A Fast Distributed Algorithm for Large-Scale Demand Response Aggregation
March 01, 2016 Β· Declared Dead Β· π IEEE Transactions on Smart Grid
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Authors
Sleiman Mhanna, Archie Chapman, Gregor Verbic
arXiv ID
1603.00149
Category
cs.DC: Distributed Computing
Cross-listed
math.OC
Citations
108
Venue
IEEE Transactions on Smart Grid
Last Checked
4 months ago
Abstract
A major challenge to implementing residential demand response is that of aligning the objectives of many households, each of which aims to minimize its payments and maximize its comfort level, while balancing this with the objectives of an aggregator that aims to minimize the cost of electricity purchased in a pooled wholesale market. This paper presents a fast distributed algorithm for aggregating a large number of households with a mixture of discrete and continuous energy levels. A distinctive feature of the method in this paper is that the nonconvex DR problem is decomposed in terms of households as opposed to devices, which allows incorporating more intricate couplings between energy storage devices, appliances and distributed energy resources. The proposed method is a fast distributed algorithm applied to the double smoothed dual function of the adopted DR model. The method is tested on systems with up to 2560 households, each with 10 devices on average. The proposed algorithm is designed to terminate in 60 iterations irrespective of system size, which can be ideal for an on-line version of this problem. Moreover, numerical results show that with minimal parameter tuning, the algorithm exhibits a very similar convergence behavior throughout the studied systems and converges to near-optimal solutions, which corroborates its scalability.
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