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IETE Journal of Research Volume 67, 2021 - Issue 5: Special Issue on ICSDG-2020
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Articles

Stackelberg Game Theory Based Energy Management Systems in the Presence of Renewable Energy Sources

Akash Talwariya1 Department of Electrical Engineering, Institute of Engineering and Technology, JK Lakshmipat University, Jaipur, Rajasthan, IndiaCorrespondence[email protected]
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,
Pushpendra Singh1 Department of Electrical Engineering, Institute of Engineering and Technology, JK Lakshmipat University, Jaipur, Rajasthan, IndiaView further author information
&
Mohan Lal Kolhe2 Faculty of Engineering and Science, University of Agder, NorwayView further author information
Pages 611-619 | Published online: 11 Jan 2021

References

  • P. Siano, “Demand response and smart grids—A survey,” Renewable Sustainable Energy Rev., Vol. 30, pp. 461–78, Feb. 2014.
  • M. Kolhe, “Smart grid: charting a new energy future: Research, development and demonstration,” Electr. J., Vol. 25, no. 2, pp. 88–93, Mar. 2012.
  • A. N. Ghalelou, A. P. Nojavan, S. Nojavan, M. Majidi, and H. Hatami, “A stochastic self-scheduling program for compressed air energy storage (CAES) of renewable energy sources (RESs) based on a demand response mechanism,” Energy Convers. Manage., Vol. 120, pp. 388–96, Jul. 2016.
  • A. Sharma, M. Kolhe, K. M. S. Y. Konara, M. Ulltviet-Moe, K. Muddineni, A. Mudgal, and S. Guard, “Performance assessment of institutional photovoltaic based energy system for operating as a micro-grid,” Sustain. Energy Technol. Assess., Vol. 37, pp. 1–13, Feb. 2020.
  • M. A. M. Yassin, M. L. Kolhe, and A. N. Azmi, “Battery capacity estimation for building-integrated photovoltaic system: Design study of a Southern Norway ZEB house,” in IEEE PES Innovative smart grid Technologies Conference Europe (ISGT-Europe), 2017, pp. 1–6. Silver Spring: IEEE.
  • M. A. F. Ghazvini, J. Soares, N. Horta, R. Neves, R. Castro, and Z. Vale, “A multi-objective model for scheduling of short-term incentive-based demand response programs offered by electricity retailers,” Appl. Energy, Vol. 151, pp. 102–18, Aug. 2015.
  • C. D. Korkas, S. Baldi, I. Michailidis, and E. B. Kosmatopoulos, “Occupancy-based demand response and thermal comfort optimization in microgrids with renewable energy sources and energy storage,” Appl. Energy, Vol. 163, pp. 93–104, Feb. 2016.
  • S. Baldi, C. D. Korkas, M. Lv, and E. B. Kosmatopoulos, “Automating occupant-building interaction via smart zoning of thermostatic loads: A switched self-tuning approach,” Appl. Energy, Vol. 231, pp. 1246–58, Dec. 2018.
  • M. Mehrasa, E. Pouresmaeil, A. Sepehr, B. Pournazarian, M. Marzband, and J. P. Catalão, “Control technique for the operation of grid-tied converters with high penetration of renewable energy resources,” Electr. Power Syst. Res., Vol. 166, pp. 18–28, Jan. 2019.
  • M. A. Mirzaei, A. S. Yazdankhah, B. Mohammadi-Ivatloo, M. Marzband, M. Shafie-khah, and J. P. Catalão, “Stochastic network-constrained co-optimization of energy and reserve products in renewable energy integrated power and gas networks with energy storage system,” J. Cleaner Prod., Vol. 223, pp. 747–58, Jun. 2019.
  • K. Vanthournout, B. Dupont, W. Foubert, C. Stuckens, and S. Claessens, “An automated residential demand response pilot experiment, based on day-ahead dynamic pricing,” Appl. Energy, Vol. 155, pp. 195–203, Oct. 2015.
  • J. S. L. Senanayaka, and M. L. Kolhe, “Integration of distributed energy systems in micro-grid architecture for making a virtual power plant,” in IEEE International Conference on Signal Processing, Informatics, Communication and energy systems (SPICES), 2015, pp. 1–5. Silver Spring: IEEE.
  • C. Li, S. Tang, Y. Cao, Y. Xu, Y. Li, J. Li, and R. Zhang, “A new stepwise power tariff model and its application for residential consumers in regulated electricity markets,” IEEE Trans. Power Syst., Vol. 28, no. 1, pp. 300–08, Jul. 2012.
  • A. Talwariya, and P. Singh, “Demand side management: A survey of SPT & TOU,” Int. J. Creat. Res. Thoughts, Vol. 6, no. 1, pp. 1675–8, Feb. 2018.
  • L. P. Qian, Y. J. A. Zhang, J. Huang, and Y. Wu, “Demand response management via real-time electricity price control in smart grids,” IEEE J. Sel. Areas Commun., Vol. 31, no. 7, pp. 1268–80, Jun. 2013.
  • A. Talwariya, P. Singh, and M. Kolhe, “Non-cooperative game theory, based stepwise power tariff model using Monte-Carlo simulation for agricultural consumers,” Open Agricultural, Vol. 4, no. 1, pp. 418–25, Aug. 2019.
  • C. Vivekananthan, Y. Mishra, and F. Li, “Real-time price based home energy management scheduler,” IEEE Trans. Power Syst., Vol. 30, no. 4, pp. 2149–59, Sep. 2014.
  • K. M. S. Y. Konara, and M. L. Kolhe, “Charging management of grid integrated battery for overcoming the intermittency of RE sources,” in IEEE International Conference on information and Automation for Sustainability (ICIAfS), 2016, pp. 1–6. Silver Spring: IEEE.
  • B. S. P. Meibom, “A global renewable energy scenario,” Int. J. Global Energy, Vol. 13, no. 1–3, pp. 196–276, Jan. 2000.
  • P. Singh, D. P. Kothari, and M. Singh, “Feasibility of interconnected distribution network for the integration of distributed energy resources using ga approach,” Int. Rev. Electr. Eng., Vol. 8, no. 1, pp. 314–320, 2013.
  • P. Singh, D. P. Kothari, and M. Singh, “Integration/analysis of green energy and conventional electricity generation with distribution networks interconnected,” Int. Rev. Modell. Simul., Vol. 5, no. 5, pp. 1–7, 2012.
  • D. Sharma, A. Talwariya, A. Pandey, and P. Singh, “Shrouded problems of solar power plant and recommendations,” in Innovations in Power and Advanced Computing Technologies (i-PACT), Vellore, 2017, pp. 1–5. Silver Spring: IEEE.
  • A. Talwariya, S. K. Sharama, P. Singh, and M. Kolhe, “Bayesian game model: Demand side management for Residential consumers with electric vehicles,” in Intelligent Computing Techniques for Smart Energy Systems, pp. 815–23, Singapore: Springer.
  • B. Heller, S. Seetharaman, P. Mahadevan, Y. Yiakoumis, P. Sharma, S. Banerjee, and N. McKeown, “Elastictree: Saving energy in data center networks,” Nsdi, Vol. 10, pp. 249–64, Apr. 2010.
  • A. Talwariya, D. Sharma, A. K. Pandey, and P. Singh, “An execution of smart grid with game theory,” in International Conference on Recent Advances and Innovations in Engineering, Jaipur, 2016, pp. 1–4. Silver Spring: IEEE.
  • A. Talwariya, and P. Singh, “Optimization of distributed networks with integration of distributed generators using cooperative game theory,” Int. J. Power Energy Syst, Vol. 39, no. 3, pp. 1–7, 2019.
  • A. Talwariya, P. Singh, M. Kolhe, and S. K. Sharma, “A game theory approach and tariff strategy for demand side management,” in International Conference and Workshops on Recent Advances and Innovations in Engineering, Jaipur, India, 2018, pp. 1–5. Silver Spring: IEEE.
  • W. Tushar, C. Yuen, D. B. Smith, and H. V. Poor, “Price discrimination for energy trading in smart grid: A game theoretic approach,” IEEE Trans. Smart Grid, Vol. 8, no. 4, pp. 1790–801, Jan. 2016.
  • A. Sharma, and M. Kolhe, “Techno-economic evaluation of PV based institutional smart micro-grid under energy pricing dynamics,” J. Cleaner Prod., Vol. 264, p. 121486, Aug. 2020.
  • N. J. Johannesen, M. L. Kolhe, and M. Goodwin, “Load demand analysis of Nordic rural area with holiday resorts for network capacity planning,” in 4th International Conference on smart and Sustainable Technologies (SpliTech), 2019, pp. 1–7. Silver Spring: IEEE.
  • M. Yu, and S. H. Hong, “A real-time demand-response algorithm for smart grids: A Stackelberg game approach,” IEEE Trans. Smart Grid, Vol. 7, no. 2, pp. 879–88, Mar. 2015.
  • Z. Zhou, F. Xiong, B. Huang, C. Xu, R. Jiao, B. Liao, Y. Zhongdong, and L. Jianqi, “Game-theoretical energy management for energy Internet with big data-based renewable power forecasting,” IEEE. Access., Vol. 5, pp. 5731–46, Feb. 2017.
  • S. Maharjan, Z. Quanyan, Z. Yan, S. Gjessing, and T. Basar, “Dependable demand response management in the smart grid: A Stackelberg game approach,” IEEE Trans. Smart Grid, Vol. 4, no. 1, pp. 120–32, Mar. 2013.
  • A. Talwariya, P. Singh, and M. Kolhe, “A stepwise power tariff model with game theory based on Monte-Carlo simulation and its applications for household, agricultural, commercial and industrial consumers,” Int. J. Electr. Power Energy Syst., Vol. 111, pp. 14–24, Oct. 2019.
  • A. Talwariya, P. Singh, M. L. Kolhe, and J. H. Jobanputra, “Fuzzy logic controller and game theory based distributed energy resources allocation,” AIMS Energy, Vol. 8, no. 3, pp. 474–92, May. 2020.
  • P. Singh, A. Talwariya, and M. Kolhe, “Demand response management in the presence of renewable energy sources using stackelberg game theory,” in 5th International Symposium on Hydrogen Energy, Rrenewable Energy and Materials, 2019, pp. 1–8, IOP Conference Series: Material Science and Engineering, 605 012004.
  • S. Kumar, V. Pavithra, R. Banu, and G. Supriya, “Smart home energy management system including renewable energy based on Zigbee and ARM9 microcontroller,” Asian J. Appl. Sci. Technol., Vol. 1, no. 2, pp. 240–4, Mar. 2017.

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