In this paper the implementation of a correlation-based navigation algorithm, based on an unsupervised learning paradigm for spiking neural networks, called Spike Timing Dependent Plasticity (STDP), is presented. The main characteristic of the learning technique implemented is that it allows the robot to learn high-level sensor features, based on a set of basic reflexes, depending on some low-level sensor inputs. The goal is to allow the robot to autonomously learn how to navigate in an unknown environment, avoiding obstacles and heading toward or avoiding the targets (on the basis of the rewarded action). © 2010 IEEE.
Insect inspired unsupervised learning for tactic and phobic behavior enhancement in a hybrid Robot
ARENA, Paolo Pietro;CRISTINA VENTURA
2010-01-01
Abstract
In this paper the implementation of a correlation-based navigation algorithm, based on an unsupervised learning paradigm for spiking neural networks, called Spike Timing Dependent Plasticity (STDP), is presented. The main characteristic of the learning technique implemented is that it allows the robot to learn high-level sensor features, based on a set of basic reflexes, depending on some low-level sensor inputs. The goal is to allow the robot to autonomously learn how to navigate in an unknown environment, avoiding obstacles and heading toward or avoiding the targets (on the basis of the rewarded action). © 2010 IEEE.File in questo prodotto:
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