Home /Research /Coordinated control of a 3DOF cartesian robot and a shape memory alloy-actuated flexible needle for surgical interventions: a non-model-based control method
SURGICAL

Coordinated control of a 3DOF cartesian robot and a shape memory alloy-actuated flexible needle for surgical interventions: a non-model-based control method

Fan Liang, Bryan Traughber, Tithi Biswas, Gordon Guo, Raymond F. Muzic, Tarun K. Podder

Year
2021
Citations
2

Abstract

Summary Success of any needle-based medical procedures depends on accurate placement of the needle at the target location. However, accurate targeting and control of flexible self-actuating (active) needle are challenging. We have developed a shape memory alloy-actuated flexible needle steered by a 3D Cartesian robot and performed a comparative study of four, non-model-based, coordinated control methodologies for the combined robot steering and flexible-needle insertion process for surgical interventions. Investigated four controllers are: proportional–integral–derivative (PID), PID with the cubic of positional error term (PID-P 3 ), static PID sliding mode controller, and robust adaptive PID sliding mode controller (RAPID-SMC). Relative efficacies of these controllers are demonstrated by performing experiements using a tissue-mimicking soft material phantom. Results from experiments have reavealed that RAPID-SMC is superior to other three controllers.

Keywords

PID controllerControl theory (sociology)Cartesian coordinate systemRobotProcess (computing)Computer scienceController (irrigation)SimulationControl engineeringControl (management)

Related papers

Browse all SURGICAL papers