A compass-like biped robot can go down a gentle slope without the need of actuation through a proper choice of its dynamic parameter and starting from a suitable initial condition. Addition of control actions is requested to generate additional gaits and robustify the existing one. This paper designs an interconnection and damping assignment passivity- based control, rooted within the port-Hamiltonian framework, to generate further gaits with respect to state-of-the-art methodologies, enlarge the basin of attraction of existing gaits, and further robustify the system against controller discretization and parametric uncertainties. The performance of the proposed algorithm is validated through numerical simulations and comparison with existin...
We propose a constructive control design for stabilization of non-periodic trajectories of underactu...
Bipedal walking control has been studied for decades. Because of the variant degrees of freedom of t...
The compass gait model has been intensively studied for a systematic investigation of complex biped ...
A compass-like biped robot can go down a gentle slope without the need of actuation through a proper...
This work addresses the problem of gait generation in underactuated compass-like biped robots using ...
International audienceA novel procedure for designing an interconnection and damping assignment pass...
This paper addresses the robust gait control for planar and passive biped robots using approaches ba...
The sought goal of this thesis is to show that total energy shaping is an effective and versatile to...
This paper presents a passivity-based control strategy dealing with underactuated two-degree-of-free...
Passive Dynamic Walking overcomes elegantly several drawbacks of the high gain position control appr...
Toward our comprehensive understanding of legged locomotion in animals and machines, the compass gai...
The versatility of two-legged walking can make bipedal robots ideal for operations in rough terrain ...
AbstractA control method to make the chaotic gait converge to a stable cycle gait is proposed for th...
This paper presents an approach for passivity-based bipedal robots to achieve stable walking on unev...
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...
Bipedal walking control has been studied for decades. Because of the variant degrees of freedom of t...
The compass gait model has been intensively studied for a systematic investigation of complex biped ...
A compass-like biped robot can go down a gentle slope without the need of actuation through a proper...
This work addresses the problem of gait generation in underactuated compass-like biped robots using ...
International audienceA novel procedure for designing an interconnection and damping assignment pass...
This paper addresses the robust gait control for planar and passive biped robots using approaches ba...
The sought goal of this thesis is to show that total energy shaping is an effective and versatile to...
This paper presents a passivity-based control strategy dealing with underactuated two-degree-of-free...
Passive Dynamic Walking overcomes elegantly several drawbacks of the high gain position control appr...
Toward our comprehensive understanding of legged locomotion in animals and machines, the compass gai...
The versatility of two-legged walking can make bipedal robots ideal for operations in rough terrain ...
AbstractA control method to make the chaotic gait converge to a stable cycle gait is proposed for th...
This paper presents an approach for passivity-based bipedal robots to achieve stable walking on unev...
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...
Bipedal walking control has been studied for decades. Because of the variant degrees of freedom of t...
The compass gait model has been intensively studied for a systematic investigation of complex biped ...