Physics-Informed Building Occupancy Detection: a Switching Process with Markov Regime

Amir-Mohammad Esmaieeli-Sikaroudi, Boris Goikhman, Dmitri Chubarov, Hung Dinh Nguyen, Michael Chertkov, Petr Vorobev
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Abstract

Energy efficiency of buildings is considered to be one of the major means of achieving the net-zero carbon goal around the world. The big part of the energy savings are supposed to be coming from optimizing the operation of the building heating, ventilation, and air conditioning (HVAC) systems. There is a natural trade-off between the energy efficiency and the indoor comfort level, and finding an optimal operating schedule/regime requires knowing the occupancy of different spaces inside of the building. Moreover, the COVID-19 pandemic has also revealed the need to sustain the high quality of the indoor air in order to reduce the risk of spread of infection. Occupancy detection from indoor sensors is thus an important practical problem. In the present paper, we propose detection of occupancy based on the carbon dioxide measurements inside the building. In particular, a new approach based on the, so-called, switching auto-regressive process with Markov regime is presented and justified by the physical model of the carbon dioxide concentration dynamics. We demonstrate the efficiency of the method compared to simple Hidden Markov approaches on simulated and real-life data. We also show that the model is flexible and can be generalized to account for different ventilation regimes, simultaneously detecting the occupancy and the ventilation rate.
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物理信息型建筑物占用检测:马尔可夫机制的切换过程
建筑节能被认为是全世界实现净零碳目标的主要手段之一。节能的主要部分应该来自优化建筑供暖、通风和空调(HVAC)系统的运行。能源效率和室内舒适度之间存在着天然的矛盾,要找到最佳的运行时间表/时间,就必须了解建筑物内不同空间的占用情况。此外,COVID-19 大流行病也揭示了维持高质量室内空气以降低感染传播风险的必要性。因此,通过室内传感器检测占用率是一个重要的实际问题。在本文中,我们提出了基于建筑物内二氧化碳测量值的占用检测方法。我们特别提出了一种基于马尔可夫机制的所谓切换自回归过程的新方法,并通过二氧化碳浓度动态物理模型进行了论证。我们在模拟数据和实际数据上证明了该方法与简单的隐马尔可夫方法相比的效率。此外,我们还证明了该模型的灵活性,它可以通用于不同的通风系统,同时检测占用率和通风率。
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