Add to ORKGPlanetary rovers navigate in extreme environments for which a Global Positioning System (GPS) is unavailable, maps are restricted to relatively low resolution provided by orbital imagery, and compass information is often lacking due to weak or not existent magnetic fields. However, an accurate rover localization is particularly important to achieve the mission success by reaching the science targets, avoiding negative obstacles visible only in orbital maps, and maintaining good communication connections with ground. This paper describes a horizon solution for precise rover orientation estimation. The detected horizon in imagery provided by the on board navigation cameras is matched with the horizon rendered over the existing terrain model. ...
Abstract. Planetary rover localization is a challenging problem since no conventional methods such a...
Pose estimation is critical for mobile robots to fulfill various tasks, such as path following or ma...
<p>LIDAR-only and camera-only approaches to global localization in planetary environments have relie...
This paper introduces an advanced rover localization system suitable for autonomous planetary explor...
In this work we have performed a sensitivity analysis of the Visual Position Estimator for Rover (VI...
In this work we have performed a sensitivity analysis of the Visual Position Estimator for Rover (VI...
In this work we have performed a sensitivity analysis of the Visual Position Estimator for Rover (VI...
In this work we have performed a sensitivity analysis of the Visual Position Estimator for Rover (VI...
In this work we have performed a sensitivity analysis of the Visual Position Estimator for Rover (VI...
Given ambitious mission objectives and long delay times between command-uplink/data-downlink session...
The next round of planetary missions will require increased autonomy to enable exploration rovers to...
The presentation focuses on surface navigation and mapping challenges in planetary environments incl...
Space robotic systems have been playing a crucial role in planetary exploration missions, expanding ...
Pose estimation is critical for mobile robots to fulfill various tasks, such as path following or ma...
In this paper we present two new approaches to planetary rover perception. One approach concerns ste...
Abstract. Planetary rover localization is a challenging problem since no conventional methods such a...
Pose estimation is critical for mobile robots to fulfill various tasks, such as path following or ma...
<p>LIDAR-only and camera-only approaches to global localization in planetary environments have relie...
This paper introduces an advanced rover localization system suitable for autonomous planetary explor...
In this work we have performed a sensitivity analysis of the Visual Position Estimator for Rover (VI...
In this work we have performed a sensitivity analysis of the Visual Position Estimator for Rover (VI...
In this work we have performed a sensitivity analysis of the Visual Position Estimator for Rover (VI...
In this work we have performed a sensitivity analysis of the Visual Position Estimator for Rover (VI...
In this work we have performed a sensitivity analysis of the Visual Position Estimator for Rover (VI...
Given ambitious mission objectives and long delay times between command-uplink/data-downlink session...
The next round of planetary missions will require increased autonomy to enable exploration rovers to...
The presentation focuses on surface navigation and mapping challenges in planetary environments incl...
Space robotic systems have been playing a crucial role in planetary exploration missions, expanding ...
Pose estimation is critical for mobile robots to fulfill various tasks, such as path following or ma...
In this paper we present two new approaches to planetary rover perception. One approach concerns ste...
Abstract. Planetary rover localization is a challenging problem since no conventional methods such a...
Pose estimation is critical for mobile robots to fulfill various tasks, such as path following or ma...
<p>LIDAR-only and camera-only approaches to global localization in planetary environments have relie...