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Communication Dans Un Congrès Année : 2003

Modeling the dynamics of piano keys

Résumé

The models of piano keys available in the literature are crude: two degrees of freedom and a very few dynamical or geometrical parameters. Experiments on different piano mechanisms (upright, grand, one type of numerical keyboard) exhibit strong differences in the two successive phases of the key motion which are controlled by the finger. Understanding the controllability of the escapement velocity (typically a few percents for professional pianists), the differences between upright and grand pianos, the rationale for the numerous independent adjustments by technicians, and the feel by the pianist require sophisticated modeling. In addition to the inertia of the six independently moving parts of a grand piano mechanism, a careful modeling of friction at pivots and between the jack and the roll, of damping and nonlinearities in felts, and of internal springs will be presented. Simulations will be confronted to the measurements of the motions of the different parts. Currently, the first phase of the motion and the transition to the second phase are well understood while some progress must still be made in order to describe correctly this short but important phase before the escapement of the hammer. [Work done in part at the Laboratory for Musical Acoustics, Paris.]
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hal-00117683 , version 1 (03-12-2006)

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Céline Brenon, Xavier Boutillon. Modeling the dynamics of piano keys. 146th meeting of the Acoustical Society of America, 2003, Newport Beach, United States. ⟨10.1121/1.4777652⟩. ⟨hal-00117683⟩
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