Beyond "More than Moore": Novel applications of BiFeO3 (BFO)-based nonvolatile resistive switches / Neuartige Anwendungen des BiFeO3 (BFO)-basierten nichtflüchtigen Widerstandsschaltern

Du, Nan

27 May 2016

The size reduction of transistors has been the main reason for a successful development of semiconductor integrated circuits over the last decades. Because of the physically limited downscaling of transistors, alternative technologies namely the information processing and nonvolatile resistive switches (also termed memristors) have come into focus. Memristors reveal a fast switching speed, long retention time, and stable endurance. Nonvolatile analog bipolar resistive switching with a considerable large On/Off ratio is reported in BiFeO3 (BFO)-based resistive switches. So far resistive switches are mainly applied in memory applications or logic operations. Given the excellent properties of BFO based memristors, the further exploration of functionalities for memristive devices is required. A new approach for hardware based cryptographic system was developed within the framework of this dissertation. By studying the power conversion efficiencies on BFO memristor at various harmonics, it has been shown that two sets of clearly distinguishable power ratios are achievable when the BFO memristor is set into high or into low resistance state. Thus, a BFO-based binary encoding system can be established. As an example the unrecoverable seizure information from encoded medical data suggests the proper functioning of the proposed encryption system. Aside from cryptographic functionality, the single pairing spike timing dependent plasticity (STDP) in BFO-based artificial synapses is demonstrated, which can be considered as the cornerstone for energy-efficient and fast hardware-based neuromorphic networks. In comparison to the biological driven realistic way, only single one pairing of pre- and postsynaptic spikes is applied to the BFO-based artificial synapse instead of 60-80 pairings. Thus, the learning time constant of STDP function can be reduced from 25 ms to 125 us. / In den letzten Jahrzehnten war die Größenreduktion von Transistoren einer der Hauptgründe für die Leistungssteigerung von integrierten Halbleiterschaltungen. Aufgrund des physikalisch beschränkten Skalierungspotentials, werden alternative Technologien für Halbleiterschaltungen entwickelt. Dazu zählen neuartige Widerstandsschalter, sogenannte Memristoren, welche wegen ihrer schnellen Schaltgeschwindigkeit, langen Speicherzeit und stabilen Haltbarkeit in den Fokus der Forschung gerückt sind. Das nichtflüchtige analoge bipolare Schalten des Widerstandwertes mit einem On/Off Verhältnis größer als 100 wurde in BiFeO 3 (BFO)-basierten Widerstands-schaltern beobachtet. Bisher wurden Widerstandsschalter hauptsächlich als Speicher oder in rekonfigurierbaren Logikschaltungen verwendet. Aufgrund der ausgezeichneten Eigenschaften von BFO-basierten Memristoren, ist die Untersuchung weiterer neuer Funktionalitäten vielversprechend. Als neuer Ansatz für ein Hardware-basiertes Kryptosystem wird in der vorliegenden Arbeit die Ausnutzung des Leistungsübertragungskoeffizienten in BFO Memristoren vorgeschlagen. Mit Hilfe der unterschiedlichen Oberschwingungen, welche von einem BFO Memristor im ON und OFF Zustand generiert werden, wurde ein Kryptosystem zum Kodieren binärer Daten entwickelt. Ein Test des Hardware-basierten Kryptosystems an Biodaten ergab, dass die kodierten Biodaten keine vorhersagbare Korrelation mehr enthielten. In der vorliegenden Arbeit wurden darüberhinaus BFO-basierte künstliche Synapsen mit einer Aktionspotentials-Intervall abhängigen Plastizität (STDP) für Einzelpulse entwickelt. Diese Einzelpuls-STDP legt den Grundstein für energieffiziente und schnelle neuromorphe Netzwerke mit künstlichen Synapsen. Im Vergleich zu biologischen Synapsen mit einer 60-80-Puls-STDP und einem Lernfenster auf der ms-Zeitskale, konnte das Lernfenster von BFO-basierten künstlichen Synapsen von 25 ms auf 125 μs reduziert werden. Solch ein schnelles Lernen ermöglicht auch die extreme Reduzierung des Leistungsverbrauchs in neuromorphen Netzwerken.

BFO-basierten Memristoren

Widerstandsschalter

normalisierte Memristance

Schaltdynamik

Oberschwingungsgeneration

Leistungsübertragungskoeffizient

BFO-basiertes Kryptosystem

Autokorrelationsfunktion

Lernfenster

Speicherkonsolidierung

Synaptisch Energieverbrauch

BFO memristor

resistive switching

normalized memristance

switching dynamics

higher harmonic generation

power conversion efficiency

BFO-based encryption system

autocorrelationfunction

spike-timing dependent plasticity

learning window

memory consolidation

synaptic power consumption

ddc:629

Autokorrelationsfunktion

Energieverbrauch

Spike statistics and coding properties of phase models

Schleimer, Jan Hendrik

26 July 2013

Ziel dieser Arbeit ist es eine Beziehung zwischen den biophysikalischen Eigenschaften der Nervenmembran, und den ausgeführten Berechnungen und Filtereigenschaften eines tonisch feuernden Neurons, unter Einbeziehen intrinsischer Fluktuationen, herzustellen. Zu diesem Zweck werden zu erst die mikroskopischen Fluktuationen, die durch das stochastische Öffnen und Schließen der Ionenkanäle verursacht werden, zu makroskopischer Varibilität in den Zeitpunkten des Auftretens der Aktionspotentiale übersetzt, denn es sind diese Spikezeiten die in vielen sensorischen Systemen informationstragenden sind. Die Methode erlaubt es das stochastischer Verhalten komplizierter Ionenkanalstrukturen mit einer großen Zahl an Untereinheiten, in Spikezeitenvariabilität zu übersetzen. Als weiteres werden die Filtereigenschaften der Nervenzellen in der überschwelligen Dynamik, also bei Existenz eines stabilen Grenzzyklus, aus ihren Phasenantwortkurven (PAK), einer Eigenschaft des linearisierten adjungierten Flusses auf dem Grenzzyklus, in einem stöhrungstheoretischen Ansatz berechnet. Es ergibt sich, dass Charakteristika des Filter, wie beispielsweise die DC Komponente und die Eigenschaften des Filters um die Fundamentalfrequenz und ihrer Harmonien, von den Fourierkomponenten der PAK abhängen. Unter Verwendung der hergeleiteten Filter und weiterer Annahmen ist es möglich das frequenzabhängige Signal-zu-Rauschen Verhältnis zu berechnen, und damit eine untere Schranke für die Informationstransferrate eines Leitfähigkeitsmodells zu berechnen. Unter Zuhilfenahme der numerischen Kontinuierungsmethode ist es möglich die Veränderungen in der Spikevariabilität und den Filtern für jeden biophysikalischen Parameter des System zu verfolgen. Weiterhin wurde die verwendete Phasenreduktion durch eine Korrektur ergänzt, die die Radialdynamik einbezieht. Es zeigt sich, dass die Krümmung der Isochronen einen Einfluss darauf hat ob das Rauschen einen positiven oder negativen Frequenzschift hervorruft. / The goal of the thesis is to establish quantitative, analytical relations between the biophysical properties of nerve membranes and the performed neuronal computations for neurons in a tonically spiking regime and in the presence of intrinsic noise. For this purpose, two major lines of investigation are followed. Firstly, microscopic noise caused by the stochastic opening and closing of ion channels is mapped to the macroscopic spike jitter that affects neural coding. The method is generic enough to allow one to treat Markov channel models with complicated, high-dimensional state spaces and calculate from them the noise in the coding variable, i.e., the spike time. Secondly, the suprathreshold filtering properties of neurons are derived, based on the phase response curves (PRCs) by perturbing the associated Fokker-Planck equations. It turns out that key characteristics of the filter, such as the DC component of the gain and the behaviour near the fundamental frequency and its harmonics are related to the particular Fourier components of the PRC and hence the bifurcation type of the neuron. With the help of the derived filter and further approximations one is able to calculate the frequency resolved signal-to-noise ration and finally the total information transmission rate of a conductance based model. Using the method of numerical continuation it is possible to calculate the change in spike time noise level as well as the filtering properties for arbitrary changes in biophysical parameter such as varying channel densities or mean input to the cell. We extend the phase reduction to include correction terms from the amplitude dynamics that are related to the curvature of the isochrons and provide a method to identify the required amplitude sensitivities numerically. It can be shown that the curvature of the isochron has a direct consequence for the noise induced frequency shift.

Phasenantwortkurven

Kanalrauschen

Spikezeit

Hodgekin-Huxley Gleichungen

Stöhrungstheorie

Stochastische Systeme

Transferfunktion

Neuronale Filter

dynamical systems

perturbation theory

conductance based models

transfer function

filtering properties

supra threshold dynamics

bifurcation

spike jitter

channel noise

stochastic differential equations

570 Biowissenschaften, Biologie

32 Biologie

WE 5400

ddc:570

Theoretical mechanisms of information filtering in stochastic single neuron models

Blankenburg, Sven

16 August 2016

Die vorliegende Arbeit beschäftigt sich mit Mechanismen, die in Einzelzellmodellen zu einer frequenzabhängigen Informationsübertragung führen können. Um dies zu untersuchen, werden Methoden aus der theoretischen Physik (Statistische Physik) und der Informationstheorie angewandt. Die Informationsfilterung in mehreren stochastischen Neuronmodellen, in denen unterschiedliche Mechanismen zur Informationsfilterung führen können, werden numerisch und, falls möglich, analytisch untersucht. Die Bandbreite der betrachteten Modelle erstreckt sich von reduzierten strombasierten ’Integrate-and-Fire’ (IF) Modellen bis zu biophysikalisch realistischeren leitfähigkeitsbasierten Modellen. Anhand numerischer Untersuchungen wird aufgezeigt, dass viele Varianten der IF-Neuronenmodelle vorzugsweise Information über langsame Anteile eines zeitabhängigen Eingangssignals übertragen. Der einfachste Vertreter der oben genannten Klasse der IF-Neuronmodelle wird dahingehend erweitert, dass ein Konzept von neuronalem ’Gedächtnis’, vermittelst positiver Korrelationen zwischen benachbarten Intervallen aufeinander- folgender Spikes, integriert wird. Dieses Model erlaubt eine analytische störungstheoretische Untersuchung der Auswirkungen positiver Korrelationen auf die Informationsfilterung. Um zu untersuchen, wie sich sogenannte ’unterschwelligen Resonanzen’ auf die Signalübertragung auswirken, werden Neuronenmodelle mit verschiedenen Nichtlinearitäten anhand numerischer Computersimulationen analysiert. Abschließend wird die Signalübertragung in einem neuronalen Kaskadensystem, bestehend aus linearen und nichtlinearen Elementen, betrachtet. Neuronale Nichtlinearitäten bewirken eine gegenläufige Abhängigkeit (engl. "trade-off") zwischen qualitativer, d.h. frequenzselektiver, und quantitativer Informations-übertragung, welche in allen von mir untersuchten Modellen diskutiert wird. Diese Arbeit hebt die Gewichtigkeit von Nichtlinearitäten in der neuronalen Informationsfilterung hervor. / Neurons transmit information about time-dependent input signals via highly non-linear responses, so-called action potentials or spikes. This type of information transmission can be frequency-dependent and allows for preferences for certain stimulus components. A single neuron can transmit either slow components (low pass filter), fast components (high pass filter), or intermediate components (band pass filter) of a time-dependent input signal. Using methods developed in theoretical physics (statistical physics) within the framework of information theory, in this thesis, cell-intrinsic mechanisms are being investigated that can lead to frequency selectivity on the level of information transmission. Various stochastic single neuron models are examined numerically and, if tractable analytically. Ranging from simple spiking models to complex conductance-based models with and without nonlinearities, these models include integrator as well as resonator dynamics. First, spectral information filtering characteristics of different types of stochastic current-based integrator neuron models are being studied. Subsequently, the simple deterministic PIF model is being extended with a stochastic spiking rule, leading to positive correlations between successive interspike intervals (ISIs). Thereafter, models are being examined which show subthreshold resonances (so-called resonator models) and their effects on the spectral information filtering characteristics are being investigated. Finally, the spectral information filtering properties of stochastic linearnonlinear cascade neuron models are being researched by employing different static nonlinearities (SNLs). The trade-off between frequency-dependent signal transmission and the total amount of transmitted information will be demonstrated in all models and constitutes a direct consequence of the nonlinear formulation of the models.

serieller Korrelationskoeffizient

Frequenzfilterung

Informationsfilterung

Kohärenzfunktion

statische Nichtlinaritäten

stochastische Schwellwertneuronen

ISI Korrelationen

Pulszug-Statistik

Frequency tuning

Resonate-and-fire models

Information filtering

Coherence function

Static nonlinearities

Stochastic threshold neuron models

ISI correlations

Spike train statistics

Serial correlation coefficient

530 Physik

29 Physik, Astronomie

WD 9200

WW 3880

ddc:530

Tales of Ash: Phantom Bodies as Testimony in Artistic Representations of Terrorism

Lavi, Tali, talilavi@netspace.net.au

January 2007

This paper delves into the realms of tragedy, memory and representation. Drawing upon the phenomenon of the Phantom Limb and extending it towards a theory of Phantom Bodies, various artworks - literary, theatrical and visual - are examined. After the conflagration of the terrorist attack, how are these absences grieved over and remembered through artistic representation? The essay examines this question by positioning itself amongst the scarred landscapes of post-September 11 New York and suicide bombings in Israel (2000-2006). Furthermore, it investigates whether humanity can be restored in the aftermath of an event in which certain individuals have sought to eradicate it. The fragmentation of the affected body in these scenarios is understood as further complicating processes of grief and remembrance. Artists who reject political polemic and engage with the dimensions of human loss are seen to have discovered means of referring to the absence caused by the act of terrorism. Three such recurring representations present themselves: ash and remnants, presence/absence and memory building. Phantom Bodies are perceived as simultaneously functioning as a reminder of the event itself, insisting upon the response of bearing witness, and as a symbol of the overwhelming power of humanity. Challenges arise when individuals or sections of the affected society deem these artworks to be inappropriate or explicit. Works considered include: Neil LaBute's play The Mercy Seat, Sigalit Landau's art installation The Country, Jonathan Safran Foer's Extremely Loud & Incredibly Close, Spike Lee's 25th Hour, Daniel Libeskind's architectural plans for the World Trade Center site, Eric Fischl's sculpture 'Tumbling Woman', Honor Molloy's autodelete://beginning dump of physical memory and A.B.Yehoshua's A Woman in Jerusalem. The accompanying play, Tales of Ash: A diptych for the theatre, is set in Melbourne, New York and Tel Aviv and deals with life in the face of and after terror. It veers between naturalism, poetic monologue and the epic. Tales of Ash contains two plays. The first centres on Mia, a young sculptor living in New York, who loses both her lover and her creativity on September 11. Upon returning to her home in Melbourne, she finds familial bonds still entwined with guilt and family trauma. The second play revolves around Ilana and Benny, two people living in Tel Aviv, who find themselves suddenly thrust together after a devastating bombing. As they attempt to resume rhythms of life, in the face of all the inherent ferocity of a modern existence in Israel, the struggle between The Ash Woman and The Ash Takers escalates.

Phantom Bodies

Terrorism

Testimony

Memory

September 11 2001

New York after September 11

Israel and Terrorism

Artistic Responses to Terrorism

Trauma

Theatre

Visual Art

Literature

Architecture

Elizabeth Grosz

Slavoj Zizek

Neil LaBute

Sigalit Landau

Jonathan Safran Foer

Spike Lee

Daniel Libeskind

Eric Fischl

Honor Molloy

Honour Kane

A.B.Yehoshua

Etgar Keret.

Dynamics of Population Coding in the Cortex / Dynamische Populationskodierung im Gehirn

Naundorf, Björn

28 June 2005

No description available.

530 Physik

Mathematics and Computer Science

Spike initiation

Population coding

Hodgkin-Huxley model

Neuron models

Phase Oscillator

In vivo Intracellular recordings

Cortical neurons

Aktionspotentialinitiierung

Populationskodierung

Hodgkin-Huxley Theorie

Modellneurone

Phasenoszillator

In vivo intrazelluläre Ableitungen

Kortikale Neurone

33.10

33.20

30.30

44.3

RDI 000: Theoretische Physik

Genetic analysis of resistance to Fusarium head blight in wheat (Triticum spp.) using phenotypic characters and molecular markers

Malihipour, Ali

26 October 2010

Fusarium head blight (FHB), caused mainly by Fusarium graminearum (teleomorph: Gibberella zeae), is one of the most damaging diseases of wheat. A ‘Brio’/‘TC 67’ spring wheat population was used to map quantitative trait loci (QTLs) for resistance to FHB, and to study the association of morphological and developmental characteristics with FHB resistance. Interval mapping (IM) detected a major QTL on chromosome 5AL for resistance to disease severity (type II resistance) and Fusarium-damaged kernels (FDK) under greenhouse and field conditions, respectively. Inconsistent QTL(s) was also detected on chromosome 5BS for disease severity and index using field data. The associations of plant height and number of days to anthesis were negative with disease incidence, severity, index, and deoxynivalenol (DON) accumulation data under field conditions. However, number of days to anthesis was positively correlated with disease severity (greenhouse) and FDK (field). Awnedness had a negative effect on FHB, namely the presence of awns resulted in less disease in the population. Spike threshability also affected FHB so that the hard threshable genotypes represented lower disease. Phylogenetic relationships of putative F. graminearum isolates from different sources were characterized using Tri101 gene sequencing data. Canadian and Iranian isolates clustered in F. graminearum lineage 7 (=F. graminearum sensu stricto) within the F. graminearum clade while the isolates received from CIMMYT, Mexico were placed in F. graminearum lineage 3 (=Fusarium boothii) within the Fg clade or Fusarium cerealis. The PCR assay based on the Tri12 gene revealed the presence of the NIV, 3-ADON, and 15-ADON chemotypes with 15-ADON being the predominant chemotype. While we did not find the NIV chemotype among the Canadian isolates, it was the predominant chemotype among the Iranian isolates. High variation in aggressiveness was observed among and within Fusarium species tested, with the isolates of F. graminearum sensu stricto being the most aggressive and the NIV chemotype being the least aggressive. The interactions between Fusarium isolates and wheat genotypes from different sources were investigated by inoculating isolates of F. graminearum sensu stricto and F. boothii on wheat genotypes. Significant differences were observed among the genotypes inoculated by single isolates. Results also showed significant interactions between Fusarium isolates and wheat genotypes. The F. boothii isolates from CIMMYT produced low disease symptom and infection on wheat genotypes regardless of the origin of the genotypes while F. graminearum sensu stricto isolates from Canada and Iran resulted in higher FHB scores.

Wheat

Triticum aestivum

Triticum timopheevii

Brio

TC 67

Fusarium head blight

Quantitative trait loci

resistance

5AL

5BS

plant height

number of days to anthesis

awnedness

spike threshability

Tri101

Fusarium graminearum

Fusarium boothii

Fusarium cerealis

Lineage 7

Lineage 3

Tri12

NIV

3-ADON

15-ADON

aggressiveness

host-pathogen interaction

Genetic analysis of resistance to Fusarium head blight in wheat (Triticum spp.) using phenotypic characters and molecular markers

Malihipour, Ali

26 October 2010

Fusarium head blight (FHB), caused mainly by Fusarium graminearum (teleomorph: Gibberella zeae), is one of the most damaging diseases of wheat. A ‘Brio’/‘TC 67’ spring wheat population was used to map quantitative trait loci (QTLs) for resistance to FHB, and to study the association of morphological and developmental characteristics with FHB resistance. Interval mapping (IM) detected a major QTL on chromosome 5AL for resistance to disease severity (type II resistance) and Fusarium-damaged kernels (FDK) under greenhouse and field conditions, respectively. Inconsistent QTL(s) was also detected on chromosome 5BS for disease severity and index using field data. The associations of plant height and number of days to anthesis were negative with disease incidence, severity, index, and deoxynivalenol (DON) accumulation data under field conditions. However, number of days to anthesis was positively correlated with disease severity (greenhouse) and FDK (field). Awnedness had a negative effect on FHB, namely the presence of awns resulted in less disease in the population. Spike threshability also affected FHB so that the hard threshable genotypes represented lower disease. Phylogenetic relationships of putative F. graminearum isolates from different sources were characterized using Tri101 gene sequencing data. Canadian and Iranian isolates clustered in F. graminearum lineage 7 (=F. graminearum sensu stricto) within the F. graminearum clade while the isolates received from CIMMYT, Mexico were placed in F. graminearum lineage 3 (=Fusarium boothii) within the Fg clade or Fusarium cerealis. The PCR assay based on the Tri12 gene revealed the presence of the NIV, 3-ADON, and 15-ADON chemotypes with 15-ADON being the predominant chemotype. While we did not find the NIV chemotype among the Canadian isolates, it was the predominant chemotype among the Iranian isolates. High variation in aggressiveness was observed among and within Fusarium species tested, with the isolates of F. graminearum sensu stricto being the most aggressive and the NIV chemotype being the least aggressive. The interactions between Fusarium isolates and wheat genotypes from different sources were investigated by inoculating isolates of F. graminearum sensu stricto and F. boothii on wheat genotypes. Significant differences were observed among the genotypes inoculated by single isolates. Results also showed significant interactions between Fusarium isolates and wheat genotypes. The F. boothii isolates from CIMMYT produced low disease symptom and infection on wheat genotypes regardless of the origin of the genotypes while F. graminearum sensu stricto isolates from Canada and Iran resulted in higher FHB scores.

Wheat

Triticum aestivum

Triticum timopheevii

Brio

TC 67

Fusarium head blight

Quantitative trait loci

resistance

5AL

5BS

plant height

number of days to anthesis

awnedness

spike threshability

Tri101

Fusarium graminearum

Fusarium boothii

Fusarium cerealis

Lineage 7

Lineage 3

Tri12

NIV

3-ADON

15-ADON

aggressiveness

host-pathogen interaction

Revisitando o eletrocorticograma intra-operat?rio na epilepsia mesial do lobo temporal: relev?ncia das oscila??es de alta frequ?ncia

Silva, Anderson Brito da

13 December 2013

Made available in DSpace on 2014-12-17T15:28:53Z (GMT). No. of bitstreams: 1 AndersonBS_DISSERT.pdf: 4240084 bytes, checksum: 0331343a1aab5e54d0d9cb6baeccb72d (MD5) Previous issue date: 2013-12-13 / Epilepsies are neurological disorders characterized by recurrent and spontaneous seizures due to an abnormal electric activity in a brain network. The mesial temporal lobe epilepsy (MTLE) is the most prevalent type of epilepsy in adulthood, and it occurs frequently in association with hippocampal sclerosis. Unfortunately, not all patients benefit from pharmacological treatment (drug-resistant patients), and therefore become candidates for surgery, a procedure of high complexity and cost. Nowadays, the most common surgery is the anterior temporal lobectomy with selective amygdalohippocampectomy, a procedure standardized by anatomical markers. However, part of patients still present seizure after the procedure. Then, to increase the efficiency of this kind of procedure, it is fundamental to know the epileptic human brain in order to create new tools for auxiliary an individualized surgery procedure. The aim of this work was to identify and quantify the occurrence of epilepticform activity -such as interictal spikes (IS) and high frequency oscillations (HFO) - in electrocorticographic (ECoG) signals acutely recorded during the surgery procedure in drug-resistant patients with MTLE. The ECoG recording (32 channels at sample rate of 1 kHz) was performed in the surface of temporal lobe in three moments: without any cortical resection, after anterior temporal lobectomy and after amygdalohippocampectomy (mean duration of each record: 10 min; N = 17 patients; ethic approval #1038/03 in Research Ethic Committee of Federal University of S?o Paulo). The occurrence of IS and HFO was quantified automatically by MATLAB routines and validated manually. The events rate (number of events/channels) in each recording time was correlated with seizure control outcome. In 8 hours and 40 minutes of record, we identified 36,858 IS and 1.756 HFO. We observed that seizure-free outcome patients had more HFO rate before the resection than non-seizure free, however do not differentiate in relation of frequency, morphology and distribution of IS. The HFO rate in the first record was better than IS rate on prediction of seizure-free patients (IS: AUC = 57%, Sens = 70%, Spec = 71% vs HFO: AUC = 77%, Sens = 100%, Spec = 70%). We observed the same for the difference of the rate of pre and post-resection (IS: AUC = 54%, Sens = 60%, Spec = 71%; vs HFO: AUC = 84%, Sens = 100%, Spec = 80%). In this case, the algorithm identifies all seizure-free patients (N = 7) with two false positives. To conclude, we observed that the IS and HFO can be found in intra-operative ECoG record, despite the anesthesia and the short time of record. The possibility to classify the patients before any cortical resection suggest that ECoG can be important to decide the use of adjuvant pharmacological treatment or to change for tailored resection procedure. The mechanism responsible for this effect is still unknown, thus more studies are necessary to clarify the processes related to it / As epilepsias s?o dist?rbios neurol?gicos caracterizados por crises espont?neas e recorrentes, resultantes de uma atividade el?trica anormal de uma rede neural. Dentre os diferentes tipos de epilepsia, a epilepsia mesial do lobo temporal (EMLT) ? a mais observada em adultos, sendo frequentemente associada ? esclerose hipocampal. Infelizmente, nem todos os pacientes s?o beneficiados pelo tratamento farmacol?gico (pacientes f?rmaco-resistentes). Para estes sujeitos, uma alternativa ? a realiza??o de cirurgia, um procedimento de alta complexidade e elevado custo. Atualmente, o procedimento mais realizado ? a lobectomia temporal anterior com amigdalo-hipocampectomia seletiva, uma cirurgia padronizada por marcos anat?micos. Entretanto, uma parcela dos pacientes continua a apresentar crises incapacitantes ap?s o tratamento cir?rgico. Desta forma, para aumentar a efici?ncia deste tipo de tratamento, ? fundamental a compreens?o do enc?falo humano epil?ptico com vistas a se criar ferramentas que auxiliem na realiza??o de procedimentos individualizados. O objetivo do presente trabalho foi identificar e quantificar a ocorr?ncia de atividade epileptiforme - esp?culas interictais (EI) e oscila??es de alta frequ?ncia (OAF) - em registros eletrocorticogr?ficos (ECoG) realizados durante procedimento cir?rgico em pacientes com EMLT refrat?ria ao tratamento farmacol?gico. Registros ECoG (32 canais a uma taxa de amostragem de 1 kHz) foram realizados na superf?cie do lobo temporal em 3 momentos cir?rgicos: no c?rtex intacto, ap?s lobectomia temporal anterior e ap?s amigdalo-hipocampectomia (dura??o m?dia de cada um desses registros: 10 min; N=17 pacientes). A ocorr?ncia de EI e OAF foi quantificada automatica-mente, por meio de rotinas em MATLAB, e validadas manualmente. A taxa de ocorr?ncia em cada um dos tempos cir?rgicos foi correlacionada com o resultado cir?rgico quanto ao controle das crises, num seguimento de 2 anos. De um total de 8 h e 40 min de registro, identificamos 36.858 EI e 1.756 OAF. Observamos que os pacientes que ficaram livres de crises no p?s-operat?rio apresentaram maior quanti-dade de OAF antes da cirurgia do que aqueles que continuaram a ter crises; por?m, n?o diferiram quanto a frequ?ncia, morfologia e distribui??o de EI. A ocorr?ncia de OAF no registro basal apresentou melhor desempenho que as EI na previs?o do controle total das crises no p?s-operat?rio (EI: AUC = 57%, S = 71% , E = 70% vs OAF: AUC = 77%, S = 100%, E=70%). O mesmo foi observado com a varia??o da ocorr?ncia entre os momentos pr?- e p?s-ressec??o (EI: AUC = 54%, S = 71%, E = 60% vs OAF: AUC = 84%, S = 100%, E = 80%). Nesse caso, o classificador foi capaz de identificar todos os pacientes livres de crises (N = 7) , apresentando apenas dois falsos positivos. Desta forma, podemos concluir que as OAF, juntamente com as EI, podem ser encontradas no registro ECoG intra-operat?rio, mesmo na presen?a de anest?sicos e em uma curta sess?o de registro. Al?m disso, a observa??o de que a ocorr?ncia desses eventos no in?cio da cirurgia permite classificar o paciente quanto ao progn?stico cir?rgico abre caminho para aplicar o ECoG intra-operat?rio, por exemplo, na decis?o sobre o uso de tratamento farmacol?gico adjuvante ou da convers?o para ressec??es individualizadas. No entanto, o mecanismo respons?vel por esse efeito ainda ? desconhecido, logo novos estudos s?o necess?rios para melhor esclarec?-lo

Atomic scale simulations of noble gases behaviour in uranium dioxide / Simulations à l'échelle atomique du comportement des gaz nobles dans le dioxyde d'uranium

Govers, Kevin

27 June 2008

Nuclear fuel performance is highly affected by the behaviour of fission gases, particularly<p>at elevated burnups, where large amounts of gas are produced and can<p>potentially be released. The importance of fission gas release was the motivation<p>for large efforts, both experimentally and theoretically, in order to increase our<p>understanding of the different steps of the process, and to continuously improve<p>our models.<p>Extensions to higher burnups, together with the growing interest in novel types<p>of fuels such as inert matrix fuels envisaged for the transmutation of minor actinides,<p>make that one is still looking for a permanently better modelling, based<p>on a physical understanding and description of all stages of the release mechanism.<p>Computer simulations are nowadays envisaged in order to provide a better<p>description and understanding of atomic-scale processes such as diffusion, but even<p>in order to gain insight on specific processes that are inaccessible by experimental<p>means, such as the fuel behaviour during thermal spikes.<p>In the present work simulation techniques based on empirical potentials have<p>been used, focusing in a first stage on pure uranium dioxide. The behaviour of<p>point defects was at the core of this part, but also the estimation of elastic and<p>melting properties.<p>Then, in a second stage, the study has been extended to the behaviour of helium<p>and xenon. For helium, the diffusion in different domains of stoichiometry<p>was considered. The simulations enabled to determine the diffusion coefficient and<p>the migration mechanism, using both molecular dynamics and static calculation<p>techniques. Xenon behaviour has been investigated with the additional intention<p>to model the behaviour of small intragranular bubbles, particularly their interaction<p>with thermal spikes accompanying the recoil of fission fragments. For that<p>purpose, a simplified description of these events has been proposed, which opens<p>perspectives for further work.<p>/<p>Les performances du combustible nucléaire sont fortement affectées par le comportement<p>des gaz de fission, et ce particulièrement lorsqu’un taux d’épuisement<p>élevé est atteint, puisque d’importantes quantités de gaz sont alors produites<p>et peuvent potentiellement être relâchées. Les enjeux, entre autre économiques,<p>liés au relâchement de gaz de fission ont donné lieu à d’importants efforts, tant<p>sur le plan expérimental que théorique, afin d’accroître notre compréhension des<p>différentes étapes du processus, et d’améliorer sans cesse les mod`eles. Les extensions<p>à des taux d’épuisements encore plus élevés ainsi que l’intérêt croissant pour<p>de nouveaux types de combustible tels que les matrices inertes, envisages en vue<p>de la transmutation des actinides mineures, font qu’à l’heure actuelle, le besoin<p>permanent d’une meilleure modélisation, basée sur une compréhension et une description<p>physique des différentes étapes du processus de relâchement de gaz de<p>fission, est toujours de mise.<p>Les simulations par ordinateur ont ainsi été considérée comme un nouvel angle<p>de recherche sur les processus élémentaires se produisant à l’échelle atomique, à la<p>fois afin d’obtenir une meilleure compréhension de processus tels que la diffusion<p>atomique ;mais aussi afin d’avoir accès à certains processus qui ne sont pas observables<p>par des voies expérimentales, tels que la le comportement du combustible<p>lors de pointes thermiques.<p>Dans ce travail, deux techniques, basées sur l’utilisation de potentiels interatomiques<p>empiriques, ont permis d’étudier le dioxyde d’uranium, dans un premier<p>temps en l’absence d’impuretés. Cette partie était principalement centrée sur le<p>comportement des défauts ponctuels, mais a aussi concerné différentes propriétés<p>élastiques, ainsi que le processus de fusion du composé.<p>Ensuite l’étude a été étendue aux comportements de l’hélium de du xénon. Pour<p>ce qui a trait à l’hélium, la diffusion dans différents domaines de stoechiométrie<p>a été considérée. Les simulations ont permis de déterminer le coefficient de diffusion<p>ainsi que le mécanisme de migration lui-même. Quant au xénon, outre les<p>propriétés de diffusion, l’intention fut de se diriger vers la modélisation des petites<p>bulles intragranulaires, et plus précisément vers leur interaction avec les pointes<p>thermiques, créées lors du recul des fragments de fission. Une description simplifiée de ce processus a été proposée, qui offre de nouvelles perspectives dans ce<p>domaine.<p><p> / Doctorat en Sciences de l'ingénieur / info:eu-repo/semantics/nonPublished

Sciences de l'ingénieur

Physique

Gases, Rare -- Computer simulation

Scattering (Physics)

Nuclear engineering -- Materials

Nuclear fuels

Uranium

Gaz rares -- Simulation par ordinateur

Diffusion (Physique nucléaire)

Génie nucléaire -- Matériaux

Combustibles nucléaires

Uranium

molecular dynamics

interatomic potential

thermal spike / dynamique moléculaire

potentiel interatomique

pointe thermique

Modulation of cerebellar Purkinje cell discharge by subthreshold granule cell inputs / Modulation de la décharge des cellules de Purkinje du cervelet par des entrées sous-seuils des cellules des grains

Grangeray-Vilmint, Anais

02 June 2016

La décharge des cellules de Purkinje (CP), neurone de sortie du cortex cérébelleux, joue un rôle majeur dans le contrôle moteur. Les CP reçoivent des entrées excitatrices provenant des cellules des grains (CG), lesquelles génèrent également une inhibition antérograde sur les CP via l’activation d’interneurones de la couche moléculaire (IN). Lors de ma thèse, j’ai étudié l’influence simultanée de la balance excitation-inhibition (E/I) et des plasticités à court terme aux synapses CG-IN-CP sur la décharge des CP, par des techniques d’électrophysiologie, d’optogénétique et de simulation. Ces travaux démontrent l’existence d’une hétérogénéité d’E/I dans le cortex cérébelleux ainsi qu’une grande diversité de modulation des CP en réponse à la stimulation de CG. Le nombre de stimulation des CG influence fortement la direction et l’intensité de la modulation observée. Enfin, la combinaison de plasticités à court terme et d’E/I génère dans la décharge des CP des motifs de réponses complexes mais reproductibles, ayant sans doute un rôle essentiel dans l’encodage sensoriel. / Rate and temporal coding in Purkinje cells (PC), the sole output of the cerebellar cortex, play a major role in motor control. PC receives excitatory inputs from granule cells (GC) which also provide feedforward inhibition on PC through the activation of molecular layer interneurons (MLI). In this thesis, I studied the influence of the combined action of excitation/inhibition (E/I) balance and short-term plasticity of GC-MLI-PC synapses on PC discharge, by using electrophysiological recordings, optogenetic stimulation and modelling. This work demonstrates that E/I balances are not equalized in the cerebellar cortex and showed a wide distribution of PC discharge modulation in response to GC inputs, from an increase to a shut down of the discharge. The number of stims in GC bursts strongly controls the strength and sign of PC modulation. Lastly, the interplay between short-term plasticity and E/I balance implements complex but reproducible output patterns of PC responses to GC inputs that should play a key role in stimulus encoding by the cerebellar cortex.

Cellule de Purkinje

Cellule des grains

Cervelet

Électrophysiologie in vitro

Potentiel d’action

Codage neuronal

Balance excitation-inhibition

Plasticités synaptiques à court terme

Neurosciences

Purkinje cell

Granule cell

Cerebellum

In vitro electrophysiology

Spike

Feedforward inhibition

Short-term synaptic plasticity

Neural coding

Excitation-inhibition balance

Neuroscience

573.8

616.8