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270 results on '"Kalitzin, Stiliyan"'

1. Topological Reinforcement Adaptive Algorithm (TOREADA) Application to the Alerting of Convulsive Seizures and Validation with Monte Carlo Numerical Simulations.

Author

Kalitzin, Stiliyan

Subjects
*REINFORCEMENT learning, *EPILEPSY, *OPTICAL detectors, *SEIZURES (Medicine), *OPTICAL flow
Abstract

The detection of adverse events—for example, convulsive epileptic seizures—can be critical for patients suffering from a variety of pathological syndromes. Algorithms using remote sensing modalities, such as a video camera input, can be effective for real-time alerting, but the broad variability of environments and numerous nonstationary factors may limit their precision. In this work, we address the issue of adaptive reinforcement that can provide flexible applications in alerting devices. The general concept of our approach is the topological reinforced adaptive algorithm (TOREADA). Three essential steps—embedding, assessment, and envelope—act iteratively during the operation of the system, thus providing continuous, on-the-fly, reinforced learning. We apply this concept in the case of detecting convulsive epileptic seizures, where three parameters define the decision manifold. Monte Carlo-type simulations validate the effectiveness and robustness of the approach. We show that the adaptive procedure finds the correct detection parameters, providing optimal accuracy from a large variety of initial states. With respect to the separation quality between simulated seizure and normal epochs, the detection reinforcement algorithm is robust within the broad margins of signal-generation scenarios. We conclude that our technique is applicable to a large variety of event detection systems. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Automated Video Detection of Epileptic Convulsion Slowing as a Precursor for Post-ictal Generalized EEG Suppression

Author

Kalitzin, Stiliyan N., Bauer, Prisca R., Lamberts, Robert J., Velis, Demetrios N., Thijs, Roland D., da Silva, Fernando H. Lopes, Magjarevic, Ratko, Editor-in-chief, Ładyżyński, Piotr, Series editor, Ibrahim, Fatimah, Series editor, Lacković, Igor, Series editor, Rock, Emilio Sacristan, Series editor, Kyriacou, Efthyvoulos, editor, Christofides, Stelios, editor, and Pattichis, Constantinos S., editor

Published
2016
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19. Detection of Critical Structures in Scale Space

Author

Staal, Joes, Kalitzin, Stiliyan, ter Haar Romeny, Bart, Viergever, Max, Goos, Gerhard, editor, Hartmanis, Juris, editor, van Leeuwen, Jan, editor, Nielsen, Mads, editor, Johansen, Peter, editor, Olsen, Ole Fogh, editor, and Weickert, Joachim, editor

Published
1999
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23. Invertible orientation bundles on 2D scalar images

Author

Kalitzin, Stiliyan N., ter Haar Romeny, Bart M., Viergever, Max A., Goos, Gerhard, editor, Hartmanis, Juris, editor, van Leeuwen, Jan, editor, ter Haar Romeny, Bart, editor, Florack, Luc, editor, Koenderink, Jan, editor, and Viergever, Max, editor

Published
1997
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28. Quantification of unidirectional nonlinear associations between multidimensional signals

Author

Kalitzin, Stiliyan N., Parra, Jaime, Velis, Demetrios N., and da Silva, F.H. Lopes

Subjects
Electroencephalography -- Research, Electroencephalography -- Usage, Electromyography -- Research, Electromyography -- Usage, Epilepsy -- Research, Medical research, Medicine, Experimental, Biological sciences, Business, Computers, Health care industry
Abstract

In this paper, we present a rigorous, general definition of the nonlinear association index, known as [h.sup.2]. Proving equivalence between different definitions we show that the index measures the best dynamic range of any nonlinear map between signals. We present also a construction for removing the influence of one signal from another, providing, thus, the basis of an independent component analysis. Our definition applies to arbitrary multidimensional vector-valued signals and depends on an aperture function. In this way, the bin-related classic definition of [h.sup.2] can be generalized. We show that upon choosing suitable aperture functions the bin-related intuitive definition can be deduced. Special attention is dedicated to the direction of the association index that in general is taken in only one sense. We show that for linearly coupled signals high associations are always bidirectional. As a consequence, high asymmetric nonlinear associations are indicators of nonlinear relations, possibly critical, between the dynamic systems underlying the measured signals. We give a simple simulated example to illustrate this property. As a potential clinical application, we show that unidirectional associations between electroencephalogram (EEG) and electromyogram (EMG) recorded from patient with pharmacologically intractable epilepsy can be used to study the cortical involvement in the generation of motor seizures.

Published
2007

29. Automated non-contact detection of central apneas using video

Author

Beeldverwerking ISI, Geertsema, Evelien E., Visser, Gerhard H., Sander, Josemir W., Kalitzin, Stiliyan N., Beeldverwerking ISI, Geertsema, Evelien E., Visser, Gerhard H., Sander, Josemir W., and Kalitzin, Stiliyan N.

Published
2020

30. Validation of virtual resection on intraoperative interictal data acquired during epilepsy surgery

Author

PMC Research, Zorglijn FNE Medisch, Brain, ZL Kinder Ner en Nec Medisch, Beeldverwerking ISI, Demuru, Matteo, Zweiphenning, Willemiek, van Blooijs, Dorien, Van Eijsden, Pieter, Leijten, Frans, Zijlmans, Maeike, Kalitzin, Stiliyan, PMC Research, Zorglijn FNE Medisch, Brain, ZL Kinder Ner en Nec Medisch, Beeldverwerking ISI, Demuru, Matteo, Zweiphenning, Willemiek, van Blooijs, Dorien, Van Eijsden, Pieter, Leijten, Frans, Zijlmans, Maeike, and Kalitzin, Stiliyan

Published
2020

31. The value of intra-operative electrographic biomarkers for tailoring during epilepsy surgery: from group-level to patient-level analysis

Author

Zorglijn FNE Medisch, Beeldverwerking ISI, Brain, ZL Kinder Ner en Nec Medisch, ZL FNE Zorg, Demuru, Matteo, Kalitzin, Stiliyan, Zweiphenning, Willemiek, van Blooijs, Dorien, van’t Klooster, Maryse, Van Eijsden, Pieter, Leijten, Frans, Zijlmans, Maeike, RESPect Group, Zorglijn FNE Medisch, Beeldverwerking ISI, Brain, ZL Kinder Ner en Nec Medisch, ZL FNE Zorg, Demuru, Matteo, Kalitzin, Stiliyan, Zweiphenning, Willemiek, van Blooijs, Dorien, van’t Klooster, Maryse, Van Eijsden, Pieter, Leijten, Frans, Zijlmans, Maeike, and RESPect Group

Published
2020

32. Dynamics of epileptic phenomena determined from statistics of ictal transitions

Author

Suffczynski, Piotr, da Silva, Fernando H. Lopes, Parra, Jaime, Velis, Demetrios N., Bouwman, Brigitte M., van Rijn, Clementina M., van Hese, Peter, Boon, Paul, Khosravani, Houman, Derchansky, Miron, Carlen, Peter, and Kalitzin, Stiliyan

Subjects
Epilepsy -- Complications and side effects, Epilepsy -- Analysis, Poisson processes -- Analysis, Biological sciences, Business, Computers, Health care industry
Abstract

In this paper, we investigate the dynamical scenarios of transitions between normal and paroxysmal state in epilepsy. We assume that some epileptic neural network are bistable i.e, they feature two operational states, ictal and interictal that co-exist. The transitions between these two states may occur according to a Poisson process, a random walk process or as a result of deterministic time--dependent mechanisms. We analyze data from animal models of absence epilepsy, human epilepsies and in vitro models. The distributions of durations of ictal and interictal epochs are fitted with a gamma distribution. On the basis of qualitative features of the fits, we identify, the dynamical processes that may have generated the underlying data. The analysis showed that the following hold. 1) The dynamics of ictal epochs differ from those of interictal states. 2) Seizure initiation can be accounted for by a random walk process while seizure termination is often mediated by deterministic mechanisms. 3) In certain cases, the transitions between ictal and interictal states can be modeled by a Poisson process operating in a bistable network. These results imply that exact prediction of seizure occurrence is not possible but termination of an ictal state by appropriate counter stimulation might be feasible. Index Terms--Bistability, duration distribution, epilepsy.

Published
2006

33. A trained spin-glass model for grouping of image primitives

Author

Staal, Joes, Kalitzin, Stiliyan N., and Viergever, Max A.

Subjects
Object recognition (Computers) -- Research, Pattern recognition -- Research
Abstract

A method is presented that uses grouping to improve local classification of image primitives. The grouping process is based upon a spin-glass system, where the image primitives are treated as possessing a spin. The system is subject to an energy functional consisting of a local and a bilocal part, allowing interaction between the image primitives. Instead of defining the state of lowest energy as the grouping result, the mean state of the system is taken. In this way, instabilities caused by multiple minima in the energy are being avoided. The means of the spins are taken as the a posteriori probabilities for the grouping result. In the paper, it is shown how the energy functional can be learned from example data. The energy functional is defined in such a way that, in case of no interactions between the elements, the means of the spins equal the a priori local probabilities. The grouping process enables the fusion of the a priori local and bilocal probabilities into the a posteriori probabilities. The method is illustrated both on grouping of line elements in synthetic images and on vessel detection in retinal fundus images. Index Terms--Statistical pattern recognition, spin-glass model, statistical learning, Bayesian grouping.

Published
2005

35. Dynamical diseases of brain systems: different routes to epileptic seizures

Author

Lopes da Silva, Fernando H., Blanes, Wouter, Kalitzin, Stiliyan N., Parra, Jaime, Suffczynski, Piotr, and Velis, Demetrios N.

Subjects
Epilepsy -- Research, Biological sciences, Business, Computers, Health care industry
Abstract

In this overview, we consider epilepsies as dynamical diseases of brain systems since they are manifestations of the property of neuronal networks to display multistable dynamics. To illustrate this concept we may assume that at least two states of the epileptic brain are possible: the interictal state characterized by a normal, apparently random, steady-state electroencephalography (EEG) ongoing activity, and the ictal state, that is characterized by paroxysmal occurrence of synchronous oscillations and is generally called, in neurology, a seizure. The transition between these two states can either occur: 1) as a continuous sequence of phases, like in some cases of mesial temporal lobe epilepsy (MTLE); or 2) as a sudden leap, like in most cases of absence seizures. In the mathematical terminology of nonlinear systems, we can say that in the first case the system's attractor gradually deforms from an interictal to an ictal attractor. The causes for such a deformation can be either endogenous or external. In this type of ictal transition, the seizure possibly may be anticipated in its early, preclinical phases. In the second case, where a sharp critical transition takes place, we can assume that the system has at least two simultaneous interictal and ictal attractors all the time. To which attractor the trajectories converge, depends on the initial conditions and the system's parameters. An essential question in this scenario is how the transition between the normal ongoing and the seizure activity takes place. Such a transition can occur either due to the influence of external or endogenous factors or due to a random perturbation and, thus, it will be unpredictable. These dynamical changes may not be detectable from the analysis of the ongoing EEG, but they may be observable only by measuring the system's response to externally administered stimuli. In the special cases of reflex epilepsy, the leap between the normal ongoing attractor and the ictal attractor is caused by a well-defined external perturbation. Examples from these different scenarios are presented and discussed. Index Terms--Biomedical signal analysis, brain modeling, dynamics, electroencephalography, epilepsy, magnetoencephalography, nonlinear systems.

Published
2003

37. Enhancement of phase clustering in the EEG/MEG gamma frequency band anticipates transitions to paroxysmal epileptiform activity in epileptic patients with known visual sensitivity

Author

Kalitzin, Stiliyan, Parra, Jaime, Velis, Demetrios N., and da Silva, F.H. Lopes

Subjects
Magnetoencephalography, Seizures (Medicine) -- Analysis, Brain -- Electric properties, Biological sciences, Business, Computers, Health care industry
Abstract

A new analytical method for quantifying brain activity from magnetoelectroencephalogram (MEG) and electroencephalogram (EEG) recordings during periodic light stimulation is proposed. It consists in estimating the phase clustering of harmonically related frequency components of a subject's MEG/EEG responses evoked by the light stimulation. The method was developed to test the hypothesis that changes in the dynamics of brain systems in the course of intermittent photic stimulation (IPS) may precede the transition to seizure activity in photosensitive patients. We assumed that such changes would be reflected in the phase of harmonic components of the evoked responses. Thus, we determined the phase clustering for different harmonic components of these MEG/EEG signals. We found that the patients who develop epileptiform discharges during IPS present an enhancement of the phase clustering index at the gamma frequency band, compared with that at the driving frequency. We introduce a quantity--relative phase clustering index (rPCI)--by means of which this enhancement can be quantified. We argue that this quantity reflects the degree of excitability of the underlying dynamical system and it can indicate presence of nonlinear dynamics, rPCI can be applied to detect transitions to epileptic seizure activity in patients with known sensitivity to IPS. Index Terms--EEG, epilepsy, IPS, MEG, nonlinear dynamics, phase clustering, seizure anticipation, synchrony, visual sensitivity.

Published
2002

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