Marco, James||Truong, Dinh Quang||Longo, Stefano
Energy Storage and Management for Electric Vehicles
English[eng]
battery charging||lithium ion battery||adaptive forgetting factor||operating expenses||cell sorting||linear programming||Simulink||equivalent circuit model||genetic algorithm||multi-parameters sorting||hybrid power system||electric vehicle||energy storage ageing and degradation||parameter estimation||Simscape||supercapacitors||state-of-health (SOH)||battery energy storage system||ECE15||efficiency||residential battery storage||timetable optimization||self-discharge||dynamic programming approach||state of charge estimation||regenerative energy||fuel cell||energy storage system||nonlinear battery model||charging scheme||Li-Sulfur batteries||Matlab||dynamic flow rate optimization||rule-based optimal strategy||second-life energy storage applications||Identification||hybrid vehicle||recursive least square||thermal modelling||zinc–nickel single-flow battery||Luenberger observer||HPPC||vehicle-to-building||?-constraint method||lithium-ion battery||life cycle assessment||parameter identification||Lipschitz nonlinear system||lithium titanate oxide batteries||batteries||battery degradation||improved artificial bee colony||optimal control||thermal behaviour||supercapacitor models||battery cycle-life extension||cycle-life||self-organizing maps clustering||principal component analysis