Weijie Xia, Chenguang Wang, Peter Palensky, Pedro P. Vergara
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引用次数: 0
Abstract
Residential Load Profile (RLP) generation and prediction are critical for the
operation and planning of distribution networks, particularly as diverse
low-carbon technologies are increasingly integrated. This paper introduces a
novel flow-based generative model, termed Full Convolutional Profile Flow
(FCPFlow), which is uniquely designed for both conditional and unconditional
RLP generation, and for probabilistic load forecasting. By introducing two new
layers--the invertible linear layer and the invertible normalization layer--the
proposed FCPFlow architecture shows three main advantages compared to
traditional statistical and contemporary deep generative models: 1) it is
well-suited for RLP generation under continuous conditions, such as varying
weather and annual electricity consumption, 2) it shows superior scalability in
different datasets compared to traditional statistical, and 3) it also
demonstrates better modeling capabilities in capturing the complex correlation
of RLPs compared with deep generative models.
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