A Recommender System for Predictive Control of Heating Systems in Economic Demand Response Programs

IF 7.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Open Journal of Industry Applications Pub Date : 2022-03-27 DOI:10.1109/OJIA.2022.3178235
David Toquica;Kodjo Agbossou;Roland Malhamé;Nilson Henao;Sousso Kelouwani;Michaël Fournier
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引用次数: 1

Abstract

Flexibility from demand-side resources is increasingly required in modern power systems to maintain the dynamic balance between demand and supply. This flexibility comes from elastic users managing controllable loads. In this context, controlling Electric Space Heaters (ESHs) is of particular interest because it can leverage building inner thermal storage capacity to shift consumption while maintaining comfort conditions. Some economic Demand Response (DR) programs have considered exploiting EHSs flexibility potentials in recent years. However, these programs still struggle to engage customers due to the complexity of processing price signals for inexpert users. Therefore, it is necessary to develop automated tools for helping users to operate their loads. Accordingly, this paper presents a recommender system based on Gaussian processes to discover users’ valuations of thermal comfort and perform the predictive control of their ESHs. The proposed method enables customers to participate in DR programs and impose their preferences through straightforward queries instead of directly changing control parameters. Validation results demonstrate that users maximize their utility by supplying noiseless and consistent data to the recommender system. Additionally, the suggested approach achieves a higher acceptance rate than other methods from the literature, such as persistency and support vector machines.
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经济需求响应程序中供热系统预测控制的推荐系统
现代电力系统越来越需要需求侧资源的灵活性,以保持需求和供应之间的动态平衡。这种灵活性来自于弹性用户管理可控负载。在这种情况下,控制空间电加热器(ESH)特别令人感兴趣,因为它可以利用建筑物内部的储热能力来改变消耗,同时保持舒适条件。近年来,一些经济需求响应(DR)项目已经考虑开发EHS的灵活性潜力。然而,由于为不熟练的用户处理价格信号的复杂性,这些程序仍然难以吸引客户。因此,有必要开发自动化工具来帮助用户操作负载。因此,本文提出了一种基于高斯过程的推荐系统,以发现用户对热舒适性的评价,并对其ESH进行预测控制。所提出的方法使客户能够参与DR计划,并通过直接查询而不是直接更改控制参数来强加他们的偏好。验证结果表明,用户通过向推荐系统提供无噪声和一致的数据来最大限度地提高他们的效用。此外,所提出的方法比文献中的其他方法(如持久性和支持向量机)获得了更高的接受率。
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