Recent research suggests that collision mitigation on low grip surfaces might require autonomous vehicles to execute maneuvers such as drift, trail braking or Scandinavian flick. In order to achieve this it is necessary to perceive the vehicle states and their interaction with the environment, and use this information to determine the chassis limits. A first look at the virtual automotive sensing problem is provided, followed by a description of Rally driving modeling approaches. Finally, a co-pilot collision mitigation system for loose surfaces based on a Rally driver Model is proposed
Road vehicle automation is a trendy topic in research and media. Some automation such as adaptive cr...
Progress in reducing actuator delays in pneumatic brake systems creates an opportunity for advanced...
In recent years, autonomous vehicles and advanced driver assistance systems have drawn a great deal ...
Recent research suggests that collision mitigation on low grip surfaces might require autonomous veh...
Interest in autonomous vehicles has increased steadily over recent years. Autonomous driving on roug...
Development of the autonomous vehicle has been a trending topic over the last few years. The automot...
Without a driver to fall back on, a fully self-driving car needs to be able to handle any situation ...
This thesis aims to design and develop trajectory planning and tracking strategies integrating with ...
Autonomous vehicles have become a reality, many vehicles have implemented some features to allow par...
For the past 30 years, autonomous driving has witnessed a tremendous improvements thanks to the surg...
This paper presents a general force allocation strategy for over-actuated vehicles, utilising techno...
Handling of critical situations is an important part in the architecture of an autonomous vehicle. A...
As roads become busier and automotive technology improves, there is considerable potential for drive...
Full market penetration for autonomous vehicle requires complete solutions for operation during wint...
In the context of a future scenario of autonomous vehicle platooning, this paper considers the optim...
Road vehicle automation is a trendy topic in research and media. Some automation such as adaptive cr...
Progress in reducing actuator delays in pneumatic brake systems creates an opportunity for advanced...
In recent years, autonomous vehicles and advanced driver assistance systems have drawn a great deal ...
Recent research suggests that collision mitigation on low grip surfaces might require autonomous veh...
Interest in autonomous vehicles has increased steadily over recent years. Autonomous driving on roug...
Development of the autonomous vehicle has been a trending topic over the last few years. The automot...
Without a driver to fall back on, a fully self-driving car needs to be able to handle any situation ...
This thesis aims to design and develop trajectory planning and tracking strategies integrating with ...
Autonomous vehicles have become a reality, many vehicles have implemented some features to allow par...
For the past 30 years, autonomous driving has witnessed a tremendous improvements thanks to the surg...
This paper presents a general force allocation strategy for over-actuated vehicles, utilising techno...
Handling of critical situations is an important part in the architecture of an autonomous vehicle. A...
As roads become busier and automotive technology improves, there is considerable potential for drive...
Full market penetration for autonomous vehicle requires complete solutions for operation during wint...
In the context of a future scenario of autonomous vehicle platooning, this paper considers the optim...
Road vehicle automation is a trendy topic in research and media. Some automation such as adaptive cr...
Progress in reducing actuator delays in pneumatic brake systems creates an opportunity for advanced...
In recent years, autonomous vehicles and advanced driver assistance systems have drawn a great deal ...