The strategies that humans use to control unsteady locomotion are not well understood. A "spring-mass" template comprised of a point mass bouncing on a sprung leg can approximate both center of mass movements and ground reaction forces during running in humans and other animals. Legged robots that operate as bouncing, "spring-mass" systems can maintain stable motion using relatively simple, distributed feedback rules. We tested whether the changes to sagittal-plane movements during five running tasks involving active changes to running height, speed, and orientation were consistent with the rules used by bouncing robots to maintain stability. Changes to running height were associated with changes to leg force but not stance duration. To cha...
The purpose of this thesis is to make advances in the design of humanoid bipedal running robots. We ...
In human running, the ankle, knee, and hip moments are known to play different roles to influence th...
A primary goal of comparative biomechanics is to understand the fundamental physics of locomotion wi...
Humans can run without falling down, usually despite uneven terrain or occasional pushes. Even witho...
abstract: Humans moving in the environment must frequently change walking speed and direction to neg...
Despite advancement in the field of robotics, current legged robots still cannot achieve the kind of...
Every movement has a goal. For reaching, the goal is to move the hand to a specific location. For lo...
Synopsis Locomotion in a complex environment is often not steady, but the mechanisms used by animals...
The idea that the CNS may control complex interactions by modular decomposition has received conside...
Maneuverability is among the most important aspects of mobility, and perhaps the most challenging. S...
Bipedal running gaits may be self-stable if they rely on the intrinsic system dynamics to attenuate ...
This article was supported by the German Research Foundation (DFG) and the Open Access Publication F...
Graduation date: 2010Sprawled-posture insects exhibit a remarkable ability to rapidly run in a stabl...
The purpose of this thesis is to make advances in the design of humanoid bipedal running robots. We ...
Humans can robustly locomote over complex terrains even while simultaneously attending to other task...
The purpose of this thesis is to make advances in the design of humanoid bipedal running robots. We ...
In human running, the ankle, knee, and hip moments are known to play different roles to influence th...
A primary goal of comparative biomechanics is to understand the fundamental physics of locomotion wi...
Humans can run without falling down, usually despite uneven terrain or occasional pushes. Even witho...
abstract: Humans moving in the environment must frequently change walking speed and direction to neg...
Despite advancement in the field of robotics, current legged robots still cannot achieve the kind of...
Every movement has a goal. For reaching, the goal is to move the hand to a specific location. For lo...
Synopsis Locomotion in a complex environment is often not steady, but the mechanisms used by animals...
The idea that the CNS may control complex interactions by modular decomposition has received conside...
Maneuverability is among the most important aspects of mobility, and perhaps the most challenging. S...
Bipedal running gaits may be self-stable if they rely on the intrinsic system dynamics to attenuate ...
This article was supported by the German Research Foundation (DFG) and the Open Access Publication F...
Graduation date: 2010Sprawled-posture insects exhibit a remarkable ability to rapidly run in a stabl...
The purpose of this thesis is to make advances in the design of humanoid bipedal running robots. We ...
Humans can robustly locomote over complex terrains even while simultaneously attending to other task...
The purpose of this thesis is to make advances in the design of humanoid bipedal running robots. We ...
In human running, the ankle, knee, and hip moments are known to play different roles to influence th...
A primary goal of comparative biomechanics is to understand the fundamental physics of locomotion wi...