This thesis presents an investigation into a novel method of estimating the trajectory (future direction and elevation) of a vehicle, and subsequently influencing the control of an engine. The technique represents a convenient and robust method of achieving road prediction, to form a fuzzy system that „looks ahead‟, leading potentially to improved fuel consumption and a consequent reduction in exhaust emissions. The work described in this thesis brings together two modern technologies, Neuro-fuzzy techniques and Global Positioning System, and applies them to engine/vehicle control
While effective in improving handling and passenger safety, current vehicle control systems are gene...
To improve the stability and safety performance of active safety systems, vehicle control systems ar...
An experimental effort has been completed in which water injection was investigated as a means of en...
To meet increasingly stringent fuel economy and emissions legislation, more advanced technologies ha...
Autonomous steering control is one the most important features in autonomous vehicle navigation. The...
With degraded visual environments being a current priority to the Army, several research programs ha...
This thesis addresses the need for an optimization method which can simultaneously optimize and bala...
Eco Approach and Departure (Eco-AnD) is a Connected and Automated Vehicle (CAV) technology developed...
This research presents a dual-level control structure for controlling a mobile robot or a group of r...
The thesis COMPARATIVE ANALYSIS OF EFFICIENCY AND OPERATING CHARACTERISTICS OF AUTOMOTIVE POWERTRAI...
Hybrid electric vehicles (HEV) represent one of the most promising fuel-saving technologies in the s...
Avoiding collisions is one of the most important issues in autonomous driving systems. The main goal...
A series hybrid electric vehicle is a vehicle that is powered by both an engine and a battery pack. ...
The goal of this research is to develop an operational supervisory controller for Wayne State Univer...
The goal of this series of research is to advance hybrid electric vehicle (HEV) energy management by...
While effective in improving handling and passenger safety, current vehicle control systems are gene...
To improve the stability and safety performance of active safety systems, vehicle control systems ar...
An experimental effort has been completed in which water injection was investigated as a means of en...
To meet increasingly stringent fuel economy and emissions legislation, more advanced technologies ha...
Autonomous steering control is one the most important features in autonomous vehicle navigation. The...
With degraded visual environments being a current priority to the Army, several research programs ha...
This thesis addresses the need for an optimization method which can simultaneously optimize and bala...
Eco Approach and Departure (Eco-AnD) is a Connected and Automated Vehicle (CAV) technology developed...
This research presents a dual-level control structure for controlling a mobile robot or a group of r...
The thesis COMPARATIVE ANALYSIS OF EFFICIENCY AND OPERATING CHARACTERISTICS OF AUTOMOTIVE POWERTRAI...
Hybrid electric vehicles (HEV) represent one of the most promising fuel-saving technologies in the s...
Avoiding collisions is one of the most important issues in autonomous driving systems. The main goal...
A series hybrid electric vehicle is a vehicle that is powered by both an engine and a battery pack. ...
The goal of this research is to develop an operational supervisory controller for Wayne State Univer...
The goal of this series of research is to advance hybrid electric vehicle (HEV) energy management by...
While effective in improving handling and passenger safety, current vehicle control systems are gene...
To improve the stability and safety performance of active safety systems, vehicle control systems ar...
An experimental effort has been completed in which water injection was investigated as a means of en...