Sustained oscillations generated by mutually inhibiting neurons with adaptation
From MaRDI portal
Publication:1063538
DOI10.1007/BF00449593zbMath0574.92013OpenAlexW2057952125WikidataQ52683549 ScholiaQ52683549MaRDI QIDQ1063538
Publication date: 1985
Published in: Biological Cybernetics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/bf00449593
neural networksadaptationsustained oscillationsComputer simulationscontinuous-variable modelcyclic inhibition networkslateral inhibition networks of linearly arrayed neuronssymmetric inhibition networks
Related Items (34)
The self-organization of ball bouncing ⋮ Resonance tuning in a neuro-musculo-skeletal model of the forearm ⋮ Bipedal locomotion: toward unified concepts in robotics and neuroscience ⋮ Engineering entrainment and adaptation in limit cycle systems ⋮ Sensory feedback mechanism underlying entrainment of central pattern generator to mechanical resonance ⋮ Modeling discrete and rhythmic movements through motor primitives: a review ⋮ Energy efficient walking with central pattern generators: From passive dynamic walking to biologically inspired control ⋮ Survey of locomotion control of legged robots inspired by biological concept ⋮ A model fo the neuro-musculo-skeletal system for human locomotion. I: Emergence of basic gait ⋮ A model of the neuro-musculo-skeletal system for human locomotion. II: Real-time adaptability under various constraints ⋮ Reinforcement learning for a biped robot based on a CPG-actor-critic method ⋮ Stationary states of the Hartline-Ratliff model ⋮ A complementarity approach for the computation of periodic oscillations in piecewise linear systems ⋮ Task-oriented parameter tuning based on priority condition for biologically inspired robot application ⋮ Research on walking gait of biped robot based on a modified CPG model ⋮ Arm motion control model based on central pattern generator ⋮ Gaits-transferable CPG controller for a snake-like robot ⋮ Cyclic negative feedback systems: what is the chance of oscillation? ⋮ Analysis of a neural oscillator ⋮ A comparison of resonance tuning with positive versus negative sensory feedback ⋮ Formal analysis of resonance entrainment by central pattern generator ⋮ Modeling and design of direct nonlinear velocity feedback for modal self-excitation in a class of multi degrees-of-freedom mechanical systems ⋮ Modeling and analysis of a new locomotion control neural networks ⋮ ``Two vs one rivalry by the Loxley-Robinson model ⋮ Biologically inspired robotic arm control using an artificial neural oscillator ⋮ Robust control of CPG-based 3D neuromusculoskeletal walking model ⋮ Comparative study of forced oscillators for the adaptive generation of rhythmic movements in robot controllers ⋮ Energy efficient and robust rhythmic limb movement by central pattern generators ⋮ Matrix perturbation analysis for weakly coupled oscillators ⋮ Multivariable harmonic balance for central pattern generators ⋮ A Computational Model for Rhythmic and Discrete Movements in Uni- and Bimanual Coordination ⋮ Robot gait synthesis using the scheme of human motions skills development ⋮ Emergence of bipedal locomotion through entrainment among the neuro-musculo-skeletal system and the environment ⋮ Self-organized control of bipedal locomotion by neural oscillators in unpredictable environment
Cites Work
This page was built for publication: Sustained oscillations generated by mutually inhibiting neurons with adaptation
