This article presents an approach to improve and monitor the behavior of a skid-steering rover on rough terrains. An adaptive locomotion control generates speeds references to avoid slipping situations. An enhanced odometry provides a better estimation of the distance travelled. A probabilistic classification procedure provides an evaluation of the locomotion efficiency on-line, with a detection of locomotion faults. Results obtained with a Marsokhod rover are presented throughout the pape
Legged rovers offer a potentially superior alternative to wheeled locomotion for the exploration of ...
Given ambitious mission objectives and long delay times between command-uplink/data-downlink session...
Abstract This paper shows the performance of various traction control strategies that...
This article presents an approach to improve and monitor the behavior of a skid-steering rover on ro...
JAXA's Martian Moons eXploration Mission (MMX) includes the delivery of an exploration rover to the ...
Considering the wide spectrum of situations that it may encounter, a robot navigating autonomously i...
Mars is recently the most popular destination for planetary exploitation. A large extent of scienti...
The search for life on Mars is being propelled by recent successes by unmanned robotic rovers. Robo...
This paper reviews works performed in our lab concerning the optimisation of locomotion performances...
While significant recent progress has been made in development of mobile robots for planetary surfac...
Future planetary rovers are expected to probe across steep sandy slopes such as crater rims where wh...
The search for life on Mars is being propelled by recent successes by unmanned robotic rovers. Robo...
For improvement of planetary rover locomotion, a new type of tracked vehicle was designed for planet...
International audienceThis article presents an algorithm that determines safe motions for an articul...
Planetary rovers are one of the key elements for extraterrestrial on-surface exploration in our sola...
Legged rovers offer a potentially superior alternative to wheeled locomotion for the exploration of ...
Given ambitious mission objectives and long delay times between command-uplink/data-downlink session...
Abstract This paper shows the performance of various traction control strategies that...
This article presents an approach to improve and monitor the behavior of a skid-steering rover on ro...
JAXA's Martian Moons eXploration Mission (MMX) includes the delivery of an exploration rover to the ...
Considering the wide spectrum of situations that it may encounter, a robot navigating autonomously i...
Mars is recently the most popular destination for planetary exploitation. A large extent of scienti...
The search for life on Mars is being propelled by recent successes by unmanned robotic rovers. Robo...
This paper reviews works performed in our lab concerning the optimisation of locomotion performances...
While significant recent progress has been made in development of mobile robots for planetary surfac...
Future planetary rovers are expected to probe across steep sandy slopes such as crater rims where wh...
The search for life on Mars is being propelled by recent successes by unmanned robotic rovers. Robo...
For improvement of planetary rover locomotion, a new type of tracked vehicle was designed for planet...
International audienceThis article presents an algorithm that determines safe motions for an articul...
Planetary rovers are one of the key elements for extraterrestrial on-surface exploration in our sola...
Legged rovers offer a potentially superior alternative to wheeled locomotion for the exploration of ...
Given ambitious mission objectives and long delay times between command-uplink/data-downlink session...
Abstract This paper shows the performance of various traction control strategies that...