MiniKers:交互驱动的智能环境自动化

Xiaoying Yang, Jacob Sayono, Jess Xu, Jiahao Li, Josiah D. Hester, Yang Zhang
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引用次数: 5

摘要

物体的自动化操作使数十亿人的生活更容易、更方便,尤其是那些运动能力有限的人。另一方面,即使是身体健全的用户也可能并不总是能够执行手动操作(例如,双手被占用),并且出于卫生目的(例如,非接触式设备),手动操作可能是不可取的。因此,运动触发门、遥控窗帘、非接触式马桶盖等自动化系统在私人和公共环境中越来越受欢迎。然而,这些系统受到复杂的建筑布线或较短的电池寿命的阻碍,从而抵消了它们在可访问性、节能、医疗保健和其他领域的积极好处。在这篇论文中,我们探讨了这些类型的物体是如何通过一种独特的能源——用户交互——产生的能量来永久供电的,具体来说,就是用户在买得起的时候对物体进行手动操作。我们的假设是,用户对对象操作的能力是异构的,在大多数环境中都需要手动和自动操作,并且通常不需要频繁地进行自动操作—例如,在需要自动操作之前,公共空间中的自动门通常需要手动打开许多次。这些人工操作所获得的能量足以为一次自动操作提供动力。我们通过升级利用由通用骨干嵌入式系统驱动的各种机械设计的设备来实现这一想法。我们称这些设备为MiniKers。我们构建了一个定制的驱动电路,可以使电机机构在发电(即手动操作)和驱动对象(即自动操作)之间切换。我们设计了各种各样的机械机制来改造现有的物体,并通过48小时的部署研究评估了我们的系统,这证明了MiniKers的有效性,并为这种以人为动力的方法提供了启发,作为解决智能环境自动化所需能源的可行解决方案。
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MiniKers: Interaction-Powered Smart Environment Automation
Automating operations of objects has made life easier and more convenient for billions of people, especially those with limited motor capabilities. On the other hand, even able-bodied users might not always be able to perform manual operations (e.g., both hands are occupied), and manual operations might be undesirable for hygiene purposes (e.g., contactless devices). As a result, automation systems like motion-triggered doors, remote-control window shades, contactless toilet lids have become increasingly popular in private and public environments. Yet, these systems are hampered by complex building wiring or short battery lifetimes, negating their positive benefits for accessibility, energy saving, healthcare, and other domains. In this paper we explore how these types of objects can be powered in perpetuity by the energy generated from a unique energy source – user interactions, specifically, the manual manipulations of objects by users who can afford them when they can afford them. Our assumption is that users’ capabilities for object operations are heterogeneous, there are desires for both manual and automatic operations in most environments, and that automatic operations are often not needed as frequently – for example, an automatic door in a public space is often manually opened many times before a need for automatic operation shows up. The energy harvested by those manual operations would be sufficient to power that one automatic operation. We instantiate this idea by upcycling common everyday objects with devices which have various mechanical designs powered by a general-purpose backbone embedded system. We call these devices, MiniKers . We built a custom driver circuit that can enable motor mechanisms to toggle between generating powers (i.e., manual operation) and actuating objects (i.e., automatic operation). We designed a wide variety of mechanical mechanisms to retrofit existing objects and evaluated our system with a 48-hour deployment study, which proves the efficacy of MiniKers as well as shedding light into this people-as-power approach as a feasible solution to address energy needed for smart environment automation.
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