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DECENTRALIZED PRICE-DRIVEN DEMAND RESPONSE IN SMART ENERGY GRID

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<p>Real-time pricing (RTP) of electricity for consumers has long been argued to be
crucial for realizing the many envisioned benefits of demand flexibility in a smart
grid. However, many details of how to actually implement a RTP scheme are still
under debate. Since most of the organized wholesale electricity markets in the US
implement a two-settlement mechanism, with day-ahead electricity price forecasts
guiding financial and physical transactions in the next day and real-time ex post
prices settling any real-time imbalances, it is a natural idea to let consumers respond
to the day-ahead prices in real-time. However, if such an idea is not controlled
properly, the inherent closed-loop operation may lead consumers to all respond in
the same fashion, causing large swings of real-time demand and prices, which may
jeopardize system stability and increase consumers’ financial risks.
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<p>To overcome the potential uncertainties and undesired demand peak caused by
“selfish” behaviors by individual consumers under RTP, in this research, we develop a fully decentralized price-driven demand response (DR) approach under game-
theoretical frameworks. In game theory, agents usually make decisions based on their
belief about competitors’ states, which needs to maintain a large amount of knowledge and thus can be intractable and implausible for a large population. Instead,
we propose using regret-based learning in games by focusing on each agent’s own
history and utility received. We study two learning mechanisms: bandit learning
with incomplete information feedback, and low regret learning with full information
feedback. With the learning in games, we establish performance guarantees for each individual agent (i.e., regret minimization) and the overall system (i.e., bounds on
price of anarchy).</p><p><br></p></div></div></div><div><div><div>
<p>In addition to the game-theoretical framework for price-driven demand response,
we also apply such a framework for peer-to-peer energy trading auctions. The market-
based approach can better incentivize the development of distributed energy resources
(DERs) on demand side. However, the complexity of double-sided auctions in an
energy market and agents’ bounded rationality may invalidate many well-established
theories in auction design, and consequently, hinder market development. To address
these issues, we propose an automated bidding framework based on multi-armed
bandit learning through repeated auctions, and is aimed to minimize each bidder’s
cumulative regret. We also use such a framework to compare market outcomes of
three different auction designs.
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  1. 10.25394/pgs.9963659.v1
Identiferoai:union.ndltd.org:purdue.edu/oai:figshare.com:article/9963659
Date14 January 2021
CreatorsZibo Zhao (5930495)
Source SetsPurdue University
Detected LanguageEnglish
TypeText, Thesis
RightsCC BY 4.0
Relationhttps://figshare.com/articles/thesis/DECENTRALIZED_PRICE-DRIVEN_DEMAND_RESPONSE_IN_SMART_ENERGY_GRID/9963659

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