Add to ORKGBipedal robotic locomotion in granular media presents a unique set of challenges at the intersection of granular physics and robotic locomotion. In this paper, we perform a systematic experimental study in which biped robotic gaits for traversing a sandy slope are empirically designed using Zero Moment Point (ZMP) methods. We are able to implement gaits that allow our 7 degree-of-freedom planar walking robot to ascend slopes with inclines up to 10°. Firstly, we identify a given set of kinematic parameters that meet the ZMP stability criterion for uphill walking at a given angle. We then find that further relating the step lengths and center of mass heights to specific slope angles through an interpolated fit allows for significantly improve...
This work demonstrates fast motion planning for robot locomotion that is optimized for terrain with ...
The thesis shows how to achieve bipedal robotic walking on flat-ground, up-slope and rough terrain b...
AbstractDynamic gait planning for humanoid robots encounters difficulties such as stability, speed, ...
Achieving stable bipedal robotic walking on deformable terrain is an open and challenging problem at...
Celestial bodies, such as the Moon and Mars are mainly covered by loose, granular soil, which is a n...
Humanoid robotics is a very active and recent research field, that aims at developing robots which a...
Bipedal robotic locomotion in granular media presents a unique set of challenges at the intersection...
Most models of legged locomotion assume a rigid ground contact, but this is not a reasonable assumpt...
So far, mobile, robotic exploration of celestial bodies has been performed solely with wheeled syste...
AbstractIt is a challenge to maintain a steady and stable locomotion when a biped robot navigates an...
Dynamic bipedal robot locomotion has achieved remarkable success due in part to recent advances in t...
Legged locomotion on flowing ground (e.g., granular media) is unlike locomotion on hard ground becau...
Robots have shown prowess in demonstrating navigation in many extreme environments, except in granul...
Up to now, walking robots have been working outdoors under favorable conditions and using very large...
Humanoid robots will need capabilities to traverse environments ranging from factory floors to disas...
This work demonstrates fast motion planning for robot locomotion that is optimized for terrain with ...
The thesis shows how to achieve bipedal robotic walking on flat-ground, up-slope and rough terrain b...
AbstractDynamic gait planning for humanoid robots encounters difficulties such as stability, speed, ...
Achieving stable bipedal robotic walking on deformable terrain is an open and challenging problem at...
Celestial bodies, such as the Moon and Mars are mainly covered by loose, granular soil, which is a n...
Humanoid robotics is a very active and recent research field, that aims at developing robots which a...
Bipedal robotic locomotion in granular media presents a unique set of challenges at the intersection...
Most models of legged locomotion assume a rigid ground contact, but this is not a reasonable assumpt...
So far, mobile, robotic exploration of celestial bodies has been performed solely with wheeled syste...
AbstractIt is a challenge to maintain a steady and stable locomotion when a biped robot navigates an...
Dynamic bipedal robot locomotion has achieved remarkable success due in part to recent advances in t...
Legged locomotion on flowing ground (e.g., granular media) is unlike locomotion on hard ground becau...
Robots have shown prowess in demonstrating navigation in many extreme environments, except in granul...
Up to now, walking robots have been working outdoors under favorable conditions and using very large...
Humanoid robots will need capabilities to traverse environments ranging from factory floors to disas...
This work demonstrates fast motion planning for robot locomotion that is optimized for terrain with ...
The thesis shows how to achieve bipedal robotic walking on flat-ground, up-slope and rough terrain b...
AbstractDynamic gait planning for humanoid robots encounters difficulties such as stability, speed, ...