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Publication
Self-organized sequence processing in recurrent neural networks with multiple interacting plasticity mechanisms
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Authors
Advisor(s)
Abstract(s)
The highly recurrent connectivity encountered in the neocortical circuitry
makes recurrent neural network (RNN) models highly suitable when investigating
the computational properties of biologically inspired model neurodynamics.
The recent reservoir computing (RC) models, an extension of
the RNN paradigm, provide a framework for state-dependent computations,
where information is encoded in the form of state-space trajectories, which
is similar to recent ndings in neurobiology. Over the past few years, several
attempts have been made to endow these network models with adaptive
mechanisms, capable of mimicking the various neural plasticity mechanisms
known to exist in the brain and to play a fundamental role in shaping the
dynamics and information processing capabilities of the underlying neural
networks.
In this thesis, we analyze the dynamic properties of a simple reservoir computer
model, with self-organizing plasticity mechanisms operating concomitantly.
We investigate how di erent combinations of three forms of biologically
inspired adaptive mechanisms shape the reservoir's dynamic properties
and their e ectiveness in acquiring an internal representation of structured
symbol sequences. We demonstrate, replicating previous work, that
only combined do these mechanisms allow the dynamic reservoir networks to
achieve an input separation that outperforms static (i.e., without plasticity)
reservoir networks. We further assess how the symbol sequences are internally
represented in di erent network settings. All reservoir networks are
shown to re
ect the input structure in their state dynamics, but plasticity is
clearly bene cial by modifying network parameters, increasing the network's
ability to `learn' the temporal structure of the input sequences.
Description
Dissertação de mest., Neurociências Cognitivas e Neuropsicologia (Neuropsicologia), Faculdade de Ciências Humanas e Sociais, Univ. do Algarve, 2011
Keywords
Neuropsicologia Redes neuronais Computação Reservatórios Séries temporais