Help
Cart
Skip main navigation

Available Issues

April 12, 2013 - April 13, 2026

Available Issues

April 12, 2013 - April 13, 2026

Fair and Reliable Reconnections for Temporary Disruptions in Electric Distribution Networks

Published Online:28 Mar 2025https://doi.org/10.1287/ijoc.2022.0295

References

  • American Public Power Association (2020) APPA recognizes member utilities for reliability efforts. Accessed February 21, 2025, https://www.publicpower.org/publication/appa-recognizes-member-utilities-high-reliability.Google Scholar
  • Bansal N, Batra J, Farhadi M, Tetali P (2021) Improved approximations for min sum vertex cover and generalized min sum set cover. 32nd Annual ACM-SIAM Sympos. Discrete Algorithms (Association for Computing Machinery, New York), 998–1005.Google Scholar
  • Blackburn JL, Domin TJ (2007) Protective Relaying: Principles and Applications (CRC Press, Taylor & Francis, Boca Raton).Google Scholar
  • Bolacell GS, Venturini LF, da Rosa MA, Issicaba D (2020) Evaluating short circuit indices in an integrated assessment of distribution system adequacy and power quality. Electric Power Systems Res. 189:106657.CrossrefGoogle Scholar
  • California Public Utilities Commission (2016) Decision on the general rate cases of San Diego Gas & Electric Company and Southern California Gas Company and the proposed settlements. Accessed March 2, 2025, https://docs.cpuc.ca.gov/PublishedDocs/Published/G000/M164/K606/164606603.pdf.Google Scholar
  • Calinescu G, Chekuri C, Pal M, Vondrák J (2011) Maximizing a monotone submodular function subject to a matroid constraint. SIAM J. Comput. 40(6):1740–1766.CrossrefGoogle Scholar
  • Civanlar S, Grainger JJ, Yin H, Lee SSH (1988) Distribution feeder reconfiguration for loss reduction. IEEE Trans. Power Delivery 3(3):1217–1223.CrossrefGoogle Scholar
  • Cohen N, Nutov Z (2013) A (1+ln2)-approximation algorithm for minimum-cost 2-edge-connectivity augmentation of trees with constant radius. Theoret. Comput. Sci. 489:67–74.CrossrefGoogle Scholar
  • Deshpande A, Ives Z, Raman V (2007) Adaptive query processing. Foundations Trends® Databases 1(1):1–140.Google Scholar
  • Dokic SB, Rajakovic NL (2019) Security modelling of integrated gas and electrical power systems by analyzing critical situations and potentials for performance optimization. Energy 184:141–150.CrossrefGoogle Scholar
  • Dorfman Y, Orlova G (1972) Finding the maximal cut in a graph. Engrg. Cybernetics 10(3):502–506.Google Scholar
  • Eck BJ, Mevissen M (2015) Quadratic approximations for pipe friction. J. Hydroinformatics 17(3):462–472.CrossrefGoogle Scholar
  • Feige U, Lovász L, Tetali P (2002) Approximating min-sum set cover. Jansen K, Leonardi S, Vazirani V, eds. Approximation Algorithms for Combinatorial Optimization (Springer, Berlin, Heidelberg), 94–107.CrossrefGoogle Scholar
  • Glover JD, Sarma MS, Overbye T (2011) Power System Analysis & Design (Cengage Learning, Boston).Google Scholar
  • Goemans MX, Williamson DP (1995) Improved approximation algorithms for maximum cut and satisfiability problems using semidefinite programming. J. ACM 42(6):1115–1145.CrossrefGoogle Scholar
  • Gupta S, Hettle C, Molzahn D (2024) Fair and reliable reconnections for temporary disruptions in electric distribution networks. http://dx.doi.org/10.1287/ijoc.2022.0295.cd, https://github.com/INFORMSJoC/2022.0295.Google Scholar
  • Hall LA, Schulz AS, Shmoys DB, Wein J (1997) Scheduling to minimize average completion time: Off-line and on-line approximation algorithms. Math. Oper. Res. 22(3):513–544.LinkGoogle Scholar
  • Institute of Electrical and Electronics Engineers (2012) IEEE Guide for Electric Power Distribution Reliability Indices (IEEE Power & Energy Society, New York).Google Scholar
  • Iwata S, Tetali P, Tripathi P (2012) Approximating minimum linear ordering problems. Approximation, Randomization, and Combinatorial Optimization. Algorithms and Techniques (Springer, Berlin, Heidelberg), 206–217.Google Scholar
  • Joskow PL (2014) Incentive regulation in theory and practice: Electricity distribution and transmission networks. The Economics of Electricity Markets (University of Chicago Press, Chicago), 291–344.Google Scholar
  • Karp RM (1972) Reducibility among combinatorial problems. Complexity of Computer Computations (Springer, New York), 85–103.CrossrefGoogle Scholar
  • Kaufmann L, Getachew L, Makos M, Rich J (2010) System reliability regulation: A jurisdictional survey. Accessed March 2, 2025, https://www.oeb.ca/oeb/_Documents/EB-2010-0249/PEG_OEB_Service_Quality_Report.pdf.Google Scholar
  • Kroposki B, Bernstein A, King J, Vaidhynathan D, Zhou X, Chang CY, Dall’Anese E (2020) Autonomous energy grids: Controlling the future grid with large amounts of distributed energy resources. IEEE Power Energy Magazine 18(6):37–46.CrossrefGoogle Scholar
  • LaCommare KH, Eto JH, Dunn LN, Sohn MD (2018) Improving the estimated cost of sustained power interruptions to electricity customers. Energy 153:1038–1047.CrossrefGoogle Scholar
  • Larsen PH, LaCommare KH, Eto JH, Sweeney JL (2015) Assessing changes in the reliability of the U.S. electric power system. Technical Report LBNL-188741, Lawrence Berkeley National Laboratory, Berkeley, CA.Google Scholar
  • Larsen PH, Lawson M, LaCommare KH, Eto JH (2020) Severe weather, utility spending, and the long-term reliability of the U.S. power system. Energy 198:117387.CrossrefGoogle Scholar
  • Li W, Li Y, Chen C, Tan Y, Cao Y, Zhang M, Peng Y, Chen S (2020) A full decentralized multi-agent service restoration for distribution network with DGs. IEEE Trans. Smart Grid 11(2):1100–1111.CrossrefGoogle Scholar
  • Meliopoulos APS, Cokkinides GJ, Myrda P, Liu Y, Fan R, Sun L, Huang R, Tan Z (2017) Dynamic state estimation-based protection: Status and promise. IEEE Trans. Power Delivery 32(1):320–330.CrossrefGoogle Scholar
  • Midcontinent Independent System Operator (2018) Schedule 28: Demand curves for operating reserve, regulating and spinning reserve, and regulating reserve, up ramp capability, down ramp capability, and market-wide short-term reserve. Accessed March 2, 2025, https://docs.misoenergy.org/miso12-legalcontent/Schedule_28_-_Demand_Curves_for_Operating_Reserve_and_Regulating_Reserve.pdf.Google Scholar
  • Mishra S, Das D, Paul S (2017) A comprehensive review on power distribution network reconfiguration. Energy Systems 8(2):227–284.CrossrefGoogle Scholar
  • Mueller F, Zimmerlin M, de Jongh S, Suriyah MR, Leibfried T (2019) Comparison of multi-timestep optimization methods for gas distribution grids. Proc. 54th Internat. Univ. Power Engrg. Conf. (IEEE, Piscataway, NJ), 1–6.Google Scholar
  • PA Consulting (2020) ReliabilityOne Awards: Recognizing outstanding reliability in North American utilities. Accessed March 2, 2025, https://www.paconsulting.com/events/2020/reliabilityone-2020/.Google Scholar
  • Palmintier B, Elgindy T, Mateo C, Postigo F, Gómez T, de Cuadra F, Martinez PD (2021) Experiences developing large-scale synthetic U.S.-style distribution test systems. Electric Power Systems Res. 190:106665.CrossrefGoogle Scholar
  • Park YW (2020) MILP models for complex system reliability redundancy allocation with mixed components. INFORMS J. Comput. 32(3):600–619.LinkGoogle Scholar
  • Phillips C, Stein C, Wein J (1998) Minimizing average completion time in the presence of release dates. Math. Programming 82(1):199–223.CrossrefGoogle Scholar
  • Schröder T, Kuckshinrichs W (2015) Value of lost load: An efficient economic indicator for power supply security? A literature review. Frontiers Energy Res. 3:55.CrossrefGoogle Scholar
  • Torres BS, Ferreira LR, Aoki AR (2018) Distributed intelligent system for self-healing in smart grids. IEEE Trans. Power Delivery 33(5):2394–2403.CrossrefGoogle Scholar
  • Uluski R (2012) Optimal network reconfiguration for electric distribution systems. Technical Report 1022005, EPRI. Accessed March 2, 2025, https://www.epri.com/research/products/1022005.Google Scholar
  • U.S. Energy Information Administration (2019) 2018 state electricity profiles. Accessed March 2, 2025, https://www.eia.gov/electricity/state/.Google Scholar
  • U.S. Energy Information Administration (2022) How much electricity is lost in transmission and distribution in the United States? Accessed March 2, 2025, https://www.eia.gov/tools/faqs/faq.php?id=105&t=3.Google Scholar
  • van der Walt HL, Bansal RC, Naidoo R (2018) PV based distributed generation power system protection: A review. Renewable Energy Focus 24:33–40.CrossrefGoogle Scholar
  • Wang Y, Wang S, Wu L (2017) Distributed optimization approaches for emerging power systems operation: A review. Electric Power Systems Res. 144:127–135.CrossrefGoogle Scholar
  • Whited DE, Shier DR, Jarvis JP (1990) Reliability computations for planar networks. ORSA J. Comput. 2(1):46–60.LinkGoogle Scholar
  • World Bank (2018) Electric power transmission and distribution losses (% of output). Accessed March 2, 2025, https://data.worldbank.org/indicator/EG.ELC.LOSS.ZS.Google Scholar
Previous
Back to Top
Next
INFORMS site uses cookies to store information on your computer. Some are essential to make our site work; Others help us improve the user experience. By using this site, you consent to the placement of these cookies. Please read our Privacy Statement to learn more.
Agree