Enabling Self-aware Smart Buildings by Augmented Reality

Proceedings of the Ninth International Conference on Future Energy Systems Pub Date : 2017-08-17 DOI:10.1145/3208903.3208943

Muhammad Aftab, Chi-Kin Chau

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引用次数: 10

Abstract

Conventional HVAC control systems are usually incognizant of the physical structures and materials of buildings. These systems merely follow pre-set HVAC control logic based on abstract building thermal response models, which are rough approximations to true physical models, ignoring dynamic spatial variations in built environments. To enable more accurate and responsive HVAC control, this paper introduces the notion of self-aware smart buildings, such that buildings are able to explicitly construct physical models of themselves (e.g., incorporating building structures and materials, and thermal flow dynamics). The question is how to enable self-aware buildings that automatically acquire dynamic knowledge of themselves. This paper presents a novel approach using augmented reality. The extensive user-environment interactions in augmented reality not only can provide intuitive user interfaces for building systems, but also can capture the physical structures and possibly materials of buildings accurately to enable real-time building simulation and control. This paper presents a building system prototype incorporating augmented reality, and discusses its applications.

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通过增强现实实现自我感知的智能建筑

传统的暖通空调控制系统通常无法识别建筑物的物理结构和材料。这些系统仅仅遵循基于抽象建筑热响应模型的预先设定的HVAC控制逻辑，这些模型是对真实物理模型的粗略近似，忽略了建筑环境中的动态空间变化。为了实现更准确和响应更快的暖通空调控制，本文引入了自我意识智能建筑的概念，使建筑能够明确地构建自身的物理模型(例如，结合建筑结构和材料，以及热流动力学)。问题是如何使具有自我意识的建筑能够自动获取自身的动态知识。本文提出了一种利用增强现实技术的新方法。增强现实中广泛的用户-环境交互不仅可以为建筑系统提供直观的用户界面，而且可以准确地捕捉建筑物的物理结构和可能的材料，从而实现实时的建筑模拟和控制。本文介绍了一个结合增强现实技术的建筑系统原型，并对其应用进行了讨论。

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 Ninth International Conference on Future Energy Systems

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