References
- Hu X, Murgovski N, Johannesson LM, et al. Comparison of three electrochemical energy buffers applied to a hybrid bus powertrain with simultaneous optimal sizing and energy management. IEEE Trans Intell Transp Syst. 2014;15(3):1193–1205.
- Velazquez Alcantar J, Assadian F. Vehicle dynamics control of an electric-all-wheel-drive hybrid electric vehicle using tyre force optimisation and allocation. Veh Syst Dyn. 2019. doi:https://doi.org/10.1080/00423114.2019.1585556.
- Li L, Zhang Y, Yang C, et al. Model predictive control-based efficient energy recovery control strategy for regenerative braking system of hybrid electric bus. Energy Convers Manage. 2016;111:299–314.
- Ji F, Pan Y, Zhou Y, et al. Energy recovery based on pedal situation for regenerative braking system of electric vehicle. Veh Syst Dyn. 2020;58(1):144–173.
- Subramaniyam KV, Subramanian SC. Impact of regenerative braking torque blend-out characteristics on electrified heavy road vehicle braking performance. Veh Syst Dyn. 2019. doi:https://doi.org/10.1080/00423114.2019.1677921.
- Wang C, Zhao W, Li W, et al. Multi-objective optimization of electro–hydraulic braking system based on MOEA/D algorithm. IET Intell Transp. 2019;13(1):183–193.
- Zhang J, Li Y, Lv C, et al. New regenerative braking control strategy for rear-driven electrified minivans. Energy Convers Manage. 2014;82:135–145.
- Gao Y, Ehsani M. Electronic braking system of EV and HEV—integration of regenerative braking. Automatic Braking Force Control and ABS. SAE Technical paper, 2001; 2001-01-2478.
- Zhang X, Gohlich D, Li J. Energy-efficient toque allocation design of traction and regenerative braking for distributed drive electric vehicles. IEEE Trans Veh Technol. 2018;67(1):285–295.
- Arnold G. Simulation of advanced regenerative braking strategies in a series plug-in hybrid electric vehicle. SAE Technical paper, 2017. 2017-01-2466.
- Sun H, Wang H, Zhao X. Line braking torque allocation scheme for minimal braking loss of four-wheel-drive electric vehicles. IEEE Trans Veh Technol. 2019;68(1):180–192.
- Qiu C, Wang G, Meng M, et al. A novel control strategy of regenerative braking system for electric vehicles under safety critical driving situations. Energy. 2018;149:329–340.
- Kanarachos S, Alirezaei M, Jansen S, et al. Control allocation for regenerative braking of electric vehicles with an electric motor at the front axle using the state-dependent Riccati equation control technique. Proc Inst Mech Eng, Part D. J Automot Eng. 2014;228(2):129–143.
- Li Q, Huang W, Chen W, et al. Regenerative braking energy recovery strategy based on Pontryagin's minimum principle for fell cell/supercapacitor hybrid locomotive. Int J Hydrogen Energy. 2019;44:5454–5461.
- Bera T, Bhattacharya K, Samantaray A. Bond graph model-based evaluation of a sliding mode controller for a combined regenerative and antilock braking system. Proc Inst Mech Eng, Part D, J Automot Eng. 2010;225:918–934.
- Li L, Li X, Wang X, et al. Transient switching control strategy from regenerative braking to anti-lock braking with a semi-brake-by-wire system. Veh Syst Dyn. 2016;54(2):231–257.
- Rajendran S, Spurgeon S, Tsampardoukas G, et al. Intelligent sliding mode scheme for regenerative braking control. IFAC PapersOnLine. 2018;51(25):334–339.
- Wu J, Wang X, Li L, et al. Hierarchical control strategy with battery aging consideration forhybrid electric vehicle regenerative braking control. Energy. 2018;145:301–312.
- Chen J, Yu J, Zhang K, et al. Control of regenerative braking systems for four-wheel-independently-actuated electric vehicles. Mechatronics. 2018;50:394–401.
- Wang B, Huang X, Wang J, et al. A robust wheel slip ratio control design combining hydraulic and regenerative braking systems for in-wheel-motors-driven electric vehicles. J Franklin Inst. 2015;352:577–602.
- Liu W, He H, Gao H, et al. Control research for hybrid compound braking based on an uncertainty predictive model. ITEC Asia-Pacific, 2014.
- Li W, Du H, Li W. Driver intention based coordinate control of regenerative and plugging braking for electric vehicles with in-wheel PMSMs. IET Intell Transp Syst. 2018;12(10):1300–1311.
- Naseri F, Farjah E, Ghanbari T. An efficient regenerative braking system based on battery/supercapacitor for electric, hybrid, and plug-in hybrid electric vehicles with BLDC motor. IEEE Trans Veh Technol. 2017;66(5):3724–3738.
- He H, Chen C, Jia H. A single-pedal regenerative braking control strategy of accelerator pedal for electric vehicles based on adaptive fuzzy control algorithm. Int J Hydrogen Energy. 2018;152:624–629.
- Paul D, Velenis E, Cao D, et al. Optimal μ-estimation-based regenerative braking strategy for an AWD HEV. IEEE Trans Transp Electrification. 2017;3(1):249–258.
- Kim D-H, Kim J-M, Hwang S-H, et al. Optimal brake torque distribution for a four-wheel-drive hybrid electric vehicle stability enhancement. Proc Inst Mech Eng, Part D J Automot Eng. 2007;221(11):1357–1366.
- Wang C, Zhao W, Li W. Braking sense consistency strategy of electro-hydraulic composite braking system. Mech Syst Signal Process. 2018;109:196–219.
- Sun Y, Wang X, Li L, et al. Modelling and control for economy-oriented car-following problem of hybrid electric vehicle. IET Intell Transp Syst. 2019;13(5):825–833.
- Li L, Wang X, Song J. Fuel consumption optimization for smart hybrid electric vehicle during a car-following process. Mech Syst Signal Process. 2017;87:17–29.
- Yang C, You S, Wang W, et al. A Stochastic predictive energy management strategy for plug-in hybrid electric vehicles based on fast rolling optimization. IEEE Trans Ind Electron. 2020;67(11):9659–9670.
- Yang C, Zha M, Wang W, et al. Efficient energy management strategy for hybrid electric vehicles/plug-in hybrid electric vehicles: review and recent advances under intelligent transportation system. IET Intell Transp Syst. 2020;14(7):702–711.
- Guo H, Wang X, Li L. State-of-charge-constraint-based energy management strategy of plug-in hybrid electric vehicle with bus route. Energy Convers Manag. 2019;199:111972.
- Zhang J, Lv C, Qiu M, et al. Braking energy regeneration control of a fuel cell hybrid electric bus. Energy Convers Manage. 2013;76:1117–1124.
- Moura S, Stein J, Fathy H. Battery-health conscious power management in plug-in hybrid electric vehicles via electrochemical modeling and stochastic control. IEEE Trans Control Syst Technol. 2013;21(3):679–694.
- Tang L, Rizzoni G, Onori S. Energy management strategy for HEVs including battery life optimization. IEEE Trans Transp Electrification. 2015;1(3):211–222.
- D'Hondt T, Forrier B, Sarrazin M, et al. Modeling and identification of an electric vehicle braking system: thermal and tribology phenomena assessment. SAE Technical paper, 2020; 2020-01-1094.
- Wang X, Li L, Yang C. Hierarchical control of dry clutch for engine-start process in a parallel hybrid electric vehicle. IEEE Trans Transp Electrification. 2016;2(2):231–243.
- Yang C, Jiao X, Li L, et al. A robust H∞ control-based hierarchical mode transition control system for plug-in hybrid electric vehicle. Mech Syst Signal Process. 2018;99:326–344.
- Yang C, Shi Y, Li L, et al. Efficient mode transition control for parallel hybrid electric vehicle with adaptive dual-loop control framework. IEEE Trans Veh Technol. 2020;69(2):1519–1532.
- Wang X, Li L, He K, et al. Dual-loop self-learning fuzzy control for AMT gear engagement: design and experiment. IEEE Trans Fuzzy Syst. 2018;26(4):1813–1822.
- Pugi L, Grasso F, Pratesi M, et al. Design and preliminary performance evaluation of a four wheeled vehicle with degraded adhesion conditions. Int J Electric Hybrid Veh. 2017;9(1):1–32.
- Canale M, Fagiano L, Milanese M. Set membership approximation theory for fast implementation of model predictive control laws. Automatica. 2009;45:45–54.
- Canale M, Fagiano L, Razza V. Approximate NMPC for vehicle stability: design, implementation and SIL testing. Cont Eng Pract. 2010;18:630–639.