Add to ORKGAll currently active planetary exploration robots employ wheels for locomotion. In this work an alternative robotic locomotion concept is examined: the rimless wheel, also known as whegs. It has been proven to be successful in traversing rough terrain on earth and inhibits an appealing simplicity in its mechanics and controls. These aspects along with its inherent redundancy make the rimless wheel particularly suited for planetary exploration. The rimless wheel’s kinematics and compliant spokes are analytically examined using mechanical models. The dynamics of these models are explored in a computational multi-body simulation which confirms the conclusions drawn from the analytical models about running, climbing and movement on rough...
Future planetary rovers are expected to probe across steep sandy slopes such as crater rims where wh...
Based on insufficient studies of the tractive performance of a planetary rover's rigid wheels in sof...
Space missions to explore Mars and Moon in situ are of high interest, but hazard terrain with steep...
All currently active planetary exploration robots employ wheels for locomotion. In this work an alte...
All currently active planetary exploration robots employ wheels for locomotion. In this work an alte...
All currently active planetary exploration robots employ wheels for locomotion. In this work an alte...
Robotic exploration of planetary bodies has historically been dominated by wheeled rovers. These ro...
Planetary exploration rovers are present on several celestial bodies of our solar system since the ...
At the present time, space exploration is dominated by wheeled rovers. Being able to investigate pla...
In-situ exploration of extraterrestrial area of scientific interest, such as caves on the Moon or Ma...
Mars is recently the most popular destination for planetary exploitation. A large extent of scienti...
Mars is recently the most popular destination for planetary exploitation. A large extent of scienti...
Mars is recently the most popular destination for planetary exploitation. A large extent of scienti...
Wheeled robot movement over unstructured terrain is usually referred to as roving. A primary target ...
This paper presents analytical models to investigate the steering maneuvers of planetary exploration...
Future planetary rovers are expected to probe across steep sandy slopes such as crater rims where wh...
Based on insufficient studies of the tractive performance of a planetary rover's rigid wheels in sof...
Space missions to explore Mars and Moon in situ are of high interest, but hazard terrain with steep...
All currently active planetary exploration robots employ wheels for locomotion. In this work an alte...
All currently active planetary exploration robots employ wheels for locomotion. In this work an alte...
All currently active planetary exploration robots employ wheels for locomotion. In this work an alte...
Robotic exploration of planetary bodies has historically been dominated by wheeled rovers. These ro...
Planetary exploration rovers are present on several celestial bodies of our solar system since the ...
At the present time, space exploration is dominated by wheeled rovers. Being able to investigate pla...
In-situ exploration of extraterrestrial area of scientific interest, such as caves on the Moon or Ma...
Mars is recently the most popular destination for planetary exploitation. A large extent of scienti...
Mars is recently the most popular destination for planetary exploitation. A large extent of scienti...
Mars is recently the most popular destination for planetary exploitation. A large extent of scienti...
Wheeled robot movement over unstructured terrain is usually referred to as roving. A primary target ...
This paper presents analytical models to investigate the steering maneuvers of planetary exploration...
Future planetary rovers are expected to probe across steep sandy slopes such as crater rims where wh...
Based on insufficient studies of the tractive performance of a planetary rover's rigid wheels in sof...
Space missions to explore Mars and Moon in situ are of high interest, but hazard terrain with steep...