Gait Adaptation in a Quadruped Robot

Gait Adaptation in a Quadruped Robot

A newborn foal can learn to walk soon after birth through a process of rapid adaptation acting on its locomotor controller. It is proposed here that this kind of adaptation can be modeled as a distributed system of adaptive modules (AMs) acting on a distributed system of adaptive oscillators called...

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Veröffentlicht in:Autonomous robots 2002-05, Vol.12 (3), p.301-312
Hauptverfasser: Lewis, MAnthony, Bekey, George A
Format: Artikel
Sprache:eng
Schlagworte:
Adaptation
Adaptive systems
Birth
Computer networks
Distributed parameter control systems
Gait
Gait analysis
Intelligent robots
Learning algorithms
Motion control
Oscillators
Oscillators (electronic)
Position control
Reflexes
Robot learning
Robotics
Robots
Studies
Twisting
Universal joints
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Zusammenfassung:A newborn foal can learn to walk soon after birth through a process of rapid adaptation acting on its locomotor controller. It is proposed here that this kind of adaptation can be modeled as a distributed system of adaptive modules (AMs) acting on a distributed system of adaptive oscillators called Adaptive Ring Rules (ARRs), augmented with appropriate and simple reflexes. It is shown that such a system can self-program through interaction with the environment. The adaptation emerges spontaneously as several discrete stages: Body twisting, short quick steps, and finally longer, coordinated stepping. This approach is demonstrated on a quadrupedal robot. The result is that the system can learn to walk several minutes after inception.
ISSN:0929-5593
1573-7527
DOI:10.1023/A:1015221832567