Daniel K. Molzahn
Daniel K. Molzahn
Assistant Professor at the Georgia Institute of Technology. Computational Engineer at Argonne
Verified email at gatech.edu - Homepage
TitleCited byYear
A survey of distributed optimization and control algorithms for electric power systems
DK Molzahn, F Dörfler, H Sandberg, SH Low, S Chakrabarti, R Baldick, ...
IEEE Transactions on Smart Grid 8 (6), 2941-2962, 2017
2742017
Examining the limits of the application of semidefinite programming to power flow problems
BC Lesieutre, DK Molzahn, AR Borden, CL DeMarco
2011 49th annual Allerton conference on communication, control, and …, 2011
2412011
Implementation of a large-scale optimal power flow solver based on semidefinite programming
DK Molzahn, JT Holzer, BC Lesieutre, CL DeMarco
IEEE Transactions on Power Systems 28 (4), 3987-3998, 2013
2212013
Sparsity-exploiting moment-based relaxations of the optimal power flow problem
DK Molzahn, IA Hiskens
IEEE Transactions on Power Systems 30 (6), 3168-3180, 2014
1392014
Moment-based relaxation of the optimal power flow problem
DK Molzahn, IA Hiskens
2014 Power Systems Computation Conference, 1-7, 2014
852014
A Sufficient Condition for Power Flow Insolvability with Applications to Voltage Stability Margins
DK Molzahn, BC Lesieutre, CL DeMarco
Power Systems, IEEE Transactions on 28 (3), 2592-2601, 2013
622013
A sufficient condition for global optimality of solutions to the optimal power flow problem
DK Molzahn, BC Lesieutre, CL DeMarco
IEEE Transactions on Power Systems 29 (2), 978-979, 2013
532013
Investigation of non-zero duality gap solutions to a semidefinite relaxation of the optimal power flow problem
DK Molzahn, BC Lesieutre, CL DeMarco
2014 47th Hawaii International Conference on System Sciences, 2325-2334, 2014
482014
A survey of relaxations and approximations of the power flow equations
DK Molzahn, IA Hiskens
Foundations and Trends® in Electric Energy Systems 4 (1-2), 1-221, 2019
472019
A Laplacian-based approach for finding near globally optimal solutions to OPF problems
DK Molzahn, C Josz, IA Hiskens, P Panciatici
IEEE Transactions on Power Systems 32 (1), 305-315, 2016
422016
Advanced optimization methods for power systems
P Panciatici, MC Campi, S Garatti, SH Low, DK Molzahn, AX Sun, ...
2014 Power Systems Computation Conference, 1-18, 2014
412014
Recent advances in computational methods for the power flow equations
D Mehta, DK Molzahn, K Turitsyn
2016 American Control Conference (ACC), 1753-1765, 2016
402016
Moment/sum-of-squares hierarchy for complex polynomial optimization
C Josz, DK Molzahn
arXiv preprint arXiv:1508.02068, 2015
402015
Convex relaxations of optimal power flow problems: An illustrative example
DK Molzahn, IA Hiskens
IEEE Transactions on Circuits and Systems I: Regular Papers 63 (5), 650-660, 2016
372016
Counterexample to a continuation-based algorithm for finding all power flow solutions
DK Molzahn, BC Lesieutre, H Chen
IEEE Transactions on Power Systems 28 (1), 564-565, 2012
362012
Lasserre hierarchy for large scale polynomial optimization in real and complex variables
C Josz, DK Molzahn
SIAM Journal on Optimization 28 (2), 1017-1048, 2018
312018
Sufficient conditions for power flow insolvability considering reactive power limited generators with applications to voltage stability margins
DK Molzahn, V Dawar, BC Lesieutre, CL DeMarco
2013 IREP Symposium Bulk Power System Dynamics and Control-IX Optimization …, 2013
312013
Computing the feasible spaces of optimal power flow problems
DK Molzahn
IEEE Transactions on Power Systems 32 (6), 4752-4763, 2017
282017
Error bounds on the DC power flow approximation: A convex relaxation approach
K Dvijotham, DK Molzahn
2016 IEEE 55th Conference on Decision and Control (CDC), 2411-2418, 2016
272016
Toward topologically based upper bounds on the number of power flow solutions
DK Molzahn, D Mehta, M Niemerg
2016 American Control Conference (ACC), 5927-5932, 2016
252016
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