Internal Model Control to Characterize Human Handwriting Motion

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Internal Model Control to Characterize Human Handwriting Motion

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Update: 10/10/2017

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Internal Model Control to Characterize Human Handwriting Motion

Ines Chihi, Afef Abdelkrim, and Mohamed Benrejeb

National School of Engineers of Tunisia, Tunis El Manar University, Tunisia

Abstract: The main purpose of this paper is to consider the human handwriting process as an Internal Model Control structure (IMC). The proposed approach allows characterizing the biological process from two muscles activities of the forearm, named ElectroMyoGraphy signals (EMG). For this, an experimental approach was used to record the coordinates of a pen-tip moving on (x,y) plane and EMG signals during the handwriting act. In this sense direct and inverse handwriting models are proposed to establish the relationship between the muscles activities of the forearm and the velocity of the pen-tip. Recursive Least Squares algorithm (RLS) is used to estimate the parameters of both models (direct and inverse). Simulations show good agreement between the proposed approach results and the recorded data.

Keywords: Human handwriting process; IMC; the muscular activities; direct and inverse handwriting models; velocity of the pen-tip; RLS algorithm.

Received January 6, 2015; accepted September 22, 2015

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Published in November 2017,No 6 ( November 2017,No 6 )

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