Add to ORKGThis paper presents a general framework for representing and generating gaitsfor legged robots. We introduce a convenient parametrization of gait generators as dynamical systems possessing specified stable limit cycles over an appropriate torus. Inspired by biology, this parametrization affords a continuous selection of operation within a coordination design plane spanned by axes that determine the mix of ”feedforward/feedback” and centralized/decentralized” control. Applying optimization to the parameterized gait generation system allowed RHex, our robotic hexapod, to learn new gaits demonstrating significant performance increases. For example, RHex can now run at 2.4m/s (up from 0.8m/s), run with a specific resistance of 0.6 (down from 2....
The objective of this paper is to develop feasible gait patterns that could be used to control a rea...
Abstract This paper describes our studies in the legged robots research area and the development of...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
This paper introduces a framework for representing, generating, and then tuning gaits of legged robo...
Gait parameter adaptation on a physical robot is an error-prone, tedious and time-consuming process....
Developing control methods that allow legged robots to move with skill and agility remains one of th...
We discuss the gait generation and control architecture of a bioinspired climbing robot that present...
Achieving an effective gait locus for legged robots is a challenging task. It is often done manually...
Different strategies have been adopted for the optimization of legged robots, either during their de...
The task of reproducing artificial legged locomotion presents lots of challenges, most of them relat...
We develop robust methods that allow specification, control, and transition of a multi-legged robot’s...
Different strategies have been adopted for the optimization of legged robots, either during their de...
This paper describes the staged evolution of a complex motor pattern generator (CPG) for the control...
Abstract. This paper describes our studies in the legged robots re-search area and the development o...
We report on our progress in extending the behavioral repertoire of RHex, a compliant leg hexapod ro...
The objective of this paper is to develop feasible gait patterns that could be used to control a rea...
Abstract This paper describes our studies in the legged robots research area and the development of...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
This paper introduces a framework for representing, generating, and then tuning gaits of legged robo...
Gait parameter adaptation on a physical robot is an error-prone, tedious and time-consuming process....
Developing control methods that allow legged robots to move with skill and agility remains one of th...
We discuss the gait generation and control architecture of a bioinspired climbing robot that present...
Achieving an effective gait locus for legged robots is a challenging task. It is often done manually...
Different strategies have been adopted for the optimization of legged robots, either during their de...
The task of reproducing artificial legged locomotion presents lots of challenges, most of them relat...
We develop robust methods that allow specification, control, and transition of a multi-legged robot’s...
Different strategies have been adopted for the optimization of legged robots, either during their de...
This paper describes the staged evolution of a complex motor pattern generator (CPG) for the control...
Abstract. This paper describes our studies in the legged robots re-search area and the development o...
We report on our progress in extending the behavioral repertoire of RHex, a compliant leg hexapod ro...
The objective of this paper is to develop feasible gait patterns that could be used to control a rea...
Abstract This paper describes our studies in the legged robots research area and the development of...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...