Given ambitious mission objectives and long delay times between command-uplink/data-downlink sessions, increased autonomy is required for planetary rovers. Specifically, NASA\u27s planned 2003 and 2005 Mars rover missions must incorporate increased autonomy if their desired mission goals are to be realized. Increased autonomy, including autonomous path planning and navigation to user designated goals, relies on good quality estimates of the rover\u27s state, e.g., its position and orientation relative to some initial reference frame. The challenging terrain over which the rover will necessarily traverse tends to seriously degrade a dead-reckoned state estimate, given severe wheel slip and/or interaction with obstacles. In this paper, we pre...
Space robotic systems have been playing a crucial role in planetary exploration missions, expanding ...
Results from the experimental testing of a navigation system for planetary rovers called Terrain Ada...
Autonomous planetary rovers operating in vast unknown environments must operate efficiently because ...
The next round of planetary missions will require increased autonomy to enable exploration rovers to...
Robust navigation through rocky terrain by small mobile robots is important for maximizing science r...
While significant recent progress has been made in development of mobile robots for planetary surfac...
Considering the wide spectrum of situations that it may encounter, a robot navigating autonomously i...
This paper describes the design, implementation, and experimental results of a navigation system for...
A navigation system for Mars rovers in very rough terrain has been designed, implemented, and tested...
Abstract. In January, 2004, the Mars Exploration Rover (MER) mission landed two rovers, Spirit and O...
Given the long traverse times and severe environmental constraints on planet Mars, the only option f...
Planetary rovers are one of the key elements for extraterrestrial on-surface exploration in our sola...
Future rovers will be equipped with substantial onboard autonomy as space agencies and industry proc...
Future planetary exploration missions will require rovers to perform difficult tasks in rough terrai...
The Mars Pathfinder mission illustrated the benefits of including a mobile robotic explorer on a pla...
Space robotic systems have been playing a crucial role in planetary exploration missions, expanding ...
Results from the experimental testing of a navigation system for planetary rovers called Terrain Ada...
Autonomous planetary rovers operating in vast unknown environments must operate efficiently because ...
The next round of planetary missions will require increased autonomy to enable exploration rovers to...
Robust navigation through rocky terrain by small mobile robots is important for maximizing science r...
While significant recent progress has been made in development of mobile robots for planetary surfac...
Considering the wide spectrum of situations that it may encounter, a robot navigating autonomously i...
This paper describes the design, implementation, and experimental results of a navigation system for...
A navigation system for Mars rovers in very rough terrain has been designed, implemented, and tested...
Abstract. In January, 2004, the Mars Exploration Rover (MER) mission landed two rovers, Spirit and O...
Given the long traverse times and severe environmental constraints on planet Mars, the only option f...
Planetary rovers are one of the key elements for extraterrestrial on-surface exploration in our sola...
Future rovers will be equipped with substantial onboard autonomy as space agencies and industry proc...
Future planetary exploration missions will require rovers to perform difficult tasks in rough terrai...
The Mars Pathfinder mission illustrated the benefits of including a mobile robotic explorer on a pla...
Space robotic systems have been playing a crucial role in planetary exploration missions, expanding ...
Results from the experimental testing of a navigation system for planetary rovers called Terrain Ada...
Autonomous planetary rovers operating in vast unknown environments must operate efficiently because ...