Abstract This paper proposes a fast model predictive control allocation (MPCA) approach to minimize the tire slip power loss on contact patches for distributed drive electric vehicles (DDEV). In this strategy, two assumptions are set up from a practical focus: (1) the vehicle acceleration and yaw rate are measurable by global position system (GPS)/ inertial navigation system (INS) and inertial measurement unit (IMU), respectively; (2) the longitudinal velocity, road adhesion factor, and vehicle yaw rate are arranged to be “already known” by advanced estimators. For the strategy design, a CarSim-embedded driver model and a linear quadratic regulator (LQR) based direct yaw moment controller, are respectivel...
This article is concerned with the design of braking control systems for electric vehicles endowed w...
A recently growing literature discusses the topics of direct yaw moment control based on model predi...
Due to the short transmission chain, compact structure, and the feature of quick and accurate torque...
This paper presents an integrated traction control strategy (ITCS) for distributed drive electric ve...
The real-time change of tire-road friction coefficient is one of the important factors that influenc...
In this paper we propose a constrained optimal control architecture to stabilize a vehicle near the ...
With the recent emergence of electric drivetrains, a faster and energy efficient braking actuator - ...
This paper presents an integrated traction control strategy (ITCS) for distributed drive electric ve...
This article addresses the problem of road departure prevention using integrated brake control. The ...
Light-Duty Electric Vehicle (LDEV) with a distributed drive powertrain provides several potential a...
Electric vehicles (EVs) have promisingly contributed to the decarbonization of the transportation se...
The slip ratio control is an important research topic in in-wheel-motored electric vehicles (EVs). T...
To improve the curve driving stability and safety under critical maneuvers for four-wheel-independen...
Light-Duty Electric Vehicle (LDEV) with a distributed drive powertrain provides several potential ad...
[Abstract] Electric vehicles (EVs) are gaining attention because they are environmentally friendly. ...
This article is concerned with the design of braking control systems for electric vehicles endowed w...
A recently growing literature discusses the topics of direct yaw moment control based on model predi...
Due to the short transmission chain, compact structure, and the feature of quick and accurate torque...
This paper presents an integrated traction control strategy (ITCS) for distributed drive electric ve...
The real-time change of tire-road friction coefficient is one of the important factors that influenc...
In this paper we propose a constrained optimal control architecture to stabilize a vehicle near the ...
With the recent emergence of electric drivetrains, a faster and energy efficient braking actuator - ...
This paper presents an integrated traction control strategy (ITCS) for distributed drive electric ve...
This article addresses the problem of road departure prevention using integrated brake control. The ...
Light-Duty Electric Vehicle (LDEV) with a distributed drive powertrain provides several potential a...
Electric vehicles (EVs) have promisingly contributed to the decarbonization of the transportation se...
The slip ratio control is an important research topic in in-wheel-motored electric vehicles (EVs). T...
To improve the curve driving stability and safety under critical maneuvers for four-wheel-independen...
Light-Duty Electric Vehicle (LDEV) with a distributed drive powertrain provides several potential ad...
[Abstract] Electric vehicles (EVs) are gaining attention because they are environmentally friendly. ...
This article is concerned with the design of braking control systems for electric vehicles endowed w...
A recently growing literature discusses the topics of direct yaw moment control based on model predi...
Due to the short transmission chain, compact structure, and the feature of quick and accurate torque...