Three-dimensional humanlike bipedal walking is obtained through a hybrid control strategy which combines geometric reduction with human-inspired control. Functional Routhian reduction decouples the sagittal and coronal dynamics of a biped, thereby reducing the control design problem to sagittal motion. Experimental human kinematics data have shown that certain outputs on a human's kinematics follow a canonical human function : Human-inspired controllers are designed based on this function. The parameters of these functions are found through optimization by trying to make them as close to the human data as possible while simultaneously forming a partial hybrid zero dynamics under feedback linearization. PD control is used in these controller...
This paper briefly presents the process of formally achieving bipedal robotic walking through contro...
Motivated by the goal of obtaining more-anthropomorphic walking in bipedal robots, this paper consid...
This paper presents a method to determine outputs associated with human walking data that can be use...
Bridging contemporary techniques in bio-inspired control affords a unique perspective into human lo-...
Abstract: A human-inspired method for achieving bipedal robotic walking is proposed in which a hybri...
Abstract—This paper presents a human-inspired control approach to bipedal robotic walking: utilizing...
Abstract. A 3D biped with knees and a hip is naturally modeled as a nontrivial hybrid system; impact...
Abstract—Motivated by the goal of obtaining more-anthropomorphic walking in bipedal robots, this pap...
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...
Abstract — This paper employs the Human-Inspired Control framework in the formal design, optimizatio...
This thesis presents a hierarchical geometric control approach for fast and energetically efficient ...
To better understand human walking, three bipedal robotic models-starting with the compass gait bipe...
This paper employs the Human-Inspired Control framework in the formal design, optimization and imple...
Abstract — This paper presents an approach to the devel-opment of bipedal robotic control techniques...
This paper briefly presents the process of formally achieving bipedal robotic walking through contro...
Motivated by the goal of obtaining more-anthropomorphic walking in bipedal robots, this paper consid...
This paper presents a method to determine outputs associated with human walking data that can be use...
Bridging contemporary techniques in bio-inspired control affords a unique perspective into human lo-...
Abstract: A human-inspired method for achieving bipedal robotic walking is proposed in which a hybri...
Abstract—This paper presents a human-inspired control approach to bipedal robotic walking: utilizing...
Abstract. A 3D biped with knees and a hip is naturally modeled as a nontrivial hybrid system; impact...
Abstract—Motivated by the goal of obtaining more-anthropomorphic walking in bipedal robots, this pap...
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...
Abstract — This paper employs the Human-Inspired Control framework in the formal design, optimizatio...
This thesis presents a hierarchical geometric control approach for fast and energetically efficient ...
To better understand human walking, three bipedal robotic models-starting with the compass gait bipe...
This paper employs the Human-Inspired Control framework in the formal design, optimization and imple...
Abstract — This paper presents an approach to the devel-opment of bipedal robotic control techniques...
This paper briefly presents the process of formally achieving bipedal robotic walking through contro...
Motivated by the goal of obtaining more-anthropomorphic walking in bipedal robots, this paper consid...
This paper presents a method to determine outputs associated with human walking data that can be use...