Open AccessPosted Content
Vision-Based Control for Robots by a Fully Spiking Neural System Relying on Cerebellar Predictive Learning
TLDR
This work proposes a novel fully spiking neural system that relies on a forward predictive learning by means of a cellular cerebellar model and predicts sensory corrections in input to a differential mappingSpiking neural network during a visual servoing task of a robot arm manipulator.Abstract:
The cerebellum plays a distinctive role within our motor control system to achieve fine and coordinated motions. While cerebellar lesions do not lead to a complete loss of motor functions, both action and perception are severally impacted. Hence, it is assumed that the cerebellum uses an internal forward model to provide anticipatory signals by learning from the error in sensory states. In some studies, it was demonstrated that the learning process relies on the joint-space error. However, this may not exist. This work proposes a novel fully spiking neural system that relies on a forward predictive learning by means of a cellular cerebellar model. The forward model is learnt thanks to the sensory feedback in task-space and it acts as a Smith predictor. The latter predicts sensory corrections in input to a differential mapping spiking neural network during a visual servoing task of a robot arm manipulator. In this paper, we promote the developed control system to achieve more accurate target reaching actions and reduce the motion execution time for the robotic reaching tasks thanks to the cerebellar predictive capabilities.read more
Citations
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Journal ArticleDOI
Principles of Neural Science
TL;DR: The editors have done a masterful job of weaving together the biologic, the behavioral, and the clinical sciences into a single tapestry in which everyone from the molecular biologist to the practicing psychiatrist can find and appreciate his or her own research.
Posted Content
A Neurorobotic Embodiment for Exploring the Dynamical Interactions of a Spiking Cerebellar Model and a Robot Arm During Vision-based Manipulation Tasks
TL;DR: In this article, a detailed cellular-level forward cerebellar model is developed, including modeling of Golgi and basket cells which are usually neglected in previous studies, and a hyperparameter optimization method tunes the network accordingly.
References
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2013 Special Issue: Adaptive filters and internal models: Multilevel description of cerebellar function
TL;DR: This initial analysis suggests that cerebellar involvement in particular behaviours is therefore unlikely to have a neat classification into categories such as 'forward model', and it is more likely that Cerebellar microzones learn a task-specific adaptive-filter operation which combines a number of signal-processing roles.
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Neural Evidence of the Cerebellum as a State Predictor
TL;DR: Analysis of cerebellar activities supports the forward-model hypothesis of the cerebellum, and it is shown that the dentate activities contained predictive information about the future inputs.
Book ChapterDOI
Neurorobotics: From Vision to Action
TL;DR: This chapter extends this biological motivation from humans to animals more generally, but with a focus on the central nervous systems in its relationship to the bodies of these creatures, and investigates the sensorimotor loop in the execution of sophisticated behavior.
Journal ArticleDOI
Control of a Humanoid NAO Robot by an Adaptive Bioinspired Cerebellar Module in 3D Motion Tasks.
TL;DR: The spiking cerebellar model was able to reproduce in the robotic platform how biological systems deal with external sources of error, in both ideal and real (noisy) environments.