Add to ORKGAbstract — A hybrid controller that induces stable running gaits on a monopedal robot is developed. The robot features a rigid leg with a revolute knee and a heavy torso with center of mass located far from the hip. The torso houses a novel powertrain that provides series compliance in the compression direction of the leg. The proposed control law is developed within the hybrid zero dynamics framework and it acts on two levels. On the first level, continuous within-stride control asymptotically imposes (virtual) holonomic constraints reducing the dynamics of the robot to a lower-dimensional hybrid subsystem. On the second level, event-based control stabilizes the resulting hybrid subsystem. The controller achieves the dual objectives of wor...
We present the design and initial results of a power-autonomous planar monopedal robot. The robot is...
This paper presents the expansion and implementation of the controlled passive dynamic running (CPDR...
This paper investigates an optimal control strategy for the dynamic locomotion of a simplified plana...
As an alternative to traditional wheeled and tracked ground vehicles, biologically-inspired legged s...
This work focuses on the locomotion of one-legged robots, with focus on approaches that stabilize pa...
Abstract—A mathematical formalism for designing run-ning gaits in bipedal robots with compliance is ...
Leg dynamics and control have been widely studied using mass-spring systems such as the Spring Loade...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...
This paper presents a novel method of stabilizing hybrid models of torque-constrained, underactuated...
We present a control strategy for a simplified model of a one-legged running robot which features co...
In many ways, the simple act of walking is one of the most complex modes of locomotion there is. For...
This paper presents a dynamic locomotion generation for a one-legged floating-base robot. Reference ...
Legged robots have complex architecture because of their nonlinear dynamics and unpredictable ground...
Dynamic maneuvers have been successfully implemented on many prismatic legged robots. Systems with a...
This paper presents two strategies for designing underactuated, planar robotic walking gaits and for...
We present the design and initial results of a power-autonomous planar monopedal robot. The robot is...
This paper presents the expansion and implementation of the controlled passive dynamic running (CPDR...
This paper investigates an optimal control strategy for the dynamic locomotion of a simplified plana...
As an alternative to traditional wheeled and tracked ground vehicles, biologically-inspired legged s...
This work focuses on the locomotion of one-legged robots, with focus on approaches that stabilize pa...
Abstract—A mathematical formalism for designing run-ning gaits in bipedal robots with compliance is ...
Leg dynamics and control have been widely studied using mass-spring systems such as the Spring Loade...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...
This paper presents a novel method of stabilizing hybrid models of torque-constrained, underactuated...
We present a control strategy for a simplified model of a one-legged running robot which features co...
In many ways, the simple act of walking is one of the most complex modes of locomotion there is. For...
This paper presents a dynamic locomotion generation for a one-legged floating-base robot. Reference ...
Legged robots have complex architecture because of their nonlinear dynamics and unpredictable ground...
Dynamic maneuvers have been successfully implemented on many prismatic legged robots. Systems with a...
This paper presents two strategies for designing underactuated, planar robotic walking gaits and for...
We present the design and initial results of a power-autonomous planar monopedal robot. The robot is...
This paper presents the expansion and implementation of the controlled passive dynamic running (CPDR...
This paper investigates an optimal control strategy for the dynamic locomotion of a simplified plana...