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