Wall++:房间级交互和环境感知传感

Yang Zhang, Chouchang Yang, S. Hudson, Chris Harrison, A. Sample
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引用次数: 102

摘要

人类环境的典型代表是墙壁、家庭、办公室、学校、博物馆、医院,几乎所有你能想到的室内环境都有墙壁。在许多情况下,它们构成了易于进入的室内表面积的大部分,但它们是静态的,它们的主要功能是作为一堵墙,分隔空间和隐藏基础设施。我们提出了wall++,这是一种低成本的传感方法,可以使墙壁成为智能基础设施。墙壁不仅可以分隔空间,还可以通过感知和互动来增强房间。我们的墙壁处理和传感硬件可以跟踪用户的触摸和手势,如果他们离得很近,还可以估计他们的身体姿势。通过捕捉空气中的电磁噪声,我们还可以探测到哪些设备处于活动状态,以及它们的位置。通过一系列的评估,我们证明了Wall++可以实现强大的房间级交互式和上下文感知应用程序。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Wall++: Room-Scale Interactive and Context-Aware Sensing
Human environments are typified by walls, homes, offices, schools, museums, hospitals and pretty much every indoor context one can imagine has walls. In many cases, they make up a majority of readily accessible indoor surface area, and yet they are static their primary function is to be a wall, separating spaces and hiding infrastructure. We present Wall++, a low-cost sensing approach that allows walls to become a smart infrastructure. Instead of merely separating spaces, walls can now enhance rooms with sensing and interactivity. Our wall treatment and sensing hardware can track users' touch and gestures, as well as estimate body pose if they are close. By capturing airborne electromagnetic noise, we can also detect what appliances are active and where they are located. Through a series of evaluations, we demonstrate Wall++ can enable robust room-scale interactive and context-aware applications.
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