Curvature-based force estimation for an elastic tube

Abstract

AbstractContact force is one of the most significant feedback for robots to achieve accurate control and safe interaction with environment. For continuum robots, it is possible to estimate the contact force based on the feedback of robot shapes, which can address the difficulty of mounting dedicated force sensors on the continuum robot body with strict dimension constraints. In this paper, we use local curvatures to estimate the magnitude and location of single or multiple contact forces based on Cosserat rod theory. We validate the proposed method in a thin elastic tube and calculate the curvatures via Fiber Bragg Grating (FBG) sensors or image feedback. For the curvature feedback obtained from multicore FBG sensors, the overall force magnitude estimation error is$0.062 \pm 0.068$N and the overall location estimation error is$3.51 \pm 2.60$mm. For the curvature feedback obtained from image, the overall force magnitude estimation error is$0.049 \pm 0.048$N and the overall location estimation error is$2.75 \pm 1.71$mm. The results demonstrate that the curvature-based force estimation method is able to accurately estimate the contact force.