Nonlinear In-situ Calibration of Strain-Gauge Force/Torque Sensors for Humanoid Robots
Nov 1, 2023ยท,,,ยท
0 min read
Hosameldin Awadalla Omer Mohamed
Gabriele Nava
Punith Reddy Vanteddu
Francesco Braghin
Daniele Pucci
Abstract
High force/torque (F/T) sensor calibration accuracy is crucial to achieving successful force estimation/control tasks with humanoid robots. State-of-the-art affine calibration models do not always approximate correctly the physical phenomenon of the sensor/transducer, resulting in inaccurate F/T measurements for specific applications such as thrust estimation of a jet-powered humanoid robot. This paper proposes and validates nonlinear polynomial models for F/T calibration, increasing the number of model coefficients to minimize the estimation residuals. The analysis of several models, based on the data collected from experiments with the iCub3 robot, shows a significant improvement in minimizing the force/torque estimation error when using higher-degree polynomials. In particular, when using a 4th-degree polynomial model, the Root Mean Square error (RMSE) decreased to 2.28N from the 4.58N obtained with an affine model, and the absolute error in the forces remained under 6N while it was reaching up to 16N with the affine model.
Type
Publication
2023 IEEE-RAS International Conference on Humanoid Robotics (Humanoids)