Delay-Aware Wide-Area Control of Power Systems over Sparse Communications with Analytical Guarantees

Author(s)

Chakrabortty, Aranya; Hussain, Alefiya; Dibaji, SeyedMehran; Annaswamy, Anuradha M

Abstract

A distributed and sparse control strategy is proposed in this paper for wide-area power system networks. A network control design is proposed that makes use of the notion of communication sparsity and is delay-aware. Communication sparsity is imposed to reduce the cost of the network design, and the delay-aware aspect of the control design accommodates the fact that the sensor measurements utilized may stem from a local generator, generators within an area or those from another area. The latter is addressed using the same notion of sparsity but in a virtual sense by zeroing out the gains that correspond to measurements that are yet to arrive. Both sparsity features are introduced in the control design using the well-known Geromel algorithm. The designs are verified through a simulation study of the IEEE-39 bus, where it is shown that with 90% less communication channels, we can obtain 84% of the performance compared the case when neither of the two sparsity features is present. Index Terms: wide-area control, sparse communication, cyberphysical systems, delays

Date issued

2018-01-30

URI

http://hdl.handle.net/1721.1/113352

Department

Massachusetts Institute of Technology. Department of Mechanical Engineering

Journal

forthcoming in American Control Conference 2018

Publisher

Institute of Electrical and Electronics Engineers (IEEE)

Citation

Dibaji, Seyed Mehran et al. "Delay-Aware Wide-Area Control of Power Systems over Sparse Communications with Analytical Guarantees." Forthcoming in American Control Conference (ACC), 2018.

Version: Author's final manuscript