SAWSense: Using Surface Acoustic Waves for Surface-bound Event Recognition

Proceedings of the 2023 CHI Conference on Human Factors in Computing Systems Pub Date : 2023-04-19 DOI:10.1145/3544548.3580991

Yasha Iravantchi, Yi Zhao, Kenrick Kin, Alanson P. Sample

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Abstract

Enabling computing systems to understand user interactions with everyday surfaces and objects can drive a wide range of applications. However, existing vibration-based sensors (e.g., accelerometers) lack the sensitivity to detect light touch gestures or the bandwidth to recognize activity containing high-frequency components. Conversely, microphones are highly susceptible to environmental noise, degrading performance. Each time an object impacts a surface, Surface Acoustic Waves (SAWs) are generated that propagate along the air-to-surface boundary. This work repurposes a Voice PickUp Unit (VPU) to capture SAWs on surfaces (including smooth surfaces, odd geometries, and fabrics) over long distances and in noisy environments. Our custom-designed signal acquisition, processing, and machine learning pipeline demonstrates utility in both interactive and activity recognition applications, such as classifying trackpad-style gestures on a desk and recognizing 16 cooking-related activities, all with >97% accuracy. Ultimately, SAWs offer a unique signal that can enable robust recognition of user touch and on-surface events.

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SAWSense:利用表面声波进行表面事件识别

使计算系统能够理解用户与日常表面和物体的交互可以推动广泛的应用。然而，现有的基于振动的传感器(例如，加速度计)缺乏检测轻触手势的灵敏度或识别包含高频成分的活动的带宽。相反，麦克风非常容易受到环境噪声的影响，从而降低性能。每当物体撞击表面时，表面声波(saw)就会沿着空气与表面的边界传播。这项工作重新设计了一个语音拾取单元(VPU)来捕获长距离和嘈杂环境中表面(包括光滑表面、奇怪几何形状和织物)上的saw。我们定制设计的信号采集、处理和机器学习管道在交互和活动识别应用中都展示了实用性，例如对桌子上的触控板式手势进行分类，并识别16种与烹饪相关的活动，所有这些都达到了97%的准确率。最终，saw提供了一种独特的信号，可以实现对用户触摸和表面事件的强大识别。

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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Proceedings of the 2023 CHI Conference on Human Factors in Computing Systems

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