Magnetic fluctuations and clusters in the itinerant ferromagnet Ni-V close to a disordered quantum critical point

Wang, Ruizhe

23 April 2019

No description available.

Condensed Matter Physics

Physics

Experiments

quantum phase transition

quantum Griffiths phase

muon spin rotation

atomic pair correlation

ferromagnetic system

magnetic fluctuation

magnetic cluster

The Characterization and Utilization of Middle-range Sequence Patterns within the Human Genome

Shepard, Samuel Steven

20 May 2010

No description available.

Bioinformatics

Markov

gene prediction

sequence classification

abstraction

bioinformatics

genomics

UTR

untranslated region

machine learning

support vector machine

homogeneous model

non-randomness

MRI

mid-range inhomogeneity

Design of a Hardware Security PUF Immune to Machine Learning Attacks

Pundir, Nitin K., Pundir

January 2017

No description available.

Electrical Engineering

Engineering

Arbiter PUF

Ring Oscillator PUF

Uniqueness

Randomness

Modeling Attacks

Machine Learning Attacks

NIST

Physical Unclonable Functions

Hardware Security

Sequence alignment

Chia, Nicholas Lee-Ping

13 September 2006

No description available.

Biophysics, General

sequence alignment

alignment statistics

significance assessment

asymmetric exclusion process

scaling function

longest common subsequence

bernoulli randomness approximation

disordered bonds approximation

Universal homophonic coding

Stevens, Charles Cater

11 1900

Redundancy in plaintext is a fertile source of attack in any encryption system. Compression before encryption reduces the redundancy in the plaintext, but this does not make a cipher more secure. The cipher text is still susceptible to known-plaintext and chosen-plaintext attacks. The aim of homophonic coding is to convert a plaintext source into a random sequence by randomly mapping each source symbol into one of a set of homophones. Each homophone is then encoded by a source coder after which it can be encrypted with a cryptographic system. The security of homophonic coding falls into the class of unconditionally secure ciphers. The main advantage of homophonic coding over pure source coding is that it provides security both against known-plaintext and chosen-plaintext attacks, whereas source coding merely protects against a ciphertext-only attack. The aim of this dissertation is to investigate the implementation of an adaptive homophonic coder based on an arithmetic coder. This type of homophonic coding is termed universal, as it is not dependent on the source statistics. / Computer Science / M.Sc. (Computer Science)

Arithmetic coding

Adaptive models

Cryptography

Data compression

Homophonic coding

Homophonic substitution

Modelling

randomness

Statistical testing

Secrecy

Unconditional scurity

005.82

Data compression (Computer science)

Computer security

Data encryption (Computer science)

Cryptography (Computer science)

Ciphers -- Computer science

Homophonic coding

Extremal hypergraph theory and algorithmic regularity lemma for sparse graphs

Hàn, Hiêp

18 October 2011

Einst als Hilfssatz für Szemerédis Theorem entwickelt, hat sich das Regularitätslemma in den vergangenen drei Jahrzehnten als eines der wichtigsten Werkzeuge der Graphentheorie etabliert. Im Wesentlichen hat das Lemma zum Inhalt, dass dichte Graphen durch eine konstante Anzahl quasizufälliger, bipartiter Graphen approximiert werden können, wodurch zwischen deterministischen und zufälligen Graphen eine Brücke geschlagen wird. Da letztere viel einfacher zu handhaben sind, stellt diese Verbindung oftmals eine wertvolle Zusatzinformation dar. Vom Regularitätslemma ausgehend gliedert sich die vorliegende Arbeit in zwei Teile. Mit Fragestellungen der Extremalen Hypergraphentheorie beschäftigt sich der erste Teil der Arbeit. Es wird zunächst eine Version des Regularitätslemmas Hypergraphen angewandt, um asymptotisch scharfe Schranken für das Auftreten von Hamiltonkreisen in uniformen Hypergraphen mit hohem Minimalgrad herzuleiten. Nachgewiesen werden des Weiteren asymptotisch scharfe Schranken für die Existenz von perfekten und nahezu perfekten Matchings in uniformen Hypergraphen mit hohem Minimalgrad. Im zweiten Teil der Arbeit wird ein neuer, Szemerédis ursprüngliches Konzept generalisierender Regularitätsbegriff eingeführt. Diesbezüglich wird ein Algorithmus vorgestellt, welcher zu einem gegebenen Graphen ohne zu dichte induzierte Subgraphen eine reguläre Partition in polynomieller Zeit berechnet. Als eine Anwendung dieses Resultats wird gezeigt, dass das Problem MAX-CUT für die oben genannte Graphenklasse in polynomieller Zeit bis auf einen multiplikativen Faktor von (1+o(1)) approximierbar ist. Der Untersuchung von Chung, Graham und Wilson zu quasizufälligen Graphen folgend wird ferner der sich aus dem neuen Regularitätskonzept ergebende Begriff der Quasizufälligkeit studiert und in Hinsicht darauf eine Charakterisierung mittels Eigenwertseparation der normalisierten Laplaceschen Matrix angegeben. / Once invented as an auxiliary lemma for Szemerédi''s Theorem the regularity lemma has become one of the most powerful tools in graph theory in the last three decades which has been widely applied in several fields of mathematics and theoretical computer science. Roughly speaking the lemma asserts that dense graphs can be approximated by a constant number of bipartite quasi-random graphs, thus, it narrows the gap between deterministic and random graphs. Since the latter are much easier to handle this information is often very useful. With the regularity lemma as the starting point two roads diverge in this thesis aiming at applications of the concept of regularity on the one hand and clarification of several aspects of this concept on the other. In the first part we deal with questions from extremal hypergraph theory and foremost we will use a generalised version of Szemerédi''s regularity lemma for uniform hypergraphs to prove asymptotically sharp bounds on the minimum degree which ensure the existence of Hamilton cycles in uniform hypergraphs. Moreover, we derive (asymptotically sharp) bounds on minimum degrees of uniform hypergraphs which guarantee the appearance of perfect and nearly perfect matchings. In the second part a novel notion of regularity will be introduced which generalises Szemerédi''s original concept. Concerning this new concept we provide a polynomial time algorithm which computes a regular partition for given graphs without too dense induced subgraphs. As an application we show that for the above mentioned class of graphs the problem MAX-CUT can be approximated within a multiplicative factor of (1+o(1)) in polynomial time. Furthermore, pursuing the line of research of Chung, Graham and Wilson on quasi-random graphs we study the notion of quasi-randomness resulting from the new notion of regularity and concerning this we provide a characterisation in terms of eigenvalue separation of the normalised Laplacian matrix.

Hypergraphen

Hamiltonkreise

perfekte Matchings

algorithmisches Regularitätslemma

Quasizufälligkeit

Eigenwertseparation

Diskrepanz

quasi-randomness

hypergraphs

Hamilton cycles

perfect matchings

algorithmic regularity lemma

eigenvalue separation

discrepancy

004 Informatik

28 Informatik, Datenverarbeitung

ddc:004

Universal homophonic coding

Stevens, Charles Cater

11 1900

Redundancy in plaintext is a fertile source of attack in any encryption system. Compression before encryption reduces the redundancy in the plaintext, but this does not make a cipher more secure. The cipher text is still susceptible to known-plaintext and chosen-plaintext attacks. The aim of homophonic coding is to convert a plaintext source into a random sequence by randomly mapping each source symbol into one of a set of homophones. Each homophone is then encoded by a source coder after which it can be encrypted with a cryptographic system. The security of homophonic coding falls into the class of unconditionally secure ciphers. The main advantage of homophonic coding over pure source coding is that it provides security both against known-plaintext and chosen-plaintext attacks, whereas source coding merely protects against a ciphertext-only attack. The aim of this dissertation is to investigate the implementation of an adaptive homophonic coder based on an arithmetic coder. This type of homophonic coding is termed universal, as it is not dependent on the source statistics. / Computer Science / M.Sc. (Computer Science)

Arithmetic coding

Adaptive models

Cryptography

Data compression

Homophonic coding

Homophonic substitution

Modelling

randomness

Statistical testing

Secrecy

Unconditional scurity

005.82

Data compression (Computer science)

Computer security

Data encryption (Computer science)

Cryptography (Computer science)

Ciphers -- Computer science

Homophonic coding

Desenvolvimento de métodos para a geração e controle da emissão em lasers aleatórios e speckle / Generation and control of random lasers emission and speckle

SILVA, DANILO M. da

11 November 2016

Submitted by Claudinei Pracidelli (cpracide@ipen.br) on 2016-11-11T11:16:35Z No. of bitstreams: 0 / Made available in DSpace on 2016-11-11T11:16:35Z (GMT). No. of bitstreams: 0 / Neste trabalho serão apresentados novos métodos baseados na geração e controle de comprimento de onda em lasers aleatórios e lasers de diodo. Na primeira parte do trabalho será demonstrado um laser aleatório com realimentação localizada em filmes em biopolímeros dopado com corante. O filme é constituído por um ácido desoxirribonucleico e cloreto de cetiltrimetilamônio (DNA-CTMA) dopado com DCM. No dispositivo proposto, a realimentação óptica para o laser aleatório é dada por centros de dispersão posicionados aleatoriamente ao longo das bordas da área ativa. Os elementos de dispersão são nanopartículas de dióxido de titânio (TiO2) ou defeitos aleatórios na interface entre o polímero ativo e ar. Diferentes espectros de emissão são observados, dependendo da geometria da área excitada. Um único ressonador aleatório com dimensões de 2.6 x 0.65 mm2 foi fabricado com emissão aleatória com realimentação obtida pela excitação do dispositivo por completo. A segunda parte deste trabalho apresenta um novo método para a geração e manipulação de franjas de contorno por meio de interferometria speckle com comprimento de onda sintética, usando um único laser de diodo com cavidade externa. A cavidade externa permite sintonizar duas emissões simultaneamente, o que por sua vez muda o intervalo entre as franjas de contorno do interferômetro, além de aumentar a estabilidade do laser. Uma análise de Fourier é proposta como alternativa para medir o comprimento de onda sintético resultante das duas emissões do laser. / Tese (Doutorado em Tecnologia Nuclear) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP

lasers

randomness

laser radiation

proximity scattering

proton-emission decay

photon emission

proton spectra

emission spectroscopy

electromagnetic radiation

electromagnetic interactions

polysaccharides

mucopolysaccharides

carboxylic acids

microgeneration

nanostructures

nanotechnology

fourier analysis

fourier transformation

Information theory for multi-party peer-to-peer communication protocols / Théorie de l’information pour protocoles de communication peer-to-peer

Urrutia, Florent

25 May 2018

Cette thèse a pour sujet les protocoles de communication peer-to-peer asynchrones. Nous introduisons deux mesures basées sur la théorie de l'information,la Public Information Complexity (PIC) et la Multi-party Information Complexity (MIC), étudions leurs propriétés et leur relation avec d'autres mesures fondamentales en calcul distribué, telles que la communication complexity et la randomness complexity. Nous utilisons ensuite ces deux mesures pour étudier la fonction parité et la fonction disjointness. / This thesis is concerned with the study of multi-party communicationprotocols in the asynchronous message-passing peer-to-peer model. We introducetwo new information measures, the Public Information Complexity(PIC) and the Multi-party Information Complexity (MIC), study their propertiesand how they are related to other fundamental quantities in distributedcomputing such as communication complexity and randomness complexity.We then use these two measures to study the parity function and the disjointness function.

Public Information Complexity (PIC)

Multi-party Information Complexity (MIC)

Communication protocol

Multi-party communication

Peer-to peer model

Public Information Complexity (PIC)

Multi-party Information Complexity (MIC)

Communication complexity

Information theory

Randomness complexity

Privacy

Aléatoire et variabilité dans l’embryogenèse animale, une approche multi-échelle / Randomness and variability in animal embryogenesis, a multi-scale approach

Villoutreix, Paul

03 July 2015

Nous proposons dans cette thèse de caractériser quantitativement la variabilité à différentes échelles au cours de l'embryogenèse. Pour ce faire, nous utilisons une combinaison de modèles mathématiques et de résultats expérimentaux. Dans la première partie, nous utilisons une petite cohorte d'oursins digitaux pour construire une représentation prototypique du lignage cellulaire, reliant les caractéristiques des cellules individuelles avec les dynamiques à l'échelle de l'embryon tout entier. Ce modèle probabiliste multi-niveau et empirique repose sur les symétries des embryons et sur les identités cellulaires; cela permet d'identifier un niveau de granularité générique pour observer les distributions de caractéristiques cellulaires individuelles. Le prototype est défini comme le barycentre de la cohorte dans la variété statistique correspondante. Parmi plusieurs résultats, nous montrons que la variabilité intra-individuelle est impliquée dans la reproductibilité du développement embryonnaire. Dans la seconde partie, nous considérons les mécanismes sources de variabilité au cours du développement et leurs relations à l'évolution. En nous appuyant sur des résultats expérimentaux montrant une pénétrance incomplète et une expressivité variable de phénotype dans une lignée mutante du poisson zèbre, nous proposons une clarification des différents niveaux de variabilité biologique reposant sur une analogie formelle avec le cadre mathématique de la mécanique quantique. Nous trouvons notamment une analogie formelle entre l'intrication quantique et le schéma Mendélien de transmission héréditaire. Dans la troisième partie, nous étudions l'organisation biologique et ses relations aux trajectoires développementales. En adaptant les outils de la topologie algébrique, nous caractérisons des invariants du réseaux de contacts cellulaires extrait d'images de microscopie confocale d'épithéliums de différentes espèces et de différents fonds génétiques. En particulier, nous montrons l'influence des histoires individuelles sur la distribution spatiales des cellules dans un tissu épithélial. / We propose in this thesis to characterize variability quantitatively at various scales during embryogenesis. We use a combination of mathematical models and experimental results. In the first part, we use a small cohort of digital sea urchin embryos to construct a prototypical representation of the cell lineage, which relates individual cell features with embryo-level dynamics. This multi-level data-driven probabilistic model relies on symmetries of the embryo and known cell types, which provide a generic coarse-grained level of observation for distributions of individual cell features. The prototype is defined as the centroid of the cohort in the corresponding statistical manifold. Among several results, we show that intra-individual variability is involved in the reproducibility of the developmental process. In the second part, we consider the mechanisms sources of variability during development and their relations to evolution. Building on experimental results showing variable phenotypic expression and incomplete penetrance in a zebrafish mutant line, we propose a clarification of the various levels of biological variability using a formal analogy with quantum mechanics mathematical framework. Surprisingly, we find a formal analogy between quantum entanglement and Mendel’s idealized scheme of inheritance. In the third part, we study biological organization and its relations to developmental paths. By adapting the tools of algebraic topology, we compute invariants of the network of cellular contacts extracted from confocal microscopy images of epithelia from different species and genetic backgrounds. In particular, we show the influence of individual histories on the spatial distribution of cells in epithelial tissues.

Biologie du développement

Biologie intégrative

Embryogenèse

Oursin

Paracentrotus lividus

Poisson zèbre

Danio rerio

Squint

Epithelium

Lignage cellulaire

Pénétrance incomplète

Variabilité

Aléatoire

Processus stochastique

Géométrie de l'information

Topologie algébrique

Homologie persistante

Mécanique quantique

Developmental biology

Integrative biology

Embryogenesis

Sea urchin

Paracentrotus lividus

Zebrafish

Danio rerio

Squint

Epithelium

Cell lignage

Incomplete penetrance

Variability

Randomness

Stochastic process

Information geometry

Algebraic topology

Persistent homology

Quantum mechanics

571.8