Modeling, Design And Evaluation Of Networking Systems And Protocols Through Simulation

Lacks, Daniel Jonathan

01 January 2007

Computer modeling and simulation is a practical way to design and test a system without actually having to build it. Simulation has many benefits which apply to many different domains: it reduces costs creating different prototypes for mechanical engineers, increases the safety of chemical engineers exposed to dangerous chemicals, speeds up the time to model physical reactions, and trains soldiers to prepare for battle. The motivation behind this work is to build a common software framework that can be used to create new networking simulators on top of an HLA-based federation for distributed simulation. The goals are to model and simulate networking architectures and protocols by developing a common underlying simulation infrastructure and to reduce the time a developer has to learn the semantics of message passing and time management to free more time for experimentation and data collection and reporting. This is accomplished by evolving the simulation engine through three different applications that model three different types of network protocols. Computer networking is a good candidate for simulation because of the Internet's rapid growth that has spawned off the need for new protocols and algorithms and the desire for a common infrastructure to model these protocols and algorithms. One simulation, the 3DInterconnect simulator, simulates data transmitting through a hardware k-array n-cube network interconnect. Performance results show that k-array n-cube topologies can sustain higher traffic load than the currently used interconnects. The second simulator, Cluster Leader Logic Algorithm Simulator, simulates an ad-hoc wireless routing protocol that uses a data distribution methodology based on the GPS-QHRA routing protocol. CLL algorithm can realize a maximum of 45% power savings and maximum 25% reduced queuing delay compared to GPS-QHRA. The third simulator simulates a grid resource discovery protocol for helping Virtual Organizations to find resource on a grid network to compute or store data on. Results show that worst-case 99.43% of the discovery messages are able to find a resource provider to use for computation. The simulation engine was then built to perform basic HLA operations. Results show successful HLA functions including creating, joining, and resigning from a federation, time management, and event publication and subscription.

software simulation

HLA/RTI

distributed computing

computer networking

grid computing

wireless ad-hoc cluster routing

k-array n-cube wormhole routing

Computer Engineering

Engineering

[en] ANALYSIS OF THE PARAMETERS OF FRICTION WELDING (FSW) THROUGH THE MEASURES OF TORQUE AND FORCES INVOLVED IN THE PROCESS / [pt] ANÁLISE DOS PARÂMETROS DE SOLDAGEM POR FRICÇÃO (FSW) ATRAVÉS DAS MEDIDAS DE TORQUE E FORÇAS ENVOLVIDAS NO PROCESSO

MARCOS VINICIUS DE OLIVEIRA MARTINS

28 August 2020

[pt] A união de materiais por soldagem é um dos processos mais utilizados na fabricação de estruturas. A soldagem traz maior confiabilidade, segurança ao projeto e resistência mecânica das uniões. Atualmente, diversas indústrias, tais como aeronáutica e automotiva, têm procurando utilizar materiais de baixa densidade e alta resistência mecânica, como as ligas de magnésio e de alumínio. Porém, estas ligas dificultam o processo de união através da soldagem convencional, que tem no seu principal fundamento a fusão do material, por possuírem baixa soldabilidade. Nas ligas de Mg e de Al há a formação uma camada de óxido que precisa ser removida durante o processo de soldagem, além de apresentarem grande susceptibilidade a geração de defeitos, tais como trincas e poros durante o processo de resfriamento da solda. A soldagem por fricção ou por mistura mecânica (FSW) foi desenvolvida como uma alternativa às técnicas de soldagem e uso mais comum existente na indústria, pois esta técnica elimina a fusão do material reduzindo, assim, os defeitos que surgiriam com a soldagem convencional. Por ser uma solda de estado sólido, tem a possibilidade de unir materiais dissimilares, polímeros, compósitos, ligas ferrosas e não ferrosas. O presente trabalho buscou avaliar parâmetros de soldagem variando a velocidade de soldagem (ν) e velocidade de rotação da ferramenta (ômega) utilizando uma ferramenta com rosca. Foram analisados o torque e as forças presentes no processo. Os resultados foram comparados com os resultados obtidos com uma ferramenta de soldagem sem rosca. A qualidade da solda foi correlacionada com os parâmetros de soldagem utilizados por meio de ensaios de dureza e tomografia. Foi concluído que a ferramenta com rosca gera defeito de túnel e demanda maior energia do processo em relação ao torque e à força axial. O comportamento das forças envolvidas no processo foi o mesmo para ambas as geometrias de ferramenta. A microdureza ao longo do eixo neutro mostrou a mudança entre a zona de mistura, zona termicamente afetada e o metal de base. / [en] The joining of materials by welding is the process most used in the fabrication of structures. Welding brings greater reliability, safety to the design and mechanical strength of the joints. Today, many industries, such as aeronautics and automotive, are looking to use low density and high mechanical strength materials such as magnesium and aluminum alloys. However, these alloys hinder the bonding process through conventional welding, which has in its main foundation the melting of the material, because they have low weldability. In Mg and Al alloys there is a layer of oxide that needs to be removed during the welding process, besides being very susceptible to the generation of defects, such as cracks and pores during the process of cooling the weld. Friction stir welding (FSW) was developed as an alternative to most commonly used in industry welding techniques, as this technique eliminates melting of the material thus reducing defects that would arise with conventional welding. To being a solid state weld, it has the possibility of joining dissimilar materials, polymers, composites, ferrous and non-ferrous alloys. The present work seeked to evaluate welding parameters by varying the welding speed (ν) and tool rotation (omega) using a threaded tool. The torque and forces were analyzed and the results will be compared with the results obtained with a threadless welding tool. The quality of the weld will be correlated with the welding parameters used by means of hardness test and tomography. It was concluded that the threaded tool generates tunnel defect and demands higher process energy. The behavior of the forces involved in the process was the same for both tool geometries. The microhardness along the neutral axis showed the clear the change between the mixing zone, thermally affected zone and the base metal.

[pt] TORQUE

[pt] DEFEITO DE TUNEL

[pt] MICRODUREZA

[pt] FERRAMENTA COM ROSCA

[pt] FORCA AXIAL

[pt] SOLDAGEM POR FRICCAO

[en] TORQUE

[en] WORMHOLE

[en] MICROHARDNESS

[en] THREADED TOOL

[en] AXIAL FORCE

[en] FRICTION STIR WELDING

The Petz (lite) recovery map for scrambling channel / スクランブリングなチャンネルに対するペッツ(ライト)復元写像

Nakayama, Yasuaki

25 March 2024

京都大学 / 新制・課程博士 / 博士(理学) / 甲第25109号 / 理博第5016号 / 京都大学大学院理学研究科物理学・宇宙物理学専攻 / (主査)教授 橋本 幸士, 教授 杉本 茂樹, 教授 田島 治 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DFAM

Black hole information loss problem

Hayden-Preskill decoding protocol

Petz recovery map

SYK model

Quantum chaos

Replica wormhole

Quantum Error Correction

400

Teoria escalar-tensorial: Uma abordagem geométrica

Almeida, Tony Silva

29 July 2014

Submitted by Vasti Diniz (vastijpa@hotmail.com) on 2017-09-13T14:39:21Z No. of bitstreams: 1 arquivototal.pdf: 851323 bytes, checksum: 599a5da8bbbe70ff2f4ba121890878e2 (MD5) / Made available in DSpace on 2017-09-13T14:39:21Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 851323 bytes, checksum: 599a5da8bbbe70ff2f4ba121890878e2 (MD5) Previous issue date: 2014-07-29 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / In this cool thesis, we consider an approach to Brans-Dicke theory of gravity in which the scalar eld has a geometrical nature. By postulating the Palatini variation, we nd out that the role played by the scalar eld consists in turning the space-time geometry into a Weyl integrable manifold. This procedure leads to a scalar-tensor theory that di ers from the original Brans-Dicke theory in many aspects and presents some new features. We also consider the Weyl integrable geometry to investigate gravity in (2+1)-dimensions. We show that, in addition to leading to a Newtonian limit, WIST in (2+1) dimensions presents some interesting properties that are not shared by Einstein theory, such as geodesic deviation between particles in a dust distribution. Finally, taking advantage of the duality between the geometrical scalar-tensor theory and general relativity coupled with a massless scalar eld we study naked singularities and wormholes. / Esta tese trata de tópicos relacionados às teorias escalares-tensoriais e a geometria de Weyl integrável. Nossa abordagem será no sentido de indicar a geometria de Weyl integr ável como sendo um ambiente natural para a introdução de teorias escalares-tensorias. Nossa discussão será em torno da teoria de Brans-Dicke, considerada o protótipo das teorias escalares tensoriais, no entanto a discussão é facilmente estendida para essas versões mais gerais. Fazemos isso em dois momentos. Primeiro, indicando, no âmbito da teoria de Brans-Dicke, que na estrutura geométrica e de campos adotadas pela teoria existe uma relação estreita com a geometria de Weyl, inclusive associando o efeito descrito na literatura como "quinta força"(que violaria o princípio de equivalência) com o movimento geodésico da geometria de Weyl integrável, reformulando o postulado geodésico. E, num segundo momento, usando o método variacional de Palatini, acabamos por formular uma nova teoria escalar-tensorial, agora com ingredientes completamente geométricos, ambientada numa geometria de Weyl integrável. Estudamos ainda soluções no vazio do problema estático de uma distribuição de massa esfericamente simétrica, onde surgem objetos de interesse astrofísico como singularidades nuas e buracos de minhoca. Também formulamos a teoria conhecida por WIST (Weyl Integrable Spacetimes) em (2 + 1)D, o que resulta numa teoria consistente, não sofrendo das falhas associadas à teoria da relatividade geral nessa dimensionalidade

Teoria escalar-tensor

Teoria de Brans-Dicke

Geometria de Weyl

singularidade nua

Buraco de minhoca

Gravitação em (2+1)D

Scalar-tensor theories

Brans-Dicke theory

Weyl integrable geometry

Naked singularity

Wormhole

(2+1) gravity

CIENCIAS EXATAS E DA TERRA::FISICA

Quantum structure of holographic black holes / Kvantstruktur hos holografiska svarta hål

Riedel Gårding, Elias

January 2020

We study a free quantum scalar field in the BTZ spacetime as a model of the AdS/CFT correspondence for black holes, and show the essential steps in computing Bogolyubov coefficients between modes on either side of the wormhole. As background, we review the BTZ geometry in standard, Kruskal and Poincaré coordinates, holographic renormalisation of the dual field theory and canonical quantisation in curved spacetime. / Vi studerar ett fritt skalärt kvantfält i BTZ-rumtiden som en modell av AdS/CFT-dualiteten för svarta hål och visar huvudstegen i beräkningen av Bogolyubov-koefficienter mellan moder på olika sidor av maskhålet. Som bakgrund redogör vi för BTZ-geometrin i standard-, Kruskal- och Poincarékoordinater, holografisk renormering av den duala fältteorin och kanonisk kvantisering i krökt rumtid.

BTZ spacetime

black hole

wormhole

AdS/CFT

holographic renormalisation

analytic continuation

Bogolyubov transformation

QFT in curved spacetime

BTZ-rumtid

svart hål

maskhål

AdS/CFT

holografisk renormering

analytisk fortsättning

Bogolyubov-transformation

kvanfältsteori i krökt rumtid

Physical Sciences

Fysik

Stroj času jako kulečník / Billiard time machine

Dolanský, Jindřich

January 2011

Title: Billiard time machine Author: Jindřich Dolanský Department: Institute of Theoretical Physics Supervisor: doc. RNDr. Jiří Langer, CSc. Supervisor's e-mail address: Jiri.Langer@mff.cuni.cz Abstract: In this work we investigate a simple interacting system of an elastic particle in the non-relativistic spacetime with a nontrivial causal structure realized by a worm- hole with a time shift. We require that standard local physical laws hold, and search for their globally consistent solutions, i.e, we assume the validity of the principle of self-consistency. If there were nontrivial set of initial conditions which would violate this principle, the system would be logically inconsistent. We show that the investigated system is not inconsistent in this sense, i.e., that all standard initial conditions have a globally consistent evolution. Even for the so called dangerous initial conditions which threaten to result into the paradoxical situation a consistent solution exists. In this case, the paradoxical collision-free trajectory is superseded by a special consistent self-colliding trajectory. Moreover, we demonstrate that more than one globally consistent evolution exists for a wide class of initial conditions. Thus, the evolution of the described system is not unique due to the nontrivial causal structure...