Add to ORKGWe propose a constructive control design for stabilization of non-periodic trajectories of underactuated mechanical systems. An important example of such a system is an underactuated "dynamic walking" biped robot walking over rough terrain. The proposed technique is to compute a transverse linearization about the desired motion: a linear impulsive system which locally represents dynamics about a target trajectory. This system is then exponentially stabilized using a modified receding-horizon control design. The proposed method is experimentally verified using a compass-gait walker: a two-degree-of-freedom biped with hip actuation but pointed stilt-like feet. The technique is, however, very general and can be applied to higher degree-of-free...
Abstract—In this paper, we propose a control system that changes the compliance based on the walking...
Nature and its variety of motion forms have inspired new robot designs with inherentunderactuated dy...
The versatility of two-legged walking can make bipedal robots ideal for operations in rough terrain ...
We propose a constructive control design for stabilization of non-periodic trajectories of underactu...
We propose a constructive control design for stabilization of non-periodic trajectories of underactu...
We propose a constructive control design for stabilization of non-periodic trajectories of underactu...
In this paper, a feedforward control strategy is proposed to enable stable underactuated bipedal wal...
In this paper, a feedforward control strategy is proposed to enable stable underactuated bipedal wal...
The compass gait model has been intensively studied for a systematic investigation of complex biped ...
Dynamic walking gaits are theoretically reflected by theperiodic solutions exhibited by nonlinear im...
Dynamic walking gaits are theoretically reflected by theperiodic solutions exhibited by nonlinear im...
Toward our comprehensive understanding of legged locomotion in animals and machines, the compass gai...
Although there has been an increasing interest in dynamic bipedal locomotion for significant improve...
Abstract — In this paper, we explore the capabilities of actu-ated models of the compass gait walker...
Abstract—In this paper, we explore the capabilities of actu-ated models of the compass gait walker o...
Abstract—In this paper, we propose a control system that changes the compliance based on the walking...
Nature and its variety of motion forms have inspired new robot designs with inherentunderactuated dy...
The versatility of two-legged walking can make bipedal robots ideal for operations in rough terrain ...
We propose a constructive control design for stabilization of non-periodic trajectories of underactu...
We propose a constructive control design for stabilization of non-periodic trajectories of underactu...
We propose a constructive control design for stabilization of non-periodic trajectories of underactu...
In this paper, a feedforward control strategy is proposed to enable stable underactuated bipedal wal...
In this paper, a feedforward control strategy is proposed to enable stable underactuated bipedal wal...
The compass gait model has been intensively studied for a systematic investigation of complex biped ...
Dynamic walking gaits are theoretically reflected by theperiodic solutions exhibited by nonlinear im...
Dynamic walking gaits are theoretically reflected by theperiodic solutions exhibited by nonlinear im...
Toward our comprehensive understanding of legged locomotion in animals and machines, the compass gai...
Although there has been an increasing interest in dynamic bipedal locomotion for significant improve...
Abstract — In this paper, we explore the capabilities of actu-ated models of the compass gait walker...
Abstract—In this paper, we explore the capabilities of actu-ated models of the compass gait walker o...
Abstract—In this paper, we propose a control system that changes the compliance based on the walking...
Nature and its variety of motion forms have inspired new robot designs with inherentunderactuated dy...
The versatility of two-legged walking can make bipedal robots ideal for operations in rough terrain ...