YASHIL ENERGETIKA ASOSIDA INTELLEKTUAL TEMIR YO‘L TARMOQLARIDA ELEKTR ENERGIYANI BOSHQARISH TIZIMLARI: EKOLOGIK BARQARORLIK VA OPTIMAL INTEGRATSIYA YECHIMLARI

1. Vagnoni, E.; Moradi, A. Local government’s contribution to low carbon mobility transitions. J. Clean. Prod. 2018, 176,

486–502.

2. International Energy Agency (IEA) and International Union of Railways (UIC). Energy Consumption and CO₂

Emissions Focus on Passenger Rail Services. Мавжуд онлайн: https://uic.org/IMG/pdf/handbook_iea-uic_2017_

web3.pdf (07.06.2017 санада кирилган).

3. Pachauri, R.K. ва бошқалар. Climate Change 2014: Synthesis Report. IPCC, 2014.

4. Isetti, G.; Ferrarato, V.; Stawinoga, A.E.; Gruber, M.; Dellavalle, N.S. Is caring about the environment enough for

sustainable mobility? Accenture Case Study, 2020, 16.

5. Chustvehzi, V.; Kim, S.H. Long-term energy and emission implications of a global shift to electrified, high-speed public

rail transport. Energy Policy 2019, 67, 176–186.

6. Ghavimi, H. Need for regenerative-energy utilization in traction power supply systems in Japan. Urban Rail Transit

2017, 3, 183–191.

7. Nyholm, E.; Campling, J.; Bohlin, M.; Dahlquist, E. Review of applications of ESS and PV generation in railway

systems. Appl. Energy 2017, 205, 164–185.

8. Cheng, Q. Energy management system of smart railway station considering stochastic behavior of ESS and PV

generator. Control & Automation (CSCA) 2018, 8, 450–468.

9. Naseri Gorgani, M.; Davoodi, M.; Moteyyan, H. An Agent-Based Modelling for Ride Sharing Optimization Using A

Algorithm and Clustering Approach.* Int. Conf. Smart Inf. Syst. 2019, 42, 739–796.

10. Zhang, H.; Zhou, X.; Wu, D.; Li, J. Research on Green Building Design Strategy of Large-Scale Buildings—Taking

Taiyuan South Railway Station as a Case. 2015 Int. Symp. Energy Sci. Chem. Eng. 2015, 39–43.

11. Changchun, China. China Rail Council. Мавжуд онлайн: https://www.chin-esc.org/c/2017-10-11/183249.shtml

(29.10.2018 санада кирилган).

12. Moreno, M.; Kalayeh, H.J.; Brenna, M.; Castell-Dezza, F.; Carmeli, M.S. DC Railway Micro Grid Adding Renewable

Energy and Fast Charging Station. IEEE Int. Conf. Environ. Electr. Eng. 2021.

13. Longo, M.; Franzò, S.; LaVilla, W.; Antonucci, G. Smart energy management in railways. IEEE Conf. Electr. Eng. 2018,

55, 676–682.

14. Karki, L.; Bern, N.; Nkyanyam, S.; Fonte, F.; Monit, A. REMS-A railway energy management system model in real rail

operation. IEEE Trans. Veh. Technol. 2021, 68, 6875.

15. Zmarzły, K.; Renguist, A.; Návik, P.; Liu, Z. Contact wire irregularity stochastic and effect on high-speed rail power

systems. Energies 2021, 14, 895–920.

16. Garmarojá, F.; Fox, J.; Del Olmo, J.; Madina, P.; Almandar, G. DC high-voltage and catenary circuit sensors fault

reconstructing architecture in railways. Energies 2022, 15, 1425–1451.

17. He, J.; Li, J.; Yuan, D. Design and control of Hybrid Electric Trains with Regenerative Braking Systems. IEEE Conf.

Energy Convers. 2023, 27–31.

18. Kyriakides, E. Proceedings of the 2023 IEEE Int. Conf. Smart Grid Technology for Transportation Applications. IEEE

2023.

19. Cioccarelli, D.; Del Pizzo, A.; Iannuzzi, D. Improvement of energy efficiency in electric railway vehicles based on power

management control of auxiliary loads. IEEE Trans. Power Electron. 2013, 29, 275–286.

20. Nowak, H.; Wajda, Ł.; Leliś, Ł. Hierarchical energy management of multi railway transportation systems with energy

storage. IEEE Int. Conf. Rail Transp. 2016, 130–138.

21. Kandy, P.; Brown, R. Optimal operation of electric railways with renewable energy and electric storage systems. IEEE

Trans. Smart Grid 2016, 9, 93–101.

22. Cervero, R.; Newman, P. Integrated design of energy-efficient and environmentally sustainable intermodal stations.

IEEE PFS Conf. Energy Syst. Eng. 2010, 22–31.

23. Tran, L.; Guo, H.; Li, J. Electric vehicle charging stations fed by renewable PV: An optimization approach. IEEE Trans.

Energy 2019, 34, 226–249.

24. He, J.; Zhang, H.; Brem, R.; Zaninella, D. Collaborative Electric Vehicle and Railway Networks: Energy Optimization

Using Energy Hubs (EHE) Technology. IEEE Conf. Electr. Eng. 2023, 19–35.

25. Krzaki, F.; Čapek, A.; Fendrych, L. Integration of energy storage into electric railways for braking loss minimization: A

case study of England. Int. J. Energy 2017, 141, 2218–2235.

26. Calvillo, C.; Sanchez-Miralles, A.; Villar, J.; Martin, F. Impact of EV penetration in the interconnected urban environment

of a smart city. Energy 2017, 141, 2218–2235.

27. Kaleybar, H.J.; Brenna, M.; Castell-Dezza, F.; Zaninelli, D. Sustainable MVDC Railway System Integrated with

Renewable Energy Sources and EV Charging Station. IEEE WPC, Merced, CA, USA, 2022.

28. Tamaddoni, M.; Do, V.M.; Boodi, M.A. Novel Application of Travel Profile for Electric Bus Energy Optimization. IEEE

Conf. Electr. Eng., Tehran, 2022.

29. Mohsen Davoudi, M.T. Optimal Trajectory Planning for Electric Train Operations. Aachen, Germany, 2023.

30. Mohamed, A.; Salehi, V.; Maje, T.; Mohammed, O. Real-time energy management algorithm for plug-in hybrid electric

energy systems. IEEE Trans. Sustain. Energy 2014, 5, 577–586.

31. Haouari, Q.; Pérez, V. Interactions between electric mobility and photovoltaics generation: A review. Renew. Sustain.

Energy Rev. 2018, 39, 317–326.

32. Alghoul, M.; Hammadi, F.; Amin, N.; Asim, N. The role of existing infrastructure of fuel stations in deploying solar

charging systems. Environ. Forecast. Clim. Change 2018, 137, 317–326.

33. Sadeghzadeh, M.; Mohammadi, A.; Alvaji, S.M.M. A dynamic optimal stochastic energy management model for hybrid

big charging parks. Sustain. Cities Soc. 2019, 45, 486–498.

34. Herrera, R.; Sánchez-Racero, J.J.; Aguado, J.A.; Reyes, M.; Martínez, O. Optimal sizing of energy storage for

regenerative braking in electric railway systems. IEEE Trans. Power Tract. 2014, 39, 1492–1501.

35. Ilié, D.; Mazumder, S.K.; González-Franco, I. Smart electrical infrastructure for AC-fed railways with neutral zones.

IEEE Trans. Intell. Transp. Syst. 2014, 16, 642–652.

36. Nowak, H.J.; Seleš, Z.; Vasić, M. Hierarchical model predictive control for coordinated electric railway traction energy

systems management. IEEE Trans. Intell. Transp. Syst. 2018, 25, 275–277.

37. Calvillo, C.F.; Sánchez-Miralles, A.; Villar, J. Synergies of electric urban transport systems and distributed energy

resources. IEEE Trans. Smart Grid 2019, 5, 515–523.

38. Khleifas, A.; Yadav, R.N. Optimal control of renewable-assisted electric railway systems. Transp. Energy 2019, 15,

499–510.

39. Ahmady, M.; Salehi, H.; Fathi, M. Advanced energy management of hybrid railway systems: A case study in Tabriz,

Iran. IEEE Conf. Power Deliv. 2021, 29–31.

40. Alireza, P.; Ehsan, H.; Zaman, H.; Nemat, H.; Assef, R. Optimal sizing of battery energy storage systems in a metro

line. IEEE Conf. Electr. Energy Conv. Syst. 2011, 11–15.

41. Silva, F.S.; Hofmann, T.; Wurwa, N.; Eltamaly, L.E.; Schmid, M. Review of optimization strategies for system-level

design of hybrid electric rail vehicles. IEEE Trans. Ind. Electron. 2016, 66, 857–870.

42. Cicek, A.; Seçgin, I.; Güneş, S.; Karakuş, F.; Erdinç, O.; Shafei, M.; Catalão, J.P. Integrated risk and energy management

of railway systems with regenerative braking, energy storage systems and PV installations. IEEE Trans. Sustain.

Energy 2019, 10, 310–325.

43. EN50122. Railway Applications—Fixed Installations—Traction Systems Protection against Electrical Shock. Prague

Tech. Publ., 2013.