Add to ORKGPlanetary exploration vehicles (rovers) can encounter with a great variety of situations. Most of them are related to the terrain, which can cause the end of the mission if these vehicles are not able to traverse it. It was the case of Spirit rover, which got stuck in loose sand, making it impossible to continue advancing. A solution to this is to make rovers capable of modifying their locomotion to traverse terrains with particular terramechanic parameters.Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech
Surface exploration by wheeled rovers on Earth's Moon (the two Lunokhods) and Mars (Nasa's Sojourner...
Surface exploration by wheeled rovers on Earth's Moon (the two Lunokhods) and Mars (Nasa's Sojourner...
With the success of Mars Pathfinder's Sojourner rover, a new era of planetary exploration has opened...
Planetary exploration vehicles (rovers) can encounter with a great variety of situations. Most of t...
This paper introduces a path planning algorithm that takes into consideration different locomotion ...
This paper introduces a path planning algorithm that takes into consideration different locomotion ...
This paper introduces a path planning algorithm that takes into consideration different locomotion ...
This paper introduces a path planning algorithm that takes into consideration different locomotion ...
Autonomy on rovers is desirable in order to extend the traversed distance, and therefore, maximize t...
Autonomy on rovers is desirable in order to extend the traversed distance, and therefore, maximize t...
Over the past ve decades the use of mobile robotic rovers to perform in-situ scienti c investigatio...
Robotic rovers uniquely benefit planetary exploration- they enable regional exploration with the pre...
NASA is proposing a Mars Sample Return mission, to be completed within one Martian year, that will r...
This paper describes a path planning method for planetary rovers to search for paths on planetary su...
Having already proven their worth several times in extraterrestrial environments, rovers can be high...
Surface exploration by wheeled rovers on Earth's Moon (the two Lunokhods) and Mars (Nasa's Sojourner...
Surface exploration by wheeled rovers on Earth's Moon (the two Lunokhods) and Mars (Nasa's Sojourner...
With the success of Mars Pathfinder's Sojourner rover, a new era of planetary exploration has opened...
Planetary exploration vehicles (rovers) can encounter with a great variety of situations. Most of t...
This paper introduces a path planning algorithm that takes into consideration different locomotion ...
This paper introduces a path planning algorithm that takes into consideration different locomotion ...
This paper introduces a path planning algorithm that takes into consideration different locomotion ...
This paper introduces a path planning algorithm that takes into consideration different locomotion ...
Autonomy on rovers is desirable in order to extend the traversed distance, and therefore, maximize t...
Autonomy on rovers is desirable in order to extend the traversed distance, and therefore, maximize t...
Over the past ve decades the use of mobile robotic rovers to perform in-situ scienti c investigatio...
Robotic rovers uniquely benefit planetary exploration- they enable regional exploration with the pre...
NASA is proposing a Mars Sample Return mission, to be completed within one Martian year, that will r...
This paper describes a path planning method for planetary rovers to search for paths on planetary su...
Having already proven their worth several times in extraterrestrial environments, rovers can be high...
Surface exploration by wheeled rovers on Earth's Moon (the two Lunokhods) and Mars (Nasa's Sojourner...
Surface exploration by wheeled rovers on Earth's Moon (the two Lunokhods) and Mars (Nasa's Sojourner...
With the success of Mars Pathfinder's Sojourner rover, a new era of planetary exploration has opened...