HYBRID ELECTRIC VEHICLE MODELLING AND FUEL ECONOMY REGRESSION ANALYSIS, 171-181.

Vu Trieu Minh, Reza Moezzi, Jindrich Cyrus, and Jaroslav Hlava

References

  1. [1] M. Ehsani, K.V. Singh, H.O. Bansal, and R. Tafazzoli, Stateof the art and trends in electric and hybrid electric vehicles,Proceedings of the IEEE, 109(6), 2021, 967–984.
  2. [2] D.S. Puma-Benavides, J. Izquierdo-Reyes, J.D.D. Calderon-Najera, and R.A. Ramirez-Mendoza, A systematic review oftechnologies, control methods, and optimization for extended-range electric vehicles, Applied Science, 11, 2021, 7095.
  3. [3] W.F. Faris, H.A. Rakha, R.I. Kafafy, M. Idres, andS. Elmoselhy, Vehicle fuel consumption and emission mod-elling: An in-depth literature review, International Journal ofVehicle Systems Modelling and Testing, 6(3–4), 2011, 318–395.
  4. [4] S. Tamada, D. Bhattacharjee, and P.K. Dan, Review on auto-matic transmission control in electric and non-electric automo-tive powertrain, International Journal of Vehicle Performance,6(1), 2020, 98–128.
  5. [5] K.V. Singh, H.O. Bansal, and D. Singh, A comprehensive reviewon hybrid electric vehicles: Architectures and components,Journal of Modern Transportation, 27(2), 2019, 77–107.
  6. [6] C. Yang, M. Zha, W. Wang, K. Liu, and C. Xiang, Efficientenergy management strategy for hybrid electric vehicles/plug-in hybrid electric vehicles: Review and recent advances underintelligent transportation system, IET Intelligent TransportSystems, 14(7), 2020, 702–711.
  7. [7] S.C. Tung, M. Woydt, and R. Shah, Global insights onfuture trends of Hybrid/EV driveline lubrication and thermalmanagement, Frontiers in Mechanical Engineering, 6, 2020,article 571786.
  8. [8] J. Jiang, Q. Jiang, J. Chen, X. Zhou, S. Zhu, and T. Chen,Advanced power management and control for hybrid electricvehicles: A survey, Wireless Communications and MobileComputing, 2021, 2021.
  9. [9] Z. Meng, G. Tang, Q. Zhou, and B. Liu, A review of hybridelectric vehicle energy management strategy based on roadcondition information, IOP Conference Series: Earth andEnvironmental Science, 831, 2021, 012031.
  10. [10] F. Zhang, X. Hu, R. Langari, and D. Cao, Energy managementstrategies of connected HEVs and PHEVs: Recent progressand outlook, Progress in Energy and Combustion Science, 73,2019, 235–256.
  11. [11] T. Shi, F. Zhao, H. Hao, and Z. Liu, Development trends oftransmissions for hybrid electric vehicles using an optimizedenergy management strategy, Automotive Innovation, 1(4),2018, 291–299.
  12. [12] E. Galvagno, G. Guercioni, G. Rizzoni, M. Velardocchia, andA. Vigliani, Effect of engine start and clutch slip losses onthe energy management problem of a hybrid DCT powertrain,International Journal of Automotive Technology, 21(4), 2020,953–969.
  13. [13] Y. Zou, R. Huang, X. Wu, B. Zhang, Q. Zhang, N. Wang, andT. Qin, Modeling and energy management strategy research ofa power-split hybrid electric vehicle, Advances in MechanicalEngineering, 12(10), 2020.
  14. [14] G. Heppeler, M. Sonntag, and O. Sawodny, Fuel efficiencyanalysis for simultaneous optimization of the velocity trajectoryand the energy management in hybrid electric vehicles, IFACProceedings Volumes (IFAC-Papers Online), 2014.
  15. [15] Q. Xu, F. Wang, X. Zhang, and S. Cui, Research on theefficiency optimization control of the regenerative brakingsystem of hybrid electrical vehicle based on electrical variabletransmission, IEEE Access, 7, 2019, 116823–116834.
  16. [16] I.K. Reksowardojo, R.R. Arya, B.A. Budiman, M. Islameka,S.P. Santosa, P.L. Sambegoro, A.R.A. Aziz, Energy manage-ment system design for good delivery electric trike equippedwith different powertrain configurations, World Electric VehicleJournal, 11(4), 2020, 1–21.
  17. [17] Z. Yao, and H. Yoon, Control strategy for hybrid electricvehicle based on online driving pattern classification, SAEInternational Journal of Alternative Powertrains, 8(2), 2019.
  18. [18] K. Sim, S. Oh, C. Namkoong, J. Lee, K. Han, and S. Hwang,Control strategy for clutch engagement during mode changeof plug-in hybrid electric vehicle, International Journal ofAutomotive Technology, 18(5), 2017, 901–909.
  19. [19] S. Wang, B. Xia, C. He, S. Zhang, and D. Shi, Mode transitioncontrol for single-shaft parallel hybrid electric vehicle usingmodel predictive control approach, Advances in MechanicalEngineering, 10(5), 2018.
  20. [20] N. Robuschi, C. Zeile, S. Sager, and F. Braghin, Multi-phase mixed-integer nonlinear optimal control of hybrid electricvehicles, Automatica, 123, 2021.
  21. [21] P. Wr´oblewski, J. Kupiec, W. Drozdz, W. Lewicki, and J.Jaworski, The economic aspect of using different plug-in hybriddriving techniques in urban conditions, Energies, 14, 2021,3543.
  22. [22] F.O. Mahroogi, and S. Narayan, A recent review of hybridautomotive systems in Gulf Corporation Council region, Pro-ceedings of the Institution of Mechanical Engineers, Part D:Journal of Automobile Engineering, 233(14), 2019, 3579–3587.180
  23. [23] I. Miri, A. Fotouhi, and N. Ewin, Electric vehicle energy con-sumption modelling and estimation - A case study, Interna-tional Journal of Energy Research, 45(1), 2021, 501–520.
  24. [24] H. Heni, S. Arona Diop, J. Renaud, and L.C. Coelho, Measuringfuel consumption in vehicle routing: New estimation modelsusing supervised learning, International Journal of ProductionResearch, 2021.
  25. [25] V.T. Minh, Advanced vehicle dynamics (Kuala Lumpur:University of Malaya Press, 2012), 265.
  26. [26] V.T. Minh, and F. Mohd Hashim, Adaptive teleoperationsystem with neural network-based multiple model control,Mathematical Problems in Engineering, 2010, 2010.
  27. [27] V.T. Minh, and N. Afzulpurkar, Robustness of model predictivecontrol for Ill-conditioned distillation process, Developments inChemical Engineering and Mineral Processing, 13(3–4), 2005,311–316.
  28. [28] Hybrid Toyota Prius 2021, https://www.toyota.com/prius/(accessed October 04, 2021).
  29. [29] Hybrid Honda Insight 2021, https://automobiles.honda.com/insight (accessed October 04, 2021).
  30. [30] Hybrid Kia Niro 2021, https://www.kia.com/cz/modely/niro/objevte/ (accessed October 04, 2021).
  31. [31] Hyundai Sonata 2021, https://www.hyundaiusa.com/us/en/vehicles/sonata-hybrid (accessed October 04, 2021).
  32. [32] Hybrid Kia Optima 2021, https://www.kia.ca/vehicles/optim-ahybrid/overview (accessed October 04, 2021).
  33. [33] Hybrid Hyundai Avante LPi 2021, https://www.hyundai.com/worldwide/en/ (accessed October 04, 2021).
  34. [34] Hybrid Toyota Camry 2021, https://www.toyota.com/camryhybrid/ (accessed October 04, 2021).
  35. [35] Hybrid Honda Civic 2021, https://automobiles.honda.com/civic (accessed October 04, 2021).
  36. [36] J. He, L. Shi, C. Zhang, J. Liu, B. Yang, and X. Zuo,Optimal adhesion braking control of trains based on parameterestimation and sliding mode observer, Mechatronic Systemsand Control, 48(4), 2020. https://doi.org/10.2316/j.2020.201-0042.
  37. [37] H. Jiang, Q. Chang, Y. Wang, and X. Xie, Optimiza-tion of the active disturbance rejection control of a four-rotor aircraft, Mechatronic Systems and Control, 48(4), 2020,https://doi.org/10.2316/J.2020.201-0017.
  38. [38] S. Tounsi, Optimal design and control of linear motor at lowdisplacement, Mechatronic Systems and Control, 49(3), 2021,https://doi.org/10.2316/J.2021.201-0203.

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