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引用次数: 24
摘要
建筑内部的高效能源利用是一个关键问题,特别是对于高负荷的供暖、通风和空调(HVAC)系统:全球30%以上的能源消耗用于建筑内部的HVAC使用。对暖通空调的使用意识和有效管理有可能显著降低相关成本。然而,严格的储蓄政策可能与用户的舒适形成对比。本文提出了一种智能暖通空调系统,在能源成本和用户热舒适之间实现了权衡。这种以用户为中心的方法利用社会物联网(Social Internet of Things, SIoT)范式,通过利用社会意识与其他对象进行交互的虚拟对象来增强现实世界的对象。因此,建筑热剖面的特点是驱动HVAC最合适的工作时间的选择。实验结果证明,与静态或传统场景相比,所实现的系统能够适应用户的需求,保证可接受的舒适度,同时降低能源成本。
Energy efficiency in smart building: A comfort aware approach based on Social Internet of Things
Efficient energy usage inside buildings is a critical problem, particularly for high loads such as the Heating, Ventilation and Air Conditioning (HVAC) systems: over 30% of the global energy consumption resides in HVAC usage inside buildings. Usage awareness and efficient management of HVAC have the potential to significantly reduce related costs. Nevertheless, strict saving policies may contrast with users' comfort. This paper proposes a Smart HVAC system where a trade-off between energy costs and thermal comfort of users is achieved. This user-centric approach takes advantage of the Social Internet of Things (SIoT) paradigm to augment real world objects with a virtual counterpart that leverages social consciousness to interact with other objects. Accordingly, a building thermal profile is characterized to drive the selection of the most appropriate working times for the HVAC. Experimental results prove that the implemented system is able to adapt to user's needs and ensure an acceptable comfort level while at the same time reducing energy costs with reference to static or traditional scenarios.
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