and consequently offer a more accurate response using closed loop feedback control in real-time. The novel results presented in this paper advances the state-of-the-art of tunable stiffness control in soft continuum manipulators for real-time applications.

Keywords

StiffnessComputer scienceSoft roboticsControl theory (sociology)Robot manipulatorManipulator (device)RobotControl engineeringControl (management)Artificial intelligence

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