类笛子乐器中性延迟模型中准周期状态的出现:共振频率之间失谐的影响

IF 1 Q3 Engineering

Journal of Computational Dynamics Pub Date : 2022-01-01 DOI:10.3934/jcd.2022011

S. Terrien, C. Vergez, B. Fabre, P. de la Cuadra

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引用次数: 0

摘要

乐器表现出丰富的动态，从平衡状态(没有声音产生)到广泛的周期性和非周期性声音状态。我们在这里关注两种类似长笛的乐器，即竖笛和前西班牙时期的智利长笛。最近的一项实验研究表明，它们都能产生准周期的声音，根据仪器的不同，这些声音要么被避免，要么被故意播放。我们研究了类笛子乐器中声音产生的一般模型，一个中立延迟微分方程系统。通过时域模拟，我们表明它产生稳定的准周期振荡，与实验观察结果很好地吻合。执行数值分岔分析，其中延迟时间(与控制参数相关)和仪器谐振频率之间的失谐-仪器制造商的关键参数-被认为是分岔参数。这表明，前西班牙智利长笛的大失谐特征在稳定的准周期振荡的出现中起着至关重要的作用。

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Emergence of quasiperiodic regimes in a neutral delay model of flute-like instruments: Influence of the detuning between resonance frequencies

Musical instruments display a wealth of dynamics, from equilibria (where no sound is produced) to a wide diversity of periodic and non-periodic sound regimes. We focus here on two types of flute-like instruments, namely a recorder and a pre-hispanic Chilean flute. A recent experimental study showed that they both produce quasiperiodic sound regimes which are avoided or played on purpose depending on the instrument. We investigate the generic model of sound production in flute-like musical instruments, a system of neutral delay-differential equations. Using time-domain simulations, we show that it produces stable quasiperiodic oscillations in good agreement with experimental observations. A numerical bifurcation analysis is performed, where both the delay time (related to a control parameter) and the detuning between the resonance frequencies of the instrument – a key parameter for instrument makers – are considered as bifurcation parameters. This demonstrates that the large detuning that is characteristic of prehispanic Chilean flutes plays a crucial role in the emergence of stable quasiperiodic oscillations.

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来源期刊

Journal of Computational Dynamics Engineering-Computational Mechanics

CiteScore

2.30

自引率

10.00%

发文量

期刊介绍： JCD is focused on the intersection of computation with deterministic and stochastic dynamics. The mission of the journal is to publish papers that explore new computational methods for analyzing dynamic problems or use novel dynamical methods to improve computation. The subject matter of JCD includes both fundamental mathematical contributions and applications to problems from science and engineering. A non-exhaustive list of topics includes * Computation of phase-space structures and bifurcations * Multi-time-scale methods * Structure-preserving integration * Nonlinear and stochastic model reduction * Set-valued numerical techniques * Network and distributed dynamics JCD includes both original research and survey papers that give a detailed and illuminating treatment of an important area of current interest. The editorial board of JCD consists of world-leading researchers from mathematics, engineering, and science, all of whom are experts in both computational methods and the theory of dynamical systems.