Distributed demand peak reduction with non-cooperative players and minimal communication

Collins, Lyle D.; Middleton, Richard H.

Title: Distributed demand peak reduction with non-cooperative players and minimal communication
Creator: Collins, Lyle D.; Middleton, Richard H.
Relation: IEEE Transactions on Smart Grid Vol. 10, Issue 1, p. 153-162
Publisher Link: http://dx.doi.org/10.1109/TSG.2017.2734113
Publisher: Institute of Electrical and Electronics Engineers (IEEE)
Resource Type: journal article
Date: 2019
Description: Demand response technology offers the exciting potential to reduce peak energy demand, electricity infrastructure expenditure, and household electricity bills. In this paper, a pricing mechanism that relies on non-cooperative heterogeneous loads knowledgeable of future energy consumption-such as electric vehicles-transferring minimal amounts of information to achieve peak demand response in a distributed fashion, whilst maintaining the privacy of the players. The existence of a Nash equilibrium is proven, as well as convergence conditions proving uniqueness of a Nash equilibrium and the stability of an “Iterated Synchronous Best Response Algorithm.” The price of anarchy (PoA) is proven to approach 1 as the number of homogeneous players approaches infinity, indicating there is no advantage to cooperation for a large number of similar players. Finally, simulation results are presented which suggest that the PoA for a system with heterogeneous players is likely to be proportional to the spread of energy consumption constraints.
Subject: demand-side management; distributed algorithms; energy consumption; load management; power system control; power system management; smart grids; transactive energy
Identifier: http://hdl.handle.net/1959.13/1416714
Identifier: uon:37104
Identifier: ISSN:1949-3053
Language: eng
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