A platform for low-latency continuous keyboard sensing and sound generation

New Interfaces for Musical Expression Pub Date : 2020-07-20 DOI:10.5281/zenodo.4813253

G. Moro, Andrew Mcpherson

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引用次数: 1

Abstract

On several acoustic and electromechanical keyboard instruments, the produced sound is not always strictly dependent exclusively on a discrete key velocity parameter, and minute gesture details can aﬀect the ﬁnal sonic result. By contrast, subtle variations in articulation have a relatively limited eﬀect on the sound generation when the keyboard controller uses the MIDI standard, used in the vast ma-jority of digital keyboards. In this paper we present an embedded platform that can generate sound in response to a controller capable of sensing the continuous position of keys on a keyboard. This platform enables the creation of keyboard-based DMIs which allow for a richer set of interaction gestures than would be possible through a MIDI keyboard, which we demonstrate through two example instruments. First, in a Hammond organ emulator, the sensing device allows to recreate the nuances of the interaction with the original instrument in a way a velocity-based MIDI controller could not. Second, a nonlinear waveguide ﬂute synthesizer is shown as an example of the expressive capabilities that a continuous-keyboard controller opens up in the creation of new keyboard-based DMIs.

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一个低延迟连续键盘感应和声音生成的平台

在一些声学和机电键盘乐器上，产生的声音并不总是严格依赖于一个离散的键速度参数，微小的手势细节可以影响最终的声音结果。相比之下，当键盘控制器使用绝大多数数字键盘使用的MIDI标准时，发音的细微变化对声音产生的影响相对有限。在本文中，我们提出了一个嵌入式平台，该平台可以根据能够感知键盘上键的连续位置的控制器产生声音。这个平台允许创建基于键盘的dmi，它允许比通过MIDI键盘更丰富的交互手势集，我们通过两个示例乐器来演示。首先，在一个哈蒙德风琴模拟器，传感设备允许重建与原始仪器的交互的细微差别以一种方式基于速度的MIDI控制器不能。其次，一个非线性波导长笛合成器被显示为一个例子的表达能力，一个连续键盘控制器打开在创建新的基于键盘的dmi。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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New Interfaces for Musical Expression

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