Electric Vehicle Design
Design and optimisation of energy-efficient PM-assisted synchronous reluctance machines for electric vehicles
Audience:
Automotive Designers, Automotive Engineers, Electric Powertrain Researchers, EV Manufacturers
Automotive Designers, Automotive Engineers, Electric Powertrain Researchers, EV Manufacturers
Keyword:
E-Volve Cluster, Electric Motors, Electric Powertrain, Electric Vehicles, MULTI-MOBY, Optimization, Permanent Magnets, Two-motors Configuration
E-Volve Cluster, Electric Motors, Electric Powertrain, Electric Vehicles, MULTI-MOBY, Optimization, Permanent Magnets, Two-motors Configuration
Electric Vehicle Design
Electric urban light vehicles structural integrity and occupant protection validation through experimental crash tests
Audience:
Electric Vehicle Designers, Electric Vehicle Drivers, Electric Vehicle Manufacturers, Vehicle Safety Engineers
Electric Vehicle Designers, Electric Vehicle Drivers, Electric Vehicle Manufacturers, Vehicle Safety Engineers
Keyword:
E-Volve Cluster, Electric Vehicle Affordability, Energy Efficiency, Light-Duty Vehicles, MULTI-MOBY, Urban Vehicle Concepts, Vehicle Safety
E-Volve Cluster, Electric Vehicle Affordability, Energy Efficiency, Light-Duty Vehicles, MULTI-MOBY, Urban Vehicle Concepts, Vehicle Safety
Link:
Sciencedirect.com
Electric Vehicle Operations
Enhanced Active Safety Through Integrated Autonomous Drifting and Direct Yaw Moment Control via Nonlinear Model Predictive Control
The introduction of active safety systems and advanced driver assistance systems has enhanced the control authority over the vehicle dynamics through specialized actuators, enabling, for instance, independent wheel torque control.
Audience:
Advanced Driver Assistance System Developers, Automobile Manufacturers, Automotive Engineers, Electric Vehicle Drivers
Advanced Driver Assistance System Developers, Automobile Manufacturers, Automotive Engineers, Electric Vehicle Drivers
Keyword:
Advanced Driver Assistance Systems, Autonomous Driving, Autonomous Vehicles, E-Volve Cluster, MULTI-MOBY, Nonlinear Model Predictive Control, Vehicle Safety
Advanced Driver Assistance Systems, Autonomous Driving, Autonomous Vehicles, E-Volve Cluster, MULTI-MOBY, Nonlinear Model Predictive Control, Vehicle Safety
Link:
IEEE Xplore
Electric Vehicle Design
Multi-Moby – Smart solutions for safe, efficient and affordable light electric vehicles
Audience:
Automotive Engineers, Consultants in Sustainable Transportation Solutions, Electric Powertrain Researchers, Electric Vehicle Drivers, Electric Vehicle Manufacturers, Electric Vehicle Market Researchers, Vehicle Safety Engineers
Automotive Engineers, Consultants in Sustainable Transportation Solutions, Electric Powertrain Researchers, Electric Vehicle Drivers, Electric Vehicle Manufacturers, Electric Vehicle Market Researchers, Vehicle Safety Engineers
Keyword:
E-Mobility, E-Volve Cluster, Electric Vehicle Affordability, Electric Vehicles, Energy Efficiency, MULTI-MOBY, Vehicle Safety
E-Mobility, E-Volve Cluster, Electric Vehicle Affordability, Electric Vehicles, Energy Efficiency, MULTI-MOBY, Vehicle Safety
Link:
Sciencedirect.com
Electric Vehicle Operations
Novel pre-emptive control solutions for V2X connected electric vehicles
V2X technologies will become widespread in the next generation of passenger cars, and enable the development of novel vehicle control functionalities.
Audience:
Connected Vehicle Technologists, Electric Powertrain Researchers, Electric Vehicle Manufacturers, Road Safety Experts, Vehicle Safety Engineers, Vehicle Safety Specialists
Connected Vehicle Technologists, Electric Powertrain Researchers, Electric Vehicle Manufacturers, Road Safety Experts, Vehicle Safety Engineers, Vehicle Safety Specialists
Keyword:
Braking System, Connected Vehicles, E-Volve Cluster, MULTI-MOBY, Nonlinear Model Predictive Control, Vehicle Dynamics, Vehicle Safety
Braking System, Connected Vehicles, E-Volve Cluster, MULTI-MOBY, Nonlinear Model Predictive Control, Vehicle Dynamics, Vehicle Safety
Link:
Full Document
Electric Vehicle Operations
On Antilock Braking Systems With Road Preview Through Nonlinear Model Predictive Control
Audience:
Automobile Manufacturers, Automotive Engineers, Autonomous Driving Developers, Control System Designers, Road Safety Experts
Automobile Manufacturers, Automotive Engineers, Autonomous Driving Developers, Control System Designers, Road Safety Experts
Keyword:
Anti-Lock Braking System, E-Volve Cluster, MULTI-MOBY, Nonlinear Model Predictive Control, Tire-road Friction, Wheel Slip Control
Anti-Lock Braking System, E-Volve Cluster, MULTI-MOBY, Nonlinear Model Predictive Control, Tire-road Friction, Wheel Slip Control
Link:
IEEE Xplore
Electric Vehicle Operations
Predictive Anti-Jerk and Traction Control for V2X Connected Electric Vehicles With Central Motor and Open Differential
Audience:
Automotive Engineers, Connected Vehicle Technologists, Electric Vehicle Designers, Intelligent Transport System Providers
Automotive Engineers, Connected Vehicle Technologists, Electric Vehicle Designers, Intelligent Transport System Providers
Keyword:
Connected Vehicles, E-Volve Cluster, Electric Traction Machine, Electric Vehicles, MULTI-MOBY, Nonlinear Model Predictive Control, Wheel Slip Control
Connected Vehicles, E-Volve Cluster, Electric Traction Machine, Electric Vehicles, MULTI-MOBY, Nonlinear Model Predictive Control, Wheel Slip Control
Link:
IEEE Xplore