© Copyright 2015 by ASME. This paper presents the map-based navigation of a car with autonomous capabilities using grid-based scan-to-map matching. The autonomous car used for demonstration is built based on Toyota Prius and can control the throttle, the brake and the steering by a computer. The proposed grid-based scan-to-map matching method represents a map with a finite number of grid cells, represents a scan and the map with scan points at each grid as normal distributions (NDs) and constructs a map by matching the scan NDs to the map NDs. The proposed method enables scan-based mapping at high speed while maintaining high accuracy. The representation of a grid cell of a map in terms of multiple NDs further enhances speed and accuracy. T...
This paper presents the concept of an architecture for a wheeled robot system that helps researchers...
Map matching is a crucial data processing task for transferring measurements from the dynamic sensor...
Thesis: S.M., Massachusetts Institute of Technology, Department of Electrical Engineering and Comput...
© 2015 IEEE. This paper presents a fast global scan matching technique for high-speed vehicle naviga...
In this paper, we present an approach towards mapping and safe navigation in real, large-scale envir...
This paper will introduce the principle of autonomous navigation system. The main parts are scan mat...
Mapping an unknown environment exploiting sensors measurements and simultaneously localize a mobile ...
This paper proposes a map generation algorithm for a precise roadway map designed for autonomous car...
International audienceSelf-driving car's navigation requires a very precise localization covering wi...
© 2016 Taylor & Francis and The Robotics Society of Japan. This paper presents a grid-based scan-to-...
Many studies in the field of robot navigation have focused on environment representation and localiz...
In this paper the problem of automatic mapmaking is treated. The principles are discussed and detail...
This thesis is carried out in the context of Advanced Driver Assistance Systems, and especially auto...
Accurate and reliable localization is crucial to autonomous vehicle navigation and driver assistance...
The field of research connected to mobile robot navigation is much broader than the scope of this th...
This paper presents the concept of an architecture for a wheeled robot system that helps researchers...
Map matching is a crucial data processing task for transferring measurements from the dynamic sensor...
Thesis: S.M., Massachusetts Institute of Technology, Department of Electrical Engineering and Comput...
© 2015 IEEE. This paper presents a fast global scan matching technique for high-speed vehicle naviga...
In this paper, we present an approach towards mapping and safe navigation in real, large-scale envir...
This paper will introduce the principle of autonomous navigation system. The main parts are scan mat...
Mapping an unknown environment exploiting sensors measurements and simultaneously localize a mobile ...
This paper proposes a map generation algorithm for a precise roadway map designed for autonomous car...
International audienceSelf-driving car's navigation requires a very precise localization covering wi...
© 2016 Taylor & Francis and The Robotics Society of Japan. This paper presents a grid-based scan-to-...
Many studies in the field of robot navigation have focused on environment representation and localiz...
In this paper the problem of automatic mapmaking is treated. The principles are discussed and detail...
This thesis is carried out in the context of Advanced Driver Assistance Systems, and especially auto...
Accurate and reliable localization is crucial to autonomous vehicle navigation and driver assistance...
The field of research connected to mobile robot navigation is much broader than the scope of this th...
This paper presents the concept of an architecture for a wheeled robot system that helps researchers...
Map matching is a crucial data processing task for transferring measurements from the dynamic sensor...
Thesis: S.M., Massachusetts Institute of Technology, Department of Electrical Engineering and Comput...