A neuronal learning rule for sub-millisecond temporal coding
Wulfram Gerstner,Wulfram Gerstner,Richard Kempter,J. Leo van Hemmen,Hermann Wagner,Hermann Wagner +5 more
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TLDR
A modelling study based on computer simulations of a neuron in the laminar nucleus of the barn owl shows that the necessary degree of coherence in the signal arrival times can be attained during ontogenetic development by virtue of an unsupervised hebbian learning rule.Abstract:
A paradox that exists in auditory and electrosensory neural systems is that they encode behaviorally relevant signals in the range of a few microseconds with neurons that are at least one order of magnitude slower. The importance of temporal coding in neural information processing is not clear yet. A central question is whether neuronal firing can be more precise than the time constants of the neuronal processes involved. Here we address this problem using the auditory system of the barn owl as an example. We present a modelling study based on computer simulations of a neuron in the laminar nucleus. Three observations explain the paradox. First, spiking of an 'integrate-and-fire' neuron driven by excitatory postsynaptic potentials with a width at half-maximum height of 250 micros, has an accuracy of 25 micros if the presynaptic signals arrive coherently. Second, the necessary degree of coherence in the signal arrival times can be attained during ontogenetic development by virtue of an unsupervised hebbian learning rule. Learning selects connections with matching delays from a broad distribution of axons with random delays. Third, the learning rule also selects the correct delays from two independent groups of inputs, for example, from the left and right ear.read more
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Journal ArticleDOI
Integrating Space, Time, and Orientation in Spiking Neural Networks: A Case Study on Multimodal Brain Data Modeling
TL;DR: A novel, unsupervised learning algorithm for fusing temporal, spatial, and orientation information in a spiking neural network architecture that could potentially be used to understand and perform predictive modeling using multimodal data is proposed.
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Salient features tracking apparatus and methods using visual initialization
TL;DR: In this article, saliency maps are combined in order to improve detection performance (e.g., reduce number of false positives) and to enable robust tracking of objects utilizing fewer determination resources.
Dissertation
Aspects of Signal Processing in Noisy Neurons
TL;DR: This dissertation investigated whether the coding of periodic signals in neurons is enhanced by the background noise ubiquitous in the nervous system and found that the model neuron exhibits two kinds of stochastic resonance, i.e. an optimal signal-to-noise ratio of the evoked spike train at a particular input noise amplitude and a resonance with respect to the frequency of the input signal or stimulus.
Journal ArticleDOI
Neural timing of stimulus events with microsecond precision
Jinhong Luo,Silvio Macías,Torbjørn V. Ness,Gaute T. Einevoll,Gaute T. Einevoll,Kechen Zhang,Cynthia F. Moss +6 more
TL;DR: It is proposed that synchronous firing of populations of neurons operates in diverse species to support temporal analysis for auditory localization and complex sound processing.
Journal ArticleDOI
Coding interaural time differences at low best frequencies in the barn owl.
TL;DR: Data suggest that low BF ITD sensitivity in the guinea pig is mediated by detection of a change in slope of the ITD function, and not by maximum rate, and this work reviews coding of low best frequency ITDs in barn owls and mammals and discusses whether there may be differences in the code used to signal ITD in mammals and birds.
References
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The highly irregular firing of cortical cells is inconsistent with temporal integration of random EPSPs
William R. Softky,Christof Koch +1 more
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