# Distributed Control Enforcing Group Sparsity in Smart Grids

@article{Sauerteig2020DistributedCE,
title={Distributed Control Enforcing Group Sparsity in Smart Grids},
author={Philipp Sauerteig and Yuning Jiang and Boris Houska and Karl Worthmann},
journal={ArXiv},
year={2020},
volume={abs/2002.03393}
}
• Published 9 February 2020
• Engineering
• ArXiv
1 Citations

## References

SHOWING 1-10 OF 28 REFERENCES

### A Distributed Control Strategy for Reactive Power Compensation in Smart Microgrids

• Engineering, Mathematics
IEEE Transactions on Automatic Control
• 2013
An approximate model for the power distribution network is proposed, which allows the problem of optimal reactive power compensation for the minimization of power distribution losses in a smart microgrid to be cast into the class of convex quadratic, linearly constrained, optimization problems.

### Distributed Control of Residential Energy Systems using a Market Maker

• Engineering
• 2014
Abstract The recent rapid uptake of residential solar photovoltaic (PV) installations provides many challenges for electricity distribution networks designed for one-way power flow from the

### Structurally Constrained $\ell_{1}$-Sparse Control of Power Systems: Online Design and Resiliency Analysis

• Engineering, Computer Science
2018 Annual American Control Conference (ACC)
• 2018
A sparse Linear Quadratic Regulator (LQR) design for damping oscillations in wide-area power system networks and an algorithm is provided where the designed sparse controller is also used to enhance the resiliency of the closed-loop system against denial-of-service (DoS) attacks.

### Noncooperative and Cooperative Optimization of Distributed Energy Generation and Storage in the Demand-Side of the Smart Grid

• Engineering, Computer Science
IEEE Transactions on Signal Processing
• 2013
This paper focuses on a smart grid in which the demand-side comprises traditional users as well as users owning some kind of distributed energy source and/or energy storage device, by means of a day-ahead demand- side management mechanism regulated through an independent central unit.

### Distributed and Decentralized Control of Residential Energy Systems Incorporating Battery Storage

• Engineering
IEEE Transactions on Smart Grid
• 2015
Four control methodologies to mitigate difficulties using small-scale distributed battery storage are presented and validated and compared using data on load and generation profiles from customers in an Australian electricity distribution network.

### Dynamic dual decomposition for distributed control

• A. Rantzer
• Computer Science
2009 American Control Conference
• 2009
It is shown how dynamic price mechanisms can be used for decomposition and distributed optimization of feedback systems, with dynamics in both decision variables and prices.

### Realizing smart grid benefits requires energy optimization algorithms at residential level

• Engineering
ISGT 2011
• 2011
One of the objectives of smart grid is to enable participation by informed customers in order to realize money and energy savings, and environmental benefits. This paper discusses the critical role

### Control Strategies for Microgrids With Distributed Energy Storage Systems: An Overview

• Engineering
IEEE Transactions on Smart Grid
• 2018
The range of services distributed ES systems can provide, and the control challenges they introduce are reviewed, and multi-agent control with agents satisfying Wooldridge’s definition of intelligence is proposed as a promising direction for future research.

### Selfoptimization Modes of Electric Grids with Renewable Energy Sources Using the Principle of Least Action

• Engineering
2019 IEEE 6th International Conference on Energy Smart Systems (ESS)
• 2019
The article devoted creating optimal conditions for the integration of renewable energy source (RES) into electric grids, which were designed with power from centralized generation at large power