Add to ORKGBipedal robots are a prime example of systems which exhibit highly nonlinear dynamics, underactuation, and undergo complex dissipative impacts. This paper discusses methods used to overcome a wide variety of uncertainties, with the end result being stable bipedal walking. The principal contribution of this paper is to establish sufficiency conditions for yielding input to state stable (ISS) hybrid periodic orbits, i.e., stable walking gaits under model-based and phase-based uncertainties. In particular, it will be shown formally that exponential input to state stabilization (e-ISS) of the continuous dynamics, and hybrid invariance conditions are enough to realize stable walking in the 23-DOF bipedal robot DURUS. This main result will be sup...
This paper presents a disturbance rejection control strategy for hybrid dynamic systems exposed to m...
This paper introduces an adaptive robust trajectory tracking controller design to provably realize s...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...
Bipedal robots are a prime example of systems which exhibit highly nonlinear dynamics, underactuatio...
This paper analyzes the input to state stability properties of controllers which stabilize hybrid pe...
As robots become more sophisticated and move out of the laboratory, they need to be able to reliably...
Bipedal robotic running remains a challenging benchmark in the field of control and robotics because...
Possibly one of the most significant innovations of the past decade is the hybrid zero dynamics (HZD...
Dynamic walking on bipedal robots has evolved from an idea in science fiction to a practical reality...
<p>Legged locomotion has several interesting challenges that need to be addressed, such as the abili...
Models of bipedal walking are hybrid with continuous-time phases representing the Lagrangian stance ...
Although bipedal walking control has been extensively studied for the past forty years, it remains a...
This paper presents a robust compound control strategy to produce a stable gait in dynamic bipedal r...
Robotic bipedal locomotion has become a rapidly growing field of research as humans increasingly loo...
We establish stability results for PD tracking control laws in bipedal walking robots. Stability of ...
This paper presents a disturbance rejection control strategy for hybrid dynamic systems exposed to m...
This paper introduces an adaptive robust trajectory tracking controller design to provably realize s...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...
Bipedal robots are a prime example of systems which exhibit highly nonlinear dynamics, underactuatio...
This paper analyzes the input to state stability properties of controllers which stabilize hybrid pe...
As robots become more sophisticated and move out of the laboratory, they need to be able to reliably...
Bipedal robotic running remains a challenging benchmark in the field of control and robotics because...
Possibly one of the most significant innovations of the past decade is the hybrid zero dynamics (HZD...
Dynamic walking on bipedal robots has evolved from an idea in science fiction to a practical reality...
<p>Legged locomotion has several interesting challenges that need to be addressed, such as the abili...
Models of bipedal walking are hybrid with continuous-time phases representing the Lagrangian stance ...
Although bipedal walking control has been extensively studied for the past forty years, it remains a...
This paper presents a robust compound control strategy to produce a stable gait in dynamic bipedal r...
Robotic bipedal locomotion has become a rapidly growing field of research as humans increasingly loo...
We establish stability results for PD tracking control laws in bipedal walking robots. Stability of ...
This paper presents a disturbance rejection control strategy for hybrid dynamic systems exposed to m...
This paper introduces an adaptive robust trajectory tracking controller design to provably realize s...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...