Gait parameter adaptation on a physical robot is an error-prone, tedious and time-consuming process. In this paper we present a system for gait adaptation in our RHex series of hexapedal robots that renders this arduous process nearly autonomous. The robot adapts its gait parameters by recourse to a modified version of Nelder-Mead descent while managing its self-experiments and measuring the outcome by visual servoing within a partially engineered environment. The resulting performance gains extend considerably beyond what we have managed with hand tuning. For example, the hest hand tuned alternating tripod gaits never exceeded 0.8 m/s nor achieved specific resistance helow 2.0. In contrast, Nelder-Mead based tuning has yielded alternating ...
Animals inspire our intuition that legs may be necessary for satisfactory exploration of highly brok...
This paper investigates the relationship between energetic effi- ciency and the dynamical structure ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Gait parameter adaptation on a physical robot is an error-prone, tedious and time-consuming process....
This paper presents a general framework for representing and generating gaitsfor legged robots. We i...
This paper introduces a framework for representing, generating, and then tuning gaits of legged robo...
We report on our progress in extending the behavioral repertoire of RHex, a compliant leg hexapod ro...
Autonomous robots are increasingly used in remote and hazardous environments, where damage to senso...
We discuss the gait generation and control architecture of a bioinspired climbing robot that present...
Developing control methods that allow legged robots to move with skill and agility remains one of th...
A trend in robotics is towards legged robots. One of the issues with legged robots is the developmen...
We report on a novel leg strain sensory system for the autonomous robot RHex [Saranli U. et al., 200...
We develop robust methods that allow specification, control, and transition of a multi-legged robot’s...
We report on a continuous time full body state estimator for a hexapod robot operating in the dynami...
In this paper, the authors describe the design and control of RHex, a power autonomous, untethered, ...
Animals inspire our intuition that legs may be necessary for satisfactory exploration of highly brok...
This paper investigates the relationship between energetic effi- ciency and the dynamical structure ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Gait parameter adaptation on a physical robot is an error-prone, tedious and time-consuming process....
This paper presents a general framework for representing and generating gaitsfor legged robots. We i...
This paper introduces a framework for representing, generating, and then tuning gaits of legged robo...
We report on our progress in extending the behavioral repertoire of RHex, a compliant leg hexapod ro...
Autonomous robots are increasingly used in remote and hazardous environments, where damage to senso...
We discuss the gait generation and control architecture of a bioinspired climbing robot that present...
Developing control methods that allow legged robots to move with skill and agility remains one of th...
A trend in robotics is towards legged robots. One of the issues with legged robots is the developmen...
We report on a novel leg strain sensory system for the autonomous robot RHex [Saranli U. et al., 200...
We develop robust methods that allow specification, control, and transition of a multi-legged robot’s...
We report on a continuous time full body state estimator for a hexapod robot operating in the dynami...
In this paper, the authors describe the design and control of RHex, a power autonomous, untethered, ...
Animals inspire our intuition that legs may be necessary for satisfactory exploration of highly brok...
This paper investigates the relationship between energetic effi- ciency and the dynamical structure ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...