Please download the CFP flyer here(Click)
Topics of Interest include but not limited to:
Active and Passive Vehicle Safety | Future developments in cell chemistries |
Advanced Driver Assistance Systems | Future developments in Li-ion battery packs |
Advances in battery technologies for electric vehicles | Green Manufacturing |
All-solid-state batteries | Halide batteries |
Applied Mechanics | Heat and Mass Transfer |
Assistive Mobility Systems | High-performance electrode materials for lithiumion batteries for electric vehicles |
Automated Vehicles | High-voltage battery management systems for electric vehicles |
Autonomous and Intelligent Robotic Vehicles | Human Factors and Human Machine Interaction |
Battery Chargers: Onboard, Wireless, Fast and Ultra-Fast | Impact on Traffic Flows |
Battery design and performance | Industrial Tribology |
Battery electric vehicles, and off-road electric vehicles | Information Fusion |
Battery pack design | Instrumentation and Control |
Battery parameters for HEV applications | Intelligent Ground, Air and Space Vehicles |
Battery parameters for hybrid electric vehicles | Intelligent Vehicle Software Infrastructure |
Battery, Fuel Cell and Energy Storage Systems | Internal Combustion Engines |
Carbon dioxide and consumption reduction through electric vehicles | Lead–acid batteries for hybrid electric vehicles and battery electric vehicles |
Cell balancing, battery state estimation | Licensing regulations for electric vehicles |
Cell designs | Life-cycle energy consumption and CO2 emissions compared |
Codes, Standards, Policies, and Regulations for Transportation Electrification | Limits to and potential future developments of lithium-ion batteries and supercapacitors |
Collision Avoidance | Lithium-air battery |
Computational Fluid Dynamics | Lithium-ion batteries and supercapacitors for use in HEVs |
Computer simulation for battery design and lifetime prediction | Lithium-ion batteries for hybrid electric vehicles and battery electric vehicles |
Connected and Autonomous Vehicles | Lithium-sulfur battery |
Conversion reaction materials | Multivalent metals: magnesium battery |
Cooperative Vehicle-infrastructure Systems | Pedestrian Protection |
Design issues of NiMH and NiZn batteries in electric vehicles | Power Electronics and Motor Drives |
Design of high-voltage battery packs for electric vehicles | Powertrain: Design, Thermal Management, Packaging, and Optimization |
Different electric propulsion systems | Proton battery |
Safety aspects of battery management systems | Proximity Awareness Technology |
Safety requirements | Proximity Detection Technology |
Smart and Micro Grids, EV-Interacting Smart Grid and Electrical Infrastructure | Rapid Prototyping, Real-Time Simulation, HIL and SIL for Transportation Electrification |
Smart Mobility | Recycling lithium batteries |
Sodium-ion and sodium-air batteries | Redox-flow batteries |
Structures and Materials Telematics | Safety aspects of battery management systems |
Standards for electric vehicle batteries and associated testing procedures | Safety requirements |
The dawn of batteries succeeding lithium-ion | Smart and Micro Grids, EV-Interacting Smart Grid and Electrical Infrastructure |
Thermal management of batteries for electric vehicles | Smart Mobility |
Types of battery for electric vehicles | Sodium-ion and sodium-air batteries |
Electrification of Heavy-Duty and Off-Road Vehicles | Structures and Materials Telematics |
Energy consumption and CO2 emissions of vehicle production | Standards for electric vehicle batteries and associated testing procedures |
Energy consumption of electric vehicles | The dawn of batteries succeeding lithium-ion |
Energy Management | Thermal management of batteries for electric vehicles |
Energy Systems | Types of battery for electric vehicles |
Environmental and safety issues with NiMH and NiZn batteries | V2X Communication |
Experimental Techniques and Measurements | Vehicle Control |
Ferrite battery | Vehicle Environment Perception |
Fluid Dynamics | Vehicle Functional Security |
Fuels and Combustion | Vehicle-VRU interaction |