ProximityHat: a head-worn system for subtle sensory augmentation with tactile stimulation

Proceedings of the 2015 ACM International Symposium on Wearable Computers Pub Date : 2015-09-07 DOI:10.1145/2802083.2802088

Matthias Berning, Florian Braun, T. Riedel, M. Beigl

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引用次数: 46

Abstract

In this paper we present the iterative design process of our wearable sensory substitution system ProximityHat, which uses pressure actuators around the head to convey spatial information. It was already shown that the sense of touch can be used to augment our perception of reality. Existing systems focus on vibration signals for information transfer, but this is unsuitable for constant stimulation in everyday use. Our system determines the distance to surrounding objects with ultrasonic sensors and maps this information to an inward pressure. It was evaluated in a study with 13 blindfolded subjects in orientation and navigation tasks. The users were able to discern at least three different absolute pressure levels with high certainty. Combined with the sensors, they could also use continuous values to navigate hallways and find doors. Most users had only a few collisions, but a small group of three individuals struggled more. We attribute this to the latency and resolution of the final prototype, which led to slow walking speed and will be addressed in future work.

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ProximityHat:一种头戴式系统，通过触觉刺激来增强微妙的感官

在本文中，我们介绍了可穿戴感官替代系统ProximityHat的迭代设计过程，该系统使用头部周围的压力致动器来传递空间信息。已经有证据表明，触觉可以用来增强我们对现实的感知。现有的系统主要是通过振动信号来传递信息，但这并不适合日常使用中的持续刺激。我们的系统通过超声波传感器确定与周围物体的距离，并将这些信息映射为向内压力。在一项研究中，13名被蒙住眼睛的受试者在定位和导航任务中进行了评估。用户能够高度确定地分辨出至少三种不同的绝对压力水平。结合传感器，它们还可以使用连续的数值来导航走廊和找到门。大多数用户只有很少的碰撞，但一小群三个人更挣扎。我们将此归因于最终原型的延迟和分辨率，这导致了缓慢的行走速度，并将在未来的工作中解决。

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 2015 ACM International Symposium on Wearable Computers

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