This paper presents a novel method of stabilizing hybrid models of torque-constrained, underactuated walking robots - without using nonlinear gait optimization - by leveraging properties of the mechanics of the robot. At its core, the controller stabilizes the transfer of angular momentum from one leg to the next through continuous-time control coupled with hybrid system models that capture impacts that occur at foot strike. In particular, conservation of angular momentum at impact allows for computation of the exact transfer of momentum as a function of the robot's step length and vertical center of mass velocity just prior to foot impact. This motivates the construction of continuous-time reference trajectories for the robot's step length...
www.ai.mit.edu/projects/leglab Natural dynamics can be exploited in the control of bipedal walking r...
Abstract—In this paper, we formulate a novel hierarchical controller for walking of torque controlle...
In many ways, the simple act of walking is one of the most complex modes of locomotion there is. For...
This paper presents a novel method of stabilizing hybrid models of torque-constrained, underactuated...
This paper presents two strategies for designing underactuated, planar robotic walking gaits and for...
Abstract — This paper presents a method for achieving stable periodic walking, consisting of phases ...
This paper addresses the problem of controlling underactuated bipedal walking robots in the presence...
This paper presents a method for achieving stable periodic walking, consisting of phases of single a...
We present a new walking foot-placement controller based on 3LP, a 3D model of bipedal walking that ...
This paper presents experimentally realized bipedal robotic walking using ideal torque controllers v...
This paper presents a methodology for achieving efficient multi-domain underactuated bipedal walking...
We propose a constructive control design for stabilization of non-periodic trajectories of underactu...
This dissertation proposes advanced feedback controllers that allow bipedal robots to perform anthro...
The versatility of two-legged walking can make bipedal robots ideal for operations in rough terrain ...
International audienceThis paper presents a stable walking control method for a 3D bipedal robot wit...
www.ai.mit.edu/projects/leglab Natural dynamics can be exploited in the control of bipedal walking r...
Abstract—In this paper, we formulate a novel hierarchical controller for walking of torque controlle...
In many ways, the simple act of walking is one of the most complex modes of locomotion there is. For...
This paper presents a novel method of stabilizing hybrid models of torque-constrained, underactuated...
This paper presents two strategies for designing underactuated, planar robotic walking gaits and for...
Abstract — This paper presents a method for achieving stable periodic walking, consisting of phases ...
This paper addresses the problem of controlling underactuated bipedal walking robots in the presence...
This paper presents a method for achieving stable periodic walking, consisting of phases of single a...
We present a new walking foot-placement controller based on 3LP, a 3D model of bipedal walking that ...
This paper presents experimentally realized bipedal robotic walking using ideal torque controllers v...
This paper presents a methodology for achieving efficient multi-domain underactuated bipedal walking...
We propose a constructive control design for stabilization of non-periodic trajectories of underactu...
This dissertation proposes advanced feedback controllers that allow bipedal robots to perform anthro...
The versatility of two-legged walking can make bipedal robots ideal for operations in rough terrain ...
International audienceThis paper presents a stable walking control method for a 3D bipedal robot wit...
www.ai.mit.edu/projects/leglab Natural dynamics can be exploited in the control of bipedal walking r...
Abstract—In this paper, we formulate a novel hierarchical controller for walking of torque controlle...
In many ways, the simple act of walking is one of the most complex modes of locomotion there is. For...