The permanent magnet synchronous motor (PMSM) has high efficiency and high torque density. Field oriented control (FOC) is usually used in the motor to achieve maximum efficiency control. In the electric vehicle (EV) application, the PMSM efficiency model, combined with the EV and road load system model, is used to study the optimal energy-saving control strategy, which is significant for the economic operation of EVs. With the help of GPS, IMU, and other information technologies, the road conditions can be measured in advance. Based on this information, the optimal velocity of the EV driven by PMSM can be obtained through the analytical algorithm according to the efficiency model of PMSM and the vehicle dynamic model in simple road conditi...
In this paper, battery electric vehicle (BEV) controllers are smartly tuned with particle swarm opti...
This paper proposes a driving-scenario oriented optimal design of an axial-flux permanent-magnet (AF...
This article proposes an energy-efficiency strategy based on the optimization of driving patterns fo...
The controllable electrical loss which consists of the copper loss and iron loss can be minimized by...
This paper develops a model to plan energy-efficient speed trajectories of electric trucks in real t...
This report presents the development of two algorithms that uses available velocity bounds and power...
This document presents a study about the possibility of increasing the energy efficiency of electric...
The advancement in vehicle-to-vehicle and vehicle- to-infrastructure technologies makes it possible ...
Optimization-based control methods for plug-in hybrid electric vehicles require knowledge about an e...
To benchmark a hybrid vehicle's Energy Management Strategy (EMS) usually a given, often certified, v...
An energy efficient and transients optimal control for Interior Permanent Magnet Synchronous Motors ...
The main question in eco-driving is – what speed or torque profile should the vehicle follow to mini...
Recently, the electric vehicle has emerged as a powerful platform for mitigating energy crisis and r...
In this paper, battery electric vehicle (BEV) controllers are smartly tuned with particle swarm opti...
This paper proposes a driving-scenario oriented optimal design of an axial-flux permanent-magnet (AF...
This article proposes an energy-efficiency strategy based on the optimization of driving patterns fo...
The controllable electrical loss which consists of the copper loss and iron loss can be minimized by...
This paper develops a model to plan energy-efficient speed trajectories of electric trucks in real t...
This report presents the development of two algorithms that uses available velocity bounds and power...
This document presents a study about the possibility of increasing the energy efficiency of electric...
The advancement in vehicle-to-vehicle and vehicle- to-infrastructure technologies makes it possible ...
Optimization-based control methods for plug-in hybrid electric vehicles require knowledge about an e...
To benchmark a hybrid vehicle's Energy Management Strategy (EMS) usually a given, often certified, v...
An energy efficient and transients optimal control for Interior Permanent Magnet Synchronous Motors ...
The main question in eco-driving is – what speed or torque profile should the vehicle follow to mini...
Recently, the electric vehicle has emerged as a powerful platform for mitigating energy crisis and r...
In this paper, battery electric vehicle (BEV) controllers are smartly tuned with particle swarm opti...
This paper proposes a driving-scenario oriented optimal design of an axial-flux permanent-magnet (AF...
This article proposes an energy-efficiency strategy based on the optimization of driving patterns fo...