Add to ORKGImplementing state-based parameterized periodic trajectories on complex robotic systems, e.g., humanoid robots, can lead to instability due to sensor noise exacerbated by dynamic movements. As a means of understanding this phenomenon, and motivated by field testing on the humanoid robot DURUS, this paper presents sufficient conditions for the boundedness of hybrid periodic orbits (i.e., boundedness of walking gaits) for time dependent control Lyapunov functions. In particular, this paper considers virtual constraints that yield hybrid zero dynamics with desired outputs that are a function of time or a state-based phase variable. If the difference between the phase variable and time is bounded, we establish exponential boundedness to the zer...
This paper demonstrates the process of utilizing human lo-comotion data to formally design controlle...
Robotic bipedal locomotion has become a rapidly growing field of research as humans increasingly loo...
This paper presents a systematic approach to design observer-based output feedback controllers for h...
Implementing state-based parameterized periodic trajectories on complex robotic systems, e.g., human...
© 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
<p>This paper addresses the problem of exponentially stabilizing periodic orbits in a special class ...
This paper analyzes the input to state stability properties of controllers which stabilize hybrid pe...
Hybrid zero dynamics extends the Byrnes-Isidori notion of zero dynamics to a class of hybrid models ...
We establish stability results for PD tracking control laws in bipedal walking robots. Stability of ...
Abstract — For general hybrid systems, we develop new sta-bilization results that can be used to ach...
Although bipedal walking control has been extensively studied for the past forty years, it remains a...
© 2015, IFAC (International Federation of Automatic Control) Hosting by Elsevier Ltd. All rights res...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...
Planar, underactuated, biped walkers form an important domain of applications for hybrid dynamical s...
The zero dynamics of a hybrid model of bipedal walking are introduced and studied for a class of N-l...
This paper demonstrates the process of utilizing human lo-comotion data to formally design controlle...
Robotic bipedal locomotion has become a rapidly growing field of research as humans increasingly loo...
This paper presents a systematic approach to design observer-based output feedback controllers for h...
Implementing state-based parameterized periodic trajectories on complex robotic systems, e.g., human...
© 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
<p>This paper addresses the problem of exponentially stabilizing periodic orbits in a special class ...
This paper analyzes the input to state stability properties of controllers which stabilize hybrid pe...
Hybrid zero dynamics extends the Byrnes-Isidori notion of zero dynamics to a class of hybrid models ...
We establish stability results for PD tracking control laws in bipedal walking robots. Stability of ...
Abstract — For general hybrid systems, we develop new sta-bilization results that can be used to ach...
Although bipedal walking control has been extensively studied for the past forty years, it remains a...
© 2015, IFAC (International Federation of Automatic Control) Hosting by Elsevier Ltd. All rights res...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...
Planar, underactuated, biped walkers form an important domain of applications for hybrid dynamical s...
The zero dynamics of a hybrid model of bipedal walking are introduced and studied for a class of N-l...
This paper demonstrates the process of utilizing human lo-comotion data to formally design controlle...
Robotic bipedal locomotion has become a rapidly growing field of research as humans increasingly loo...
This paper presents a systematic approach to design observer-based output feedback controllers for h...