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10 results on '"Jonke, Zeno"'

1. A probabilistic model for learning in cortical microcircuit motifs with data-based divisive inhibition

Author

Legenstein, Robert, Jonke, Zeno, Habenschuss, Stefan, and Maass, Wolfgang

Subjects
Quantitative Biology - Neurons and Cognition
Abstract

Previous theoretical studies on the interaction of excitatory and inhibitory neurons proposed to model this cortical microcircuit motif as a so-called Winner-Take-All (WTA) circuit. A recent modeling study however found that the WTA model is not adequate for data-based softer forms of divisive inhibition as found in a microcircuit motif in cortical layer 2/3. We investigate here through theoretical analysis the role of such softer divisive inhibition for the emergence of computational operations and neural codes under spike-timing dependent plasticity (STDP). We show that in contrast to WTA models - where the network activity has been interpreted as probabilistic inference in a generative mixture distribution - this network dynamics approximates inference in a noisy-OR-like generative model that explains the network input based on multiple hidden causes. Furthermore, we show that STDP optimizes the parameters of this model by approximating online the expectation maximization (EM) algorithm. This theoretical analysis corroborates a preceding modelling study which suggested that the learning dynamics of this layer 2/3 microcircuit motif extracts a specific modular representation of the input and thus performs blind source separation on the input statistics., Comment: 24 pages, 5 figures

Published
2017

2. Feedback inhibition shapes emergent computational properties of cortical microcircuit motifs

Author

Jonke, Zeno, Legenstein, Robert, Habenschuss, Stefan, and Maass, Wolfgang

Subjects
Quantitative Biology - Neurons and Cognition
Abstract

Cortical microcircuits are very complex networks, but they are composed of a relatively small number of stereotypical motifs. Hence one strategy for throwing light on the computational function of cortical microcircuits is to analyze emergent computational properties of these stereotypical microcircuit motifs. We are addressing here the question how spike-timing dependent plasticity (STDP) shapes the computational properties of one motif that has frequently been studied experimentally: interconnected populations of pyramidal cells and parvalbumin-positive inhibitory cells in layer 2/3. Experimental studies suggest that these inhibitory neurons exert some form of divisive inhibition on the pyramidal cells. We show that this data-based form of feedback inhibition, which is softer than that of winner-take-all models that are commonly considered in theoretical analyses, contributes to the emergence of an important computational function through STDP: The capability to disentangle superimposed firing patterns in upstream networks, and to represent their information content through a sparse assembly code., Comment: 25 pages, 6 figures

Published
2017

3. A theoretical basis for efficient computations with noisy spiking neurons

Author

Jonke, Zeno, Habenschuss, Stefan, and Maass, Wolfgang

Subjects
Computer Science - Neural and Evolutionary Computing, Quantitative Biology - Neurons and Cognition, 68Q10
Abstract

Network of neurons in the brain apply - unlike processors in our current generation of computer hardware - an event-based processing strategy, where short pulses (spikes) are emitted sparsely by neurons to signal the occurrence of an event at a particular point in time. Such spike-based computations promise to be substantially more power-efficient than traditional clocked processing schemes. However it turned out to be surprisingly difficult to design networks of spiking neurons that are able to carry out demanding computations. We present here a new theoretical framework for organizing computations of networks of spiking neurons. In particular, we show that a suitable design enables them to solve hard constraint satisfaction problems from the domains of planning - optimization and verification - logical inference. The underlying design principles employ noise as a computational resource. Nevertheless the timing of spikes (rather than just spike rates) plays an essential role in the resulting computations. Furthermore, one can demonstrate for the Traveling Salesman Problem a surprising computational advantage of networks of spiking neurons compared with traditional artificial neural networks and Gibbs sampling. The identification of such advantage has been a well-known open problem., Comment: main paper: 21 pages, 5 figures supplemental paper: 11 pages, no figures

Published
2014

7. Klasifikacija teksta primjenom jezgrenih metoda na nizove znakova i riječi

Author

Jonke, Zeno

Subjects
jezgrene metode, nizovi znakova, klasifikacija teksta
Abstract

Jezgrene metode temelje se na jezgrenim funkcijama koje kao vrijednost daju skalarni produkt između vektora dokumentata preslikanih u prostor značajki. U radu su proučene jezgrene metoda za nizove znakova i riječi GWSBK (engl. gap-weighted string subsequence kernel) i WSK (engl. word sequence kernel). Metode su primijenjene na zadatak klasifikacije teksta te vrednovane na standardnim zbirkama dokumenata Reuters i Croatia Weekly.

Published
2009

8. Exploring String and Word Kernels on Croatian-English Parallel Corpus

Author

Jonke, Zeno, Šilić, Artur, and Dalbelo Bašić, Bojana

Subjects
word kernls, string kernels, text classification
Abstract

In this paper we investigate classification performance of kernels based document representations, as well as the influence of kernel parameters for text classification in two morphologically different languages. We explore and compare two kernel functions that work at different levels of a sentence. The first is the Gap weighted kernel, a member of the String kernels that operates at the character level and thus compares text documents by subsequences of characters. This removes the need for stemming or lemmatisation, since it captures the stems of the words automatically, which is very important in situations when tools for stemming or lemmatisation are not available. The second method is the Word sequence kernel, an extension of the String kernels that works at the level of the word. This approach provides a more natural representation of the text and has the advantage of reducing document representation, which in turn reduces computation time. These two methods are compared by exploring theirs parameters dependency and by measuring their classification performance for the Croatian-English parallel corpus.

Published
2009

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