Internal Lighting Control on the Basis of Fuzzy Inference

2018 International Ural Conference on Green Energy (UralCon) Pub Date : 2018-10-01 DOI:10.1109/URALCON.2018.8544341

N. G. Semenova, L. Semenova

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Abstract

The urgency of the problem is caused by the need to develop and implement energy-efficient and energy-reducing technologies, as one of the priority strategies for innovative development of the Russian Federation, and the lack of energy efficient lighting control systems, which consume up to 30% of the generated electricity. The aim of the research is to develop an energy-efficient indoor lighting control system for the production facility. The research methods are fuzzy modeling and the Mamdani fuzzy inference method, implemented in the Delphi programming environment. The main results of the research: a new method for energy-efficient control of the capacity of indoor lighting facilities is proposed. It differs from existing ones in that the control effect is created by forming two input signals from measuring sensors: lighting and people present, taking into account the regulated standards of production facilities illumination. A new mathematical model for determining the optimal value of the power consumption by the indoor lighting facilities of production facilities is developed on the basis of the Mamdani fuzzy inference method. A hardware-software stand was developed for carrying out experimental studies.

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基于模糊推理的室内照明控制

问题的紧迫性是由于需要开发和实施节能和节能技术，作为俄罗斯联邦创新发展的优先战略之一，以及缺乏节能照明控制系统，这消耗了高达30%的发电量。研究的目的是为生产设施开发一种节能的室内照明控制系统。研究方法是模糊建模法和Mamdani模糊推理法，在Delphi编程环境下实现。研究的主要成果是:提出了一种新的室内照明设施容量的节能控制方法。它与现有的不同之处在于，在考虑到生产设施照明的规范标准的情况下，通过形成测量传感器的两个输入信号:照明和在场人员来产生控制效果。在Mamdani模糊推理法的基础上，建立了生产设施室内照明用电最优值的数学模型。为进行实验研究，开发了一种硬件软件平台。

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2018 International Ural Conference on Green Energy (UralCon)

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