Digital Twin Based Evolutionary Building Facility Control Optimization

2022 IEEE Congress on Evolutionary Computation (CEC) Pub Date : 2022-07-18 DOI:10.1109/CEC55065.2022.9870207

Kohei Fukuhara, Ryo Kumagai, Fukawa Yuta, S. Tanabe, Hiroki Kawano, Yoshihiro Ohta, Hiroyuki Sato

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引用次数: 2

Abstract

This work addresses a real-world building facility control problem by using evolutionary algorithms. The variables are facility control parameters, such as the start/stop time of air-conditioning, lighting, and ventilation operation, etc. The problem has six objectives: annual energy consumption, elec-tricity cost, overall satisfaction, thermal satisfaction, indoor air quality satisfaction, and lighting satisfaction. The problem has five constraints: power consumption, temperature, humidity, $\mathbf{CO}_{2}$ concentration, and average illuminance. To solve the problem, we utilize IBEA framework. For efficient solution generation, we employ the steady-state model for IBEA. We propose the total constraint win-loss rank for multiple constraints to treat multiple constraints equally. Experimental results on artificial test problems and building facility control problems show that the proposed constraint IBEA with steady-state and total con-straint win-loss rank archives better search performance than conventional representative algorithms.

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基于数字孪生的建筑设施演化控制优化

这项工作通过使用进化算法解决了一个现实世界的建筑设施控制问题。变量为设施控制参数，如空调开/停时间、照明、通风运行等。问题有六个目标:年能耗、电费、整体满意度、热满意度、室内空气质量满意度和照明满意度。该问题有五个约束条件:功耗、温度、湿度、$\mathbf{CO}_{2}$浓度和平均照度。为了解决这个问题，我们采用了IBEA框架。为了有效地生成解，我们采用了IBEA的稳态模型。为了平等地对待多个约束，我们提出了多个约束的总约束盈亏秩。在人工测试问题和建筑设施控制问题上的实验结果表明，本文提出的具有稳态和全约束输赢等级档案的约束IBEA比传统的代表性算法具有更好的搜索性能。

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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来源期刊

2022 IEEE Congress on Evolutionary Computation (CEC)

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