Future Mars exploration missions will perform two types of experiments: science instrument placement for close-up measurement, and sample acquisition for return to Earth. In this paper we describe algorithms we developed for these tasks, and demonstrate them in field experiments using a self-contained Mars Rover prototype, the Rocky 7 rover. Our algorithms perform visual servoing on an elevation map instead of image features, because the latter are subject to abrupt scale changes during the approach. 'This allows us to compensate for the poor odometry that results from motion on loose terrain. We demonstrate the successful grasp of a 5 cm long rock over 1m away using 103-degree field-of-view stereo cameras, and placement of a flexible mast ...
Exploration of large unknown planetary environments will rely on rovers that can autonomously cover ...
The Mars Pathfinder mission illustrated the benefits of including a mobile robotic explorer on a pla...
Our project aims to automate Mars mapping and localization using robotic stereo and descent imagery....
The next round of planetary missions will require increased autonomy to enable exploration rovers to...
To adequately explore high priority landing sites, scientists require rovers with greater mobility. ...
Robust navigation through rocky terrain by small mobile robots is important for maximizing science r...
Abstract-To command a rover to go to a location of scientific interest on a remote planet, the rover...
Upcoming missions to the surface of Mars will use mobile robots to traverse long distances from the ...
Upcoming missions to the surface of Mars will use mobile robots to traverse long distances from the ...
Mars represents one of the most important targets for space exploration in the next 10 to 30 years, ...
This software controls a rover platform to traverse rocky terrain autonomously, plan paths, and avoi...
Given ambitious mission objectives and long delay times between command-uplink/data-downlink session...
In order for unmanned vehicles to be able to successfully accomplish the planned task in high-risk r...
Mars represents one of the most important targets for space exploration in the next 10 to 30 years, ...
Space robotic systems have been playing a crucial role in planetary exploration missions, expanding ...
Exploration of large unknown planetary environments will rely on rovers that can autonomously cover ...
The Mars Pathfinder mission illustrated the benefits of including a mobile robotic explorer on a pla...
Our project aims to automate Mars mapping and localization using robotic stereo and descent imagery....
The next round of planetary missions will require increased autonomy to enable exploration rovers to...
To adequately explore high priority landing sites, scientists require rovers with greater mobility. ...
Robust navigation through rocky terrain by small mobile robots is important for maximizing science r...
Abstract-To command a rover to go to a location of scientific interest on a remote planet, the rover...
Upcoming missions to the surface of Mars will use mobile robots to traverse long distances from the ...
Upcoming missions to the surface of Mars will use mobile robots to traverse long distances from the ...
Mars represents one of the most important targets for space exploration in the next 10 to 30 years, ...
This software controls a rover platform to traverse rocky terrain autonomously, plan paths, and avoi...
Given ambitious mission objectives and long delay times between command-uplink/data-downlink session...
In order for unmanned vehicles to be able to successfully accomplish the planned task in high-risk r...
Mars represents one of the most important targets for space exploration in the next 10 to 30 years, ...
Space robotic systems have been playing a crucial role in planetary exploration missions, expanding ...
Exploration of large unknown planetary environments will rely on rovers that can autonomously cover ...
The Mars Pathfinder mission illustrated the benefits of including a mobile robotic explorer on a pla...
Our project aims to automate Mars mapping and localization using robotic stereo and descent imagery....