This software controls a rover platform to traverse rocky terrain autonomously, plan paths, and avoid obstacles using its stereo hazard and navigation cameras. It does so while continuously tracking a target of interest selected from 10 20 m away. The rover drives and tracks the target until it reaches the vicinity of the target. The rover then positions itself to approach the target, deploys its robotic arm, and places the end effector instrument on the designated target to within 2-3-cm accuracy of the originally selected target. This software features continuous navigation in a fairly rocky field in an outdoor environment and the ability to enable the rover to avoid large rocks and traverse over smaller ones. Using point-and-click mouse ...
The Mars Pathfinder mission illustrated the benefits of including a mobile robotic explorer on a pla...
Surface exploration by wheeled rovers on Earth's Moon (the two Lunokhods) and Mars (Nasa's Sojourner...
A planetary rover will be traversing largely unknown and often unknowable terrain. In addition to ge...
A navigation system designed for a Mars rover has been designed to deal with rough terrain and/or po...
This paper presents a general overview of the Marsokhod rover mission. The autonomous navigation for...
Given ambitious mission objectives and long delay times between command-uplink/data-downlink session...
In search of conditions and substances that support life on Mars, the utilization of robotic rovers ...
Abstract-To command a rover to go to a location of scientific interest on a remote planet, the rover...
Problems related to the design and control of an autonomous rover for the purpose of unmanned explor...
Beginning next century, several schemes for sending a planetary rover to the moon or Mars are being ...
Abstract—Future planetary rover missions, such as the upcoming Mars Science Laboratory, will require...
Rovers operating on Mars are in need of more and more autonomous features to ful ll their challengi...
Abstract—Technologies to enable automated placement of a rover arm mounted instrument with the rover...
In search of conditions and substances that support life on Mars, the utilization of robotic rovers...
Intelligent mobility, agile manipulability, and increased autonomy are key technologies to guarantee...
The Mars Pathfinder mission illustrated the benefits of including a mobile robotic explorer on a pla...
Surface exploration by wheeled rovers on Earth's Moon (the two Lunokhods) and Mars (Nasa's Sojourner...
A planetary rover will be traversing largely unknown and often unknowable terrain. In addition to ge...
A navigation system designed for a Mars rover has been designed to deal with rough terrain and/or po...
This paper presents a general overview of the Marsokhod rover mission. The autonomous navigation for...
Given ambitious mission objectives and long delay times between command-uplink/data-downlink session...
In search of conditions and substances that support life on Mars, the utilization of robotic rovers ...
Abstract-To command a rover to go to a location of scientific interest on a remote planet, the rover...
Problems related to the design and control of an autonomous rover for the purpose of unmanned explor...
Beginning next century, several schemes for sending a planetary rover to the moon or Mars are being ...
Abstract—Future planetary rover missions, such as the upcoming Mars Science Laboratory, will require...
Rovers operating on Mars are in need of more and more autonomous features to ful ll their challengi...
Abstract—Technologies to enable automated placement of a rover arm mounted instrument with the rover...
In search of conditions and substances that support life on Mars, the utilization of robotic rovers...
Intelligent mobility, agile manipulability, and increased autonomy are key technologies to guarantee...
The Mars Pathfinder mission illustrated the benefits of including a mobile robotic explorer on a pla...
Surface exploration by wheeled rovers on Earth's Moon (the two Lunokhods) and Mars (Nasa's Sojourner...
A planetary rover will be traversing largely unknown and often unknowable terrain. In addition to ge...