In this paper; we describe a core system for autonomous navigation in outdoor natural terrain. The system consists of three parts: a perception module which processes range images to identify untraversable regions of the terrain, a local map management module which maintains a representation of the environment in the vicinity of the vehicle, and a planning module which issues commands to the vehicle controller. Our approach is to use the concept of "early traversability evaluation," in which the perception module decides which parts of the terrain are traversable as soon as a new image is taken, and on the use of reactive planning for generating commands to drive the vehicle. We argue that our approach leads to a robust and efficient naviga...
Rough terrain autonomous navigation continues to pose a challenge to the robotics community. Robust ...
Abstract. Autonomous navigation in cross-country environments presents many new challenges with resp...
: In this paper we describe a motion planner for a mobile robot on a natural terrain. This planner t...
We describe a core system for autonomous navigation in outdoor natural terrain. The system consists ...
Abstract. Off-road autonomous navigation is one of the most difficult automation challenges from the...
©2003 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
Autonomous Cross-Country Navigation requires a system which can support a rapid traverse across chal...
This paper presents a comprehensive navigation system capable of extended coverage operations in sem...
Thesis: S.M., Massachusetts Institute of Technology, Department of Electrical Engineering and Comput...
Konolige et al.: Mapping, Navigation, and Learning for Off-Road Traversal • 89 The challenge in the ...
Abstract — Many tasks examined for robotic application like rescue missions or humanitarian demining...
Abstract—Path estimation is a big challenge for autonomous vehicle navigation, especially in unknown...
The use and integration of a novel planning approach for an all-terrain vehicle that is to navigate ...
This work presents some different approaches to the design of navigation systems for off-road terrai...
We present a navigation system which is able to steer an electronically controlled ground vehicle to...
Rough terrain autonomous navigation continues to pose a challenge to the robotics community. Robust ...
Abstract. Autonomous navigation in cross-country environments presents many new challenges with resp...
: In this paper we describe a motion planner for a mobile robot on a natural terrain. This planner t...
We describe a core system for autonomous navigation in outdoor natural terrain. The system consists ...
Abstract. Off-road autonomous navigation is one of the most difficult automation challenges from the...
©2003 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
Autonomous Cross-Country Navigation requires a system which can support a rapid traverse across chal...
This paper presents a comprehensive navigation system capable of extended coverage operations in sem...
Thesis: S.M., Massachusetts Institute of Technology, Department of Electrical Engineering and Comput...
Konolige et al.: Mapping, Navigation, and Learning for Off-Road Traversal • 89 The challenge in the ...
Abstract — Many tasks examined for robotic application like rescue missions or humanitarian demining...
Abstract—Path estimation is a big challenge for autonomous vehicle navigation, especially in unknown...
The use and integration of a novel planning approach for an all-terrain vehicle that is to navigate ...
This work presents some different approaches to the design of navigation systems for off-road terrai...
We present a navigation system which is able to steer an electronically controlled ground vehicle to...
Rough terrain autonomous navigation continues to pose a challenge to the robotics community. Robust ...
Abstract. Autonomous navigation in cross-country environments presents many new challenges with resp...
: In this paper we describe a motion planner for a mobile robot on a natural terrain. This planner t...