Add to ORKGAbstract — This paper employs the Human-Inspired Control framework in the formal design, optimization and implemen-tation of controllers for 3D bipedal robotic walking. In this framework, controllers drive the robot to a low-dimensional representation, termed the partial hybrid zero dynamics, which is shaped by the parameters of the outputs describing human locomotion data. The main result of this paper is the use of partial hybrid zero dynamics in an optimization problem to compute physical constraints on the robot, without inte-grating the dynamics of the system, and while simultaneously yielding provably stable walking controllers for a 3D robot model. Controllers corresponding to various walking speeds are obtained through a second spee...
Hybrid zero dynamics (HZD) has emerged as a popular framework for dynamic and underactuated bipedal ...
This paper presents a novel method of stabilizing hybrid models of torque-constrained, underactuated...
Abstract—This paper presents a method for achieving pla-nar multi-phase, multi-contact robotic walki...
This paper employs the Human-Inspired Control framework in the formal design, optimization and imple...
This paper demonstrates the process of utilizing human lo-comotion data to formally design controlle...
Abstract—This paper presents a human-inspired control approach to bipedal robotic walking: utilizing...
Three-dimensional humanlike bipedal walking is obtained through a hybrid control strategy which comb...
This thesis presents an approach to the formal design, optimization and implementation of bipedal ro...
Abstract — This paper presents a method for achieving stable “human-like ” running in simulation by ...
Abstract: A human-inspired method for achieving bipedal robotic walking is proposed in which a hybri...
Abstract — This paper presents the first steps toward going from human data to formal controller des...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...
The objective of this Master's thesis is to design a controller for a twelve-dimensional bipedal wal...
Abstract — Hybrid zero dynamics (HZD) has emerged as a popular framework for dynamic and underactuat...
Despite all the effort devoted to generating locomotion algorithms for bipedal walkers, robots are s...
Hybrid zero dynamics (HZD) has emerged as a popular framework for dynamic and underactuated bipedal ...
This paper presents a novel method of stabilizing hybrid models of torque-constrained, underactuated...
Abstract—This paper presents a method for achieving pla-nar multi-phase, multi-contact robotic walki...
This paper employs the Human-Inspired Control framework in the formal design, optimization and imple...
This paper demonstrates the process of utilizing human lo-comotion data to formally design controlle...
Abstract—This paper presents a human-inspired control approach to bipedal robotic walking: utilizing...
Three-dimensional humanlike bipedal walking is obtained through a hybrid control strategy which comb...
This thesis presents an approach to the formal design, optimization and implementation of bipedal ro...
Abstract — This paper presents a method for achieving stable “human-like ” running in simulation by ...
Abstract: A human-inspired method for achieving bipedal robotic walking is proposed in which a hybri...
Abstract — This paper presents the first steps toward going from human data to formal controller des...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...
The objective of this Master's thesis is to design a controller for a twelve-dimensional bipedal wal...
Abstract — Hybrid zero dynamics (HZD) has emerged as a popular framework for dynamic and underactuat...
Despite all the effort devoted to generating locomotion algorithms for bipedal walkers, robots are s...
Hybrid zero dynamics (HZD) has emerged as a popular framework for dynamic and underactuated bipedal ...
This paper presents a novel method of stabilizing hybrid models of torque-constrained, underactuated...
Abstract—This paper presents a method for achieving pla-nar multi-phase, multi-contact robotic walki...