Add to ORKGBipedal running gaits may be self-stable if they rely on the intrinsic system dynamics to attenuate deviations. This use of passive dynamics for gait stability has been observed in biological running and applied for running robotics, supported with the results of numerical simulations. It is an important aspect of the development of fast and agile legged robotic locomotion over complex terrain. One part of running stability, trunk stabilization, can be described using a virtual pendulum model. We believe such a metacentric model may be applied in robotic design to achieve passive stabilization of body pitch for fast bipedal running.In this study, we test metacentric models for self-stabilization of body pitch in bipedal running and evaluate...
Legged robots can sustain stable dynamic locomotion without sensors or feedback. It is possible to c...
The Sprawl family of robots have demonstrated that fast and robust locomotion is possible over uneve...
The purpose of this thesis is to make advances in the design of humanoid bipedal running robots. We ...
Dynamic stability allows running animals to maintain preferred speed during locomotion over rough te...
In this paper, we analyze the self-stability properties of planar running with a dissipative spring-...
Despite advancement in the field of robotics, current legged robots still cannot achieve the kind of...
In this thesis, the dynamics of quadrupedal running via the bounding gait is studied. To analyse the...
The spring-loaded inverted pendulum (SLIP), or monopedal hopper, is an archetypal model for running ...
Abstract. The spring-loaded inverted pendulum (SLIP), or monopedal hopper, is an archetypal model fo...
In this thesis, the dynamics of quadrupedal running via the bounding gait is studied. To analyse the...
The goal of the research presented in this thesis is to increase the understanding of the human runn...
The goal of the research presented in this thesis is to increase the understanding of the human runn...
Poulakakis, IoannisA series of quadrupedal robots with different morphologies has been developed in ...
We present a control strategy for a simplified model of a one-legged running robot which features co...
The spring-loaded inverted pendulum (SLIP), or monopedal hopper, is an archetypal model for running ...
Legged robots can sustain stable dynamic locomotion without sensors or feedback. It is possible to c...
The Sprawl family of robots have demonstrated that fast and robust locomotion is possible over uneve...
The purpose of this thesis is to make advances in the design of humanoid bipedal running robots. We ...
Dynamic stability allows running animals to maintain preferred speed during locomotion over rough te...
In this paper, we analyze the self-stability properties of planar running with a dissipative spring-...
Despite advancement in the field of robotics, current legged robots still cannot achieve the kind of...
In this thesis, the dynamics of quadrupedal running via the bounding gait is studied. To analyse the...
The spring-loaded inverted pendulum (SLIP), or monopedal hopper, is an archetypal model for running ...
Abstract. The spring-loaded inverted pendulum (SLIP), or monopedal hopper, is an archetypal model fo...
In this thesis, the dynamics of quadrupedal running via the bounding gait is studied. To analyse the...
The goal of the research presented in this thesis is to increase the understanding of the human runn...
The goal of the research presented in this thesis is to increase the understanding of the human runn...
Poulakakis, IoannisA series of quadrupedal robots with different morphologies has been developed in ...
We present a control strategy for a simplified model of a one-legged running robot which features co...
The spring-loaded inverted pendulum (SLIP), or monopedal hopper, is an archetypal model for running ...
Legged robots can sustain stable dynamic locomotion without sensors or feedback. It is possible to c...
The Sprawl family of robots have demonstrated that fast and robust locomotion is possible over uneve...
The purpose of this thesis is to make advances in the design of humanoid bipedal running robots. We ...