Abstract

The objective of this paper is to develop a method to estimate the wrist joint angle based on the deformation of the forearm skin surface during muscle contraction. We have focused on the longitudinal movement of the muscle bulge along the forearm. We previously confirmed a one-to-one relationship between the movement of the muscle bulge and the wrist joint angle, and validated the feasibility of the estimation of the joint angle using this relationship. However, the relationship between the movement of the muscle bulge and the wrist joint was previously difficult to perform because of the misalignment of the sensor on the muscle. Here we use a tactile sensor that can measure three-dimensional data on the forearm skin surface to map the muscle bulge location. We measured a large 32 × 96 mm area on the forearm skin with 48 skin distance sensors. We calculated x and y components of the barycentric coordinates from the measured data. We observed a one-to-one relationship between the y-component of the barycentric coordinate from the distribution of the movement of the muscle bulge on the forearm skin surface. We then calculated the RMSE between the measured and estimated wrist joint angle using our joint angle estimation algorithm. We found that the RMSE from our technique was greater than from the conventional method. While we validated the feasibility of our estimation method further research is required to reduce our estimation error by improving the extraction and interpretation of our sensor data.

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