Scientific exploration of challenging planetary analog environments with a team of legged robots
The interest in exploring planetary bodies for scientific investigation and in situ resource
utilization is ever-rising. Yet, many sites of interest are inaccessible to state-of-the-art …
utilization is ever-rising. Yet, many sites of interest are inaccessible to state-of-the-art …
Learning quadrupedal locomotion on deformable terrain
Simulation-based reinforcement learning approaches are leading the next innovations in
legged robot control. However, the resulting control policies are still not applicable on soft …
legged robot control. However, the resulting control policies are still not applicable on soft …
Cajun: Continuous adaptive jumping using a learned centroidal controller
We present CAJun, a novel hierarchical learning and control framework that enables legged
robots to jump continuously with adaptive jumping distances. CAJun consists of a high-level …
robots to jump continuously with adaptive jumping distances. CAJun consists of a high-level …
State of the art and future trends in obstacle-surmounting unmanned ground vehicle configuration and dynamics
This article presents a review of the platform configuration and dynamic of obstacle-
surmounting unmanned ground vehicles (UGVs). For now, unmanned systems have …
surmounting unmanned ground vehicles (UGVs). For now, unmanned systems have …
Towards legged locomotion on steep planetary terrain
G Valsecchi, C Weibel, H Kolvenbach… - 2023 IEEE/RSJ …, 2023 - ieeexplore.ieee.org
Scientific exploration of planetary bodies is an activity well-suited for robots. Unfortunately,
the regions that are richer in potential discoveries, such as impact craters, caves, and …
the regions that are richer in potential discoveries, such as impact craters, caves, and …
STAF: Interaction-based design and evaluation of sensorized terrain-adaptive foot for legged robot traversing on soft slopes
Legged robots have been widely used in unstructured field environments, where unforeseen
nongeometric hazards, such as sinkage or slippage might compromise their mobility. Such …
nongeometric hazards, such as sinkage or slippage might compromise their mobility. Such …
A compact and agile angled-spoke wheel-based mobile robot for uneven and granular terrains
This study proposes an angled spoke-based wheel (ASW) design to enhance the driving
speed of a mobile robot with angled spoke-based wheels called DODO on granular media …
speed of a mobile robot with angled spoke-based wheels called DODO on granular media …
A reconfigurable leg for walking robots
We present the design of a robotic leg that can seamlessly switch between a spring-
suspended, and unsuspended configuration. Switching is realized by a mechanism that …
suspended, and unsuspended configuration. Switching is realized by a mechanism that …
Improving landing stability and terrain adaptability in Lunar exploration with biomimetic lander design and control
J Zhu, J Ma, J Chen, C Wang, Y Li, Z Fan, C Lu - Acta Astronautica, 2025 - Elsevier
Traditional lunar landers face challenges due to strict flatness requirements at landing sites
and the need to avoid complex terrains, which significantly limits their exploration …
and the need to avoid complex terrains, which significantly limits their exploration …
Bio-inspired take-off maneuver and control in vertical jumping for quadruped robot with manipulator
The jumping motion of legged robots is an effective way to overcome obstacles in the
rugged microgravity planetary exploration environment. At the same time, a quadruped robot …
rugged microgravity planetary exploration environment. At the same time, a quadruped robot …