Robotic bipedal locomotion has become a rapidly growing field of research as humans increasingly look to augment their natural environments with intelligent machines. In order for these robotic systems to navigate the often unstructured environments of the world and perform tasks, they must first have the capability to dynamically, reliably, and efficiently locomote. Due to the inherently hybrid and underactuated nature of dynamic bipedal walking, the greatest experimental successes in the field have often been achieved by considering all aspects of the problem; with explicit consideration of the interplay between modeling, trajectory planning, and feedback control. The methodology and developments presented in this thesis begin with th...
Models of bipedal walking are hybrid with continuous-time phases representing the Lagrangian stance ...
This thesis presents a control design approach, which uses human data in the development of bipedal ...
This paper presents an optimal gait synthesis method that exploits the full body dynamics of robots ...
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...
This thesis proposes a method for generating multi-contact, humanlike locomotion via a human-inspire...
Realizing the essentials of bipedal walking balance is one of the core studies in both robotics and ...
The hybrid zero dynamics (HZD) approach has become a powerful tool for the gait planning and control...
This thesis presents an approach to the formal design, optimization and implementation of bipedal ro...
Hybrid zero dynamics (HZD) has emerged as a popular framework for dynamic and underactuated bipedal ...
In the field of robotic locomotion, the method of hybrid zero dynamics (HZD) proposed by Westervelt,...
Abstract — Hybrid zero dynamics (HZD) has emerged as a popular framework for dynamic and underactuat...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...
Although bipedal walking control has been extensively studied for the past forty years, it remains a...
This dissertation contributes to the theoretical foundations of robotic bipedal locomotion and advan...
Models of bipedal walking are hybrid with continuous-time phases representing the Lagrangian stance ...
This thesis presents a control design approach, which uses human data in the development of bipedal ...
This paper presents an optimal gait synthesis method that exploits the full body dynamics of robots ...
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...
This thesis proposes a method for generating multi-contact, humanlike locomotion via a human-inspire...
Realizing the essentials of bipedal walking balance is one of the core studies in both robotics and ...
The hybrid zero dynamics (HZD) approach has become a powerful tool for the gait planning and control...
This thesis presents an approach to the formal design, optimization and implementation of bipedal ro...
Hybrid zero dynamics (HZD) has emerged as a popular framework for dynamic and underactuated bipedal ...
In the field of robotic locomotion, the method of hybrid zero dynamics (HZD) proposed by Westervelt,...
Abstract — Hybrid zero dynamics (HZD) has emerged as a popular framework for dynamic and underactuat...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...
Although bipedal walking control has been extensively studied for the past forty years, it remains a...
This dissertation contributes to the theoretical foundations of robotic bipedal locomotion and advan...
Models of bipedal walking are hybrid with continuous-time phases representing the Lagrangian stance ...
This thesis presents a control design approach, which uses human data in the development of bipedal ...
This paper presents an optimal gait synthesis method that exploits the full body dynamics of robots ...