[1. Rebours, Y. G., Kirschen, D. S., Trotignon, M., & Rossignol, S. (2007). A survey of frequency and voltage control ancillary services – Part I: Technical Features. IEEE Transactions on Power Systems, 22(1), 350–357.10.1109/TPWRS.2006.888963]Search in Google Scholar
[2. H. Holttinen, Cutululis, N. A., Gubina, A., Keane, A., & Van Hulle, F. (2012). Ancillary services: Technical specifications, system needs and costs. Deliverable D 2.2. REserviceS project.]Search in Google Scholar
[3. ENTSO-E. (2015). Balancing and Ancillary Services Markets. ENTSO-E. [Online]. [Accessed: 10 September 2018] https://docstore.entsoe.eu/about-entso-e/market/balancing-and-ancillary-services-markets/Pages/default.aspx]Search in Google Scholar
[4. Federal Energy Regulatory Commission. (2016). Glossary. [Online]. [Accessed: 10 September 2018] https://www.ferc.gov/market-oversight/guide/glossary.asp]Search in Google Scholar
[5. EURELECTRIC. (2004). Ancillary Services. Unbundling Electricity Products – An Emerging Market. EURELECTRIC Thermal Working Group, Ref: 2003-150-0007.]Search in Google Scholar
[6. Kroposki, B., Johnson, B., Zhang, Y., Gevorgian, V., Denholm, P., Hodge, B.-M., & Hannegan, B. (2017). Achieving a 100% renewable grid: Operating electric power systems with extremely high levels of variable renewable energy. IEEE Power and Energy Magazine, 15(2), 61–73.10.1109/MPE.2016.2637122]Search in Google Scholar
[7. Alizadeh, M. I., Parsa Moghaddam, M., Amjady, N., Siano, P., & Sheikh-El-Eslami, M.K. (2016). Flexibility in future power systems with high renewable penetration: A review. Renewable and Sustainable Energy Reviews, 57, 1186–1193, ISSN 1364-0321.10.1016/j.rser.2015.12.200]Search in Google Scholar
[8. Palizban, O., & Kauhaniemi, K. (2016). Energy storage systems in modern grids – Matrix of technologies and applications. Journal of Energy Storage, 6, 248–259, ISSN 2352-152X.10.1016/j.est.2016.02.001]Search in Google Scholar
[9. Jabir, H. J., Teh, J., Ishak, D., & Abunima, H. (2018). Impacts of demand-side management on electrical power systems: A review. Energies, 11, 1050.10.3390/en11051050]Search in Google Scholar
[10. Mashhour, E., & Moghaddas-Tafreshi, S. (2011). Bidding strategy of virtual power plant for participating in energy and spinning reserve markets – Part I: Problem formulation. IEEE Transaction on Power Systems, 26(2), 949–956.10.1109/TPWRS.2010.2070884]Search in Google Scholar
[11. Litjens, G.B.M.A, Worrell, E., & van Sark W.G.J.H.M. (2018). Economic benefits of combining self-consumption enhancement with frequency restoration reserves provision by photovoltaic-battery systems. Applied Energy, 223, 172–187.10.1016/j.apenergy.2018.04.018]Search in Google Scholar
[12. Chen, S., Ping, J., Le, X., Yan, Z., Xu, X., Yao, L., & Xi, J. (2018). Forming bidding curves for a distribution system operator. IEEE Transaction on Power Systems, 33(5).10.1109/TPWRS.2018.2821673]Search in Google Scholar
[13. E. Stai, Reyes Chamorro, L. E., Sossan, F., Le Boudec, J.-Y., & Paolone, M. (2018). Dispatching stochastics heterogeneous resources accounting for grid and battery losses. IEEE Transaction on Smart Grids, 9(6).10.1109/TSG.2017.2715162]Search in Google Scholar
[14. Nguyen, H., Le, L.B., & Wang, Z. (2018). A bidding strategy for virtual power plants with the intraday demand response exchange market using stochastic programming. IEEE Transaction on Industrial Applications, 54(4).10.1109/TIA.2018.2828379]Search in Google Scholar
[15. Nguyen, H. & Le, L. (2018). Bi-objective-based cost allocation for cooperative demand-side resource aggregators. IEEE Transaction on Smart Grids, 9(5).10.1109/TSG.2017.2653060]Search in Google Scholar
[16. Kundur, P., Balu, N. J., & Lauby, M. G. (1994). Power system stability and control (Volume 7). New York: McGraw-Hill.]Search in Google Scholar
[17. ENTSO-E. (2016). Nordic Balancing Philosophy. ENTSO-E.]Search in Google Scholar
[18. Moreno, O. J. (2017). Ancillary Service for Frequency Support – Design of a Battery Storage Ancillary Service for Frequency Support in the Nordic Power System. Master Thesis, Chalmers University of Technology.]Search in Google Scholar
[19. ENTSO-E. (2017). NORDIC System Operation Agreement – Appendices. ENTSO-E.]Search in Google Scholar
[20. Rebours, Y. G., Kirschen, D. S., Trotignon, M., & Rossignol, S. (2007). A survey of frequency and voltage control ancillary services – Part II: Economic features. IEEE Transactions on power systems, 22(1), 358–366.10.1109/TPWRS.2006.888965]Search in Google Scholar
[21. Svenska Kraftnät AB. (2017). Balance Responsibility Agreement. [Online]. [Accessed: 14 September 2018] https://www.svk.se/en/stakeholder-portal/Electricity-market/Balance-responsibility/balance-responsibility-agreement/]Search in Google Scholar
[22. ENTSO-E. (2013). Supporting Document for the Network Code on Load-Frequency Control and Reserves for Electricity, ENTSO-E.]Search in Google Scholar
[23. European Commission. (2016). Establishing a Guideline on Electricity Transmission System Operation – Draft.]Search in Google Scholar
[24. Cigré Working Group C5.06, TB 435. (2010). Ancillary Services: An overview of International Practices. Cigré.]Search in Google Scholar
[25. ERCOT. (2013). Future Ancillary Services in ERCOT – Initial Public Draft Version 1.0. ERCOT.]Search in Google Scholar
[26. EirGrid., & Soni. (2012). DS3: System Services Consultation – New Products and Contractual Arrangements.]Search in Google Scholar
[27. Papalexopoulos, A. D., & Andrianesis, P. E. (2014). Day ahead energy market and reliability unit commitment: An integrated approach. Power Systems Computation Conference (PSCC), Wroclaw, Poland.10.1109/PSCC.2014.7038424]Search in Google Scholar
[28. Dominguez-Garcia, J. L., Gomis-Bellmunt, O., Bianchi, F. D., & Sumper, A. (2012). Power oscillation damping supported by wind power: A review. Renewable and Sustainable Energy Reviews, 16(7), 4994–5006.10.1016/j.rser.2012.03.063]Search in Google Scholar
[29. Telaretti, E., & Dusonchet, L. (2016). Battery storage systems for peak load shaving applications: Part 1: Operating strategy and modification of the power diagram. In IEEE 16th International Conference on Environment and Electrical Engineering (EEEIC) (pp. 1996–2001), 7–10 June 2016, Florence, Italy.10.1109/EEEIC.2016.7555793]Search in Google Scholar
[30. Telaretti, E., & Dusonchet, L. (2016). Battery storage systems for peak load shaving applications: Part 2: Economic feasibility and sensitivity analysis. In IEEE 16th International Conference on Environment and Electrical Engineering (EEEIC) (pp. 2006–2011), 7–10 June 2016, Florence, Italy.10.1109/EEEIC.2016.7555795]Search in Google Scholar
[31. Kim, Y.-J., Blum, D. H., Xu, N., Su, L., & Norford, L. K. (2016). Technologies and magnitude of ancillary services provided by commercial buildings. Proceedings of the IEEE, 104(4), 758–779.10.1109/JPROC.2016.2520678]Search in Google Scholar
[32. Abinava, M., Senthilnathan, N., & Sabarimuthu M. (2014). Harmonic compensation as ancillary service in PV inverter based residential distribution system. In International Conference on Circuit, Power and Computing Technologies (ICCPCT), Nagercoil, India.10.1109/ICCPCT.2014.7054926]Search in Google Scholar