In this paper we develop a feedback control law that results in stable walking gaits on flat ground for a three-dimensional bipedal robotic walker given stable walking gaits for a two-dimensional bipedal robotic walker. This is achieved by combining disparate techniques that have been employed in the bipedal robotic community: controlled symmetries, geometric reduction and hybrid zero dynamics. Controlled symmetries are utilized to obtain stable walking gaits for a two-dimensional bipedal robot walking on flat ground. These are related to walking gaits for a three-dimensional (hipless) bipedal robot through the use of geometric reduction. Finally, these walking gaits in three dimensions are made stable through the use of hybrid zero dynamic...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...
The versatility of two-legged walking can make bipedal robots ideal for operations in rough terrain ...
This paper proposes a 3-D biped dynamic walking algorithm based on passive dynamic autonomous contro...
This paper presents a control law that results in stable walking for a three-dimensional bipedal rob...
Abstract: The purpose of this paper is to apply methods from geometric mechanics to the analysis and...
The purpose of this paper is to apply methods from geometric mechanics to the analysis and control o...
This thesis presents a hierarchical geometric control approach for fast and energetically efficient ...
Abstract. A 3D biped with knees and a hip is naturally modeled as a nontrivial hybrid system; impact...
International audienceThis paper exploits a natural symmetry present in a 3D robot in order to achie...
International audienceThis paper presents a stable walking control method for a 3D bipedal robot wit...
Motivated by the goal of obtaining more-anthropomorphic walking in bipedal robots, this paper consid...
Abstract—Motivated by the goal of obtaining more-anthropomorphic walking in bipedal robots, this pap...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer ...
Three-dimensional humanlike bipedal walking is obtained through a hybrid control strategy which comb...
International audienceThis paper presents three feedback controllers that achieve an asymptotically ...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...
The versatility of two-legged walking can make bipedal robots ideal for operations in rough terrain ...
This paper proposes a 3-D biped dynamic walking algorithm based on passive dynamic autonomous contro...
This paper presents a control law that results in stable walking for a three-dimensional bipedal rob...
Abstract: The purpose of this paper is to apply methods from geometric mechanics to the analysis and...
The purpose of this paper is to apply methods from geometric mechanics to the analysis and control o...
This thesis presents a hierarchical geometric control approach for fast and energetically efficient ...
Abstract. A 3D biped with knees and a hip is naturally modeled as a nontrivial hybrid system; impact...
International audienceThis paper exploits a natural symmetry present in a 3D robot in order to achie...
International audienceThis paper presents a stable walking control method for a 3D bipedal robot wit...
Motivated by the goal of obtaining more-anthropomorphic walking in bipedal robots, this paper consid...
Abstract—Motivated by the goal of obtaining more-anthropomorphic walking in bipedal robots, this pap...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer ...
Three-dimensional humanlike bipedal walking is obtained through a hybrid control strategy which comb...
International audienceThis paper presents three feedback controllers that achieve an asymptotically ...
Planar, underactuated, biped walkers form an important domain of application for hybrid dynamical sy...
The versatility of two-legged walking can make bipedal robots ideal for operations in rough terrain ...
This paper proposes a 3-D biped dynamic walking algorithm based on passive dynamic autonomous contro...