Autonomous driving is a challenging problem in mobile robotics, particularly when the domain is unstructured, as in an outdoor setting. In addition, field scenarios are often characterized by low visibility as well, due to changes in lighting conditions, weather phenomena including fog, rain, snow and hail, or the presence of dust clouds and smoke. Thus, advanced perception systems are primarily required for an off-road robot to sense and understand its environment recognizing artificial and natural structures, topology, vegetation and paths, while ensuring, at the same time, robustness under compromised visibility. In this paper the use of millimeter-wave radar is proposed as a possible solution for allweather off-road perception. A se...
Autonomous vehicles operating in on-road environments need to be aware of the presence and motion of...
Traditional approaches to outdoor vehicle localization assume a reliable, prior map is available, ty...
Autonomous vehicle operations in Antarctica challenge robotic perception. Flying ice and snow, chang...
Reliable terrain analysis is a key requirement for a mobile robot to operate safely in challenging e...
Ground segmentation is critical for a mobile robot to successfully accomplish its tasks in challengi...
Autonomous vehicle operations in outdoor environments challenge robotic perception. Construction, mi...
For mobile robots operating in outdoor environments, per- ception is a critical task. Construction, ...
Reliable outdoor deployment of mobile robots requires the robust identification of permissible drivi...
Imaging sensors are being increasingly used in autonomous vehicle applications for scene understandi...
In this research, adaptive perception for driving automation is discussed so as to enable a vehicle ...
Classification of surfaces in the near field using millimeter-wave radar commonly considers the use ...
Thesis (Ph.D.)--University of Washington, 2023Millimeter-wave radars are increasingly integrated int...
Classification of surfaces using millimeter-wave radar commonly considers the use of polarization-ba...
This paper presents a radar-vision classification approach to segment the visual scene into ground a...
83 p.Building an incremental map and simultaneously using it for localization, is of prime importanc...
Autonomous vehicles operating in on-road environments need to be aware of the presence and motion of...
Traditional approaches to outdoor vehicle localization assume a reliable, prior map is available, ty...
Autonomous vehicle operations in Antarctica challenge robotic perception. Flying ice and snow, chang...
Reliable terrain analysis is a key requirement for a mobile robot to operate safely in challenging e...
Ground segmentation is critical for a mobile robot to successfully accomplish its tasks in challengi...
Autonomous vehicle operations in outdoor environments challenge robotic perception. Construction, mi...
For mobile robots operating in outdoor environments, per- ception is a critical task. Construction, ...
Reliable outdoor deployment of mobile robots requires the robust identification of permissible drivi...
Imaging sensors are being increasingly used in autonomous vehicle applications for scene understandi...
In this research, adaptive perception for driving automation is discussed so as to enable a vehicle ...
Classification of surfaces in the near field using millimeter-wave radar commonly considers the use ...
Thesis (Ph.D.)--University of Washington, 2023Millimeter-wave radars are increasingly integrated int...
Classification of surfaces using millimeter-wave radar commonly considers the use of polarization-ba...
This paper presents a radar-vision classification approach to segment the visual scene into ground a...
83 p.Building an incremental map and simultaneously using it for localization, is of prime importanc...
Autonomous vehicles operating in on-road environments need to be aware of the presence and motion of...
Traditional approaches to outdoor vehicle localization assume a reliable, prior map is available, ty...
Autonomous vehicle operations in Antarctica challenge robotic perception. Flying ice and snow, chang...