Electric Systems for Transportation

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Autore:	Ruvio Alessandro
Titolo:	Electric Systems for Transportation
Pubblicazione:	Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021
Descrizione fisica:	1 electronic resource (690 p.)
Soggetto topico:	Technology: general issues
Soggetto non controllato:	electric bus
	vehicle selection
	road operation test
	sustainable development
	more electric aircraft (MEA)
	multilevel converter
	high power density
	electric vehicles (EVs)
	independent-drive technology
	deep reinforcement learning (DRL)
	optimal torque distribution
	wireless power transfer
	non-linear
	fast terminal sliding mode control
	power converters
	efficiency
	energy storage systems
	electrical power systems
	hydraulic power systems
	hydraulic accumulator
	ultracapacitor
	lithium-ion battery
	dual-polarization model
	fractional-order model
	SOC estimation
	hybrid Kalman filter
	vehicle–grid integration
	distribution network voltage regulation
	alternating direction method of multipliers
	railway transport
	eco-driving
	energy efficiency
	optimization algorithm
	power systems
	ancillary services
	EV motor inverter
	electrical installation
	on-board charger
	vehicle-to-home
	home energy management system
	hybrid electric bulldozer
	tracked vehicle
	control strategy
	adaptive control
	power smoothing
	electric vehicles
	public charging station
	bilevel model
	range constraint
	hybrid electric vehicles
	equivalent consumption minimization strategy
	power-split hybrid
	heavy-duty vehicles
	diesel engine
	natural gas engine
	hybrid powertrain
	supercapacitor
	fuel consumption
	mathematical modeling
	electric vehicle
	city bus
	gearbox
	transmission
	optimization
	hybrid electric vehicle
	power-split
	fuel economy
	particle swarm optimization
	route guidance strategies
	stochastic charging demands
	time-varying road network
	shift-by-wire (SBW)
	switched reluctance motor (SRM)
	non-uniform air-gap
	rotor hole placement
	torque ripple
	rotor structure
	electrical transport
	electrical vehicle
	marine transport
	railway
	battery electric vehicles
	signalized intersections
	energy-optimized vehicle trajectories
	vehicle dynamics model
	road freight transport
	vehicle stock turnover model
	deep decarbonization
	road freight vehicle
	electric-drive vehicle
	lithium-ion
	dQ/dV
	dV/dQ
	frequency regulation
	V2G
	G2V
	fault diagnosis
	PEM fuel cell system
	PFCM-ABC-SVM
	ultra-fast charging
	multimodule DC-DC converters
	dual active bridge DC-DC converter
	full-bridge phase-shift DC-DC converter
	input-series output-series
	input-series output-parallel
	input-parallel output-parallel
	input-parallel output-series
	input-series input-parallel output-series output-parallel
	battery aging
	plug-in electric vehicles
	energy management
	global optimization
	state of health
	particle swarm algorithm
	genetic algorithm
	simulation
	plug-in hybrid
	microgrid
	photovoltaic
	robust optimization
	stochastic optimization
	battery management systems
	battery fuel gauge
	state of charge
	power fade
	capacity fade
	robust estimation
	predictive control
	environmental impacts
	life cycle assessment
	review
	anti-lock braking system
	fuzzy logic system
	controller
	vehicle
	traffic signal control
	cost model
	total cost of ownership
	TCO
	charging strategy
	public transport
	sustainability
	reused battery
	adaptive control theory
	battery management system (BMS)
	internal resistances
	open-circuit voltage
	policy incentive
	public charging infrastructure
	power grid
	grid-side effects
	photovoltaic potentials
	controlled charging
	electric power systems
	transportation
	PV
	inverter
Persona (resp. second.):	FalvoMaria Carmen
	RuvioAlessandro
Sommario/riassunto:	Transportation systems play a major role in the reduction of energy consumptions and environmental impact all over the world. The significant amount of energy of transport systems forces the adoption of new solutions to ensure their performance with energy-saving and reduced environmental impact. In this context, technologies and materials, devices and systems, design methods, and management techniques, related to the electrical power systems for transportation are continuously improving thanks to research activities. The main common challenge in all the applications concerns the adoption of innovative solutions that can improve existing transportation systems in terms of efficiency and sustainability.
Titolo autorizzato:	Electric Systems for Transportation
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910557407803321
Lo trovi qui:	Univ. Federico II
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