Add to ORKGThis paper introduces a motion planning strategy aimed at the coordination of a rover and manipulator. The main purpose is to fetch samples of scientific interest that could be placed on difficult locations, requiring to maximize the workspace of the combined system. In order to validate this strategy, a simulation environment has been built, based on the VORTEX Studio platform. A virtual model of the ExoTer rover prototype, owned by the European Space Agency, has been used together with the same robot control software. Finally, we show in this paper the benefits of validating the proposed strategy on simulation, prior to its future use on the real experimental rover.Universidad de Málaga. Campus de Excelencia Internacional Andalucía T...
Space exploration is moving forward and one of the topics currently being researched is mining. The ...
The improvements in computational power, miniaturization processes, sensors and robotics technology ...
The MMX Rover, developed by CNES and DLR, will fly to and explore the surface of the Martian Moon Ph...
This paper introduces a motion planning strategy aimed at the coordination of a rover and manipulat...
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 ...
Planetary exploration vehicles (rovers) can encounter with a great variety of situations. Most of t...
Over the past ve decades the use of mobile robotic rovers to perform in-situ scienti c investigatio...
Autonomy on rovers is desirable in order to extend the traversed distance, and therefore, maximize t...
Future surface exploration missions to the Moon and Mars are likely to include wheeled microrovers. ...
The paper presents a tool develop to provide a general purpose testbed to validate the design, to si...
Abstract: This study deals with optimization of planetary rover traversability over challenging outd...
The development of robot motion planning algorithms is inherently a challenging task. This is more t...
This paper motivates and details the tools used to control a planetary exploration rover prototype a...
Abstract: Robotic planetary exploration is a major component of the United States ’ NASA space scien...
Space exploration is moving forward and one of the topics currently being researched is mining. The ...
The improvements in computational power, miniaturization processes, sensors and robotics technology ...
The MMX Rover, developed by CNES and DLR, will fly to and explore the surface of the Martian Moon Ph...
This paper introduces a motion planning strategy aimed at the coordination of a rover and manipulat...
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 ...
Planetary exploration vehicles (rovers) can encounter with a great variety of situations. Most of t...
Over the past ve decades the use of mobile robotic rovers to perform in-situ scienti c investigatio...
Autonomy on rovers is desirable in order to extend the traversed distance, and therefore, maximize t...
Future surface exploration missions to the Moon and Mars are likely to include wheeled microrovers. ...
The paper presents a tool develop to provide a general purpose testbed to validate the design, to si...
Abstract: This study deals with optimization of planetary rover traversability over challenging outd...
The development of robot motion planning algorithms is inherently a challenging task. This is more t...
This paper motivates and details the tools used to control a planetary exploration rover prototype a...
Abstract: Robotic planetary exploration is a major component of the United States ’ NASA space scien...
Space exploration is moving forward and one of the topics currently being researched is mining. The ...
The improvements in computational power, miniaturization processes, sensors and robotics technology ...
The MMX Rover, developed by CNES and DLR, will fly to and explore the surface of the Martian Moon Ph...