[en] OPTICAL FIBER SENSOR DISCRIMINATOR FOR JACKETED TANKS LEAKAGE DETECTION / [pt] SENSOR DISCRIMINATIVO A FIBRA ÓPTICA PARA DETECÇÃO DE VAZAMENTO EM TANQUES JAQUETADOS

BRUNO PEREIRA ROSAS

09 December 2003

[pt] A contaminação do solo nos postos de serviço é um risco ambiental associado à atividade de distribuição de derivados de petróleo que precisa ser controlado. O aumento deste risco está diretamente ligado à idade dos tanques e tubulações e à baixa qualidade na operação dos postos. Tais problemas vêm sendo minimizados ao longo das duas ultimas décadas graças à utilização de equipamentos mais modernos e das crescentes exigências ambientais. Nesta tese foi desenvolvido e testado em laboratório um equipamento de controle ambiental, baseado em tecnologia de sensores a fibra óptica, para a detecção de vazamentos em tanques jaquetados (dupla parede). A detecção de vazamentos neste tipo de tanque tornou-se uma exigência dos órgãos de proteção ambiental. O uso de tanques jaquetados com sistema de detecção permite que seja evitado o contato dos fluidos combustíveis com o solo, pois, uma vez rompida a parede interna de aço carbono do tanque, o sistema acusa a presença de hidrocarbonetos no interstício do tanque. Outrossim, a discriminação do fluido quando ocorrido o vazamento é importante para que se possa detectar mais facilmente se o rompimento se deu na parede interna ou externa do tanque, possibilitando um rápido diagnóstico e a conseqüente tomada de medidas corretivas do problema. Com a evolução legislativa no campo ambiental e o foco do Poder Público na garantia de uma maior qualidade de vida, o País está passando por um momento de transição onde, em um curto espaço de tempo, quase que 70 por cento dos tanques em operação deverão ser substituídos. Dessa feita, o equipamento para monitoramento ambiental desenvolvido nesta tese visa também tornar economicamente possível a substituição do atual parque de tanques por novos, já com sensores ópticos incorporados. / [en] Soil contamination due to leakage of hydrocarbon fuels from tanks in service stations is an environmental risk associated with the distribution segment of the petroleum industry. Such risk is closely related to ageing tanks and piping systems, as well as to the lack of quality assurance practices in service stations. This problem is being reduced during the last two decades, mainly due to use of modern equipment that must adhere to more rigid environmental legislation. In this thesis, an optical fiber sensor, able to discriminate different liquids, has been developed as a part of a leakage detection system employed to monitor jacketed tanks used to store alcohol or hydrocarbon or fuels. Leakage detection in this type of storage tanks plays an important role to minimize problems due to soil contamination and is now required according to new environmental legislation. If fuel leaks through the carbon steel wall of jacketed tanks it will be contained, within an interstitial space, by the outer, fiber reinforced, polymeric wall of the tank. Presence of fluid in the interstitial space is monitored by the optical fiber sensor, which sends a warning to the service station operator, which immediately has to start maintenance procedures. The capability of discriminating different fuels will allow the operator to quickly identify from which tank compartment the leakage has originated, or, if water coming from the soil has been detected, that the outer wall of the tank has been damaged and needs to be repaired.

[pt] POSTO DE SERVICO

[en] SERVICE DESK

[pt] TANQUE JAQUETADO

[en] JACKETED TANKS

[pt] MONITORAMENTO INTERSTICIAL

[en] INTERSTITIAL MONITORED

[pt] SENSOR A FIBRA OPTICA

[en] OPTICAL FIBER SENSOR

[pt] INDICE DE REFRACAO

[en] REFRACTION INDEX

[pt] MEIO AMBIENTE

[en] ENVIRONMENT

Vers des émetteurs de lumière de longueurs d’ondes contrôlées à base de nanostructures InAs/InP / InAs/InP nanostructures with controlled emission wavelength : Toward photonic integrated circuits applications.

Hadj Alouane, Mohamed Helmi

19 June 2013

La complexité des systèmes de télécommunications par fibre optique évolue rapidement de façon à offrir plus de bande passante. Comme ce fut le cas pour l’industrie de la microélectronique, l’intégration de composants photoniques avancés est requise pour la production de composants de haute qualité aux fonctions multiples. C’est dans ce contexte, que s’inscrit ce travail qui consiste à contrôler la longueur d’onde d’émission des nanostructures InAs fabriquées dans deux types matrice InP. En effet, le premier volet de ce travail consiste à étudier les îlots quantiques InAs dans une matrice d’InP massif et sera dédié principalement à l’investigation de l’impact de l’interdiffusion sélective sur les propriétés optiques de bâtonnets quantiques (BaQs) élaborées par l’épitaxie par jets moléculaires (EJM). Un prototype d’une source modulable en longueur a été achevé à base de ces hétérostructures. Un modèles théorique qui traite de l’activation et du transfert thermique des porteurs à travers les BaQs de différentes tailles, créés par l’implantation ionique contrôlée a été développé. Les acquits obtenues dans le premier thème nous ont permis d’aborder une deuxième thématique très concurrentielle liée à l’étude des structures à Nanofils (NFs) InP et des hétérostructures à nanofils InAs/InP allant des structures 1D cœur/coquilles aux structures contenant une BQ InAs par nanofil InP par EJM en mode VLS (Vapeur-Liquide-Solide) sur substrat silicium. Nous avons révélé par différentes techniques spectroscopiques (PL, excitation de PL, microPL, PLRT) des propriétés optiques très spécifiques et particulièrement intéressantes : fort rapport surface/volume impactant sur les durées de vie des porteurs photocrés, présence de différentes phases cristallines (Wurtzite et Zinc-blende) au sein d’un même nanofil en fonction des conditions de croissance. Nous avons pu réaliser des couches actives des émetteurs à base de NFs dans lesquels nous avons privilégié la formation de segments d’InAs assimilables à des boîtes quantiques avec une forte localisation spatiale des porteurs et un très fort maintient de la luminescence en fonction de la température. Les mesures de PL montrent que les segments d’InAs émettent dans la gamme 1.3-1.55 µm ce qui montre le potentiel d’applications de ce type de nanofils dans une technologie des télécommunications par fibres optiques. / La complexité des systèmes de télécommunications par fibre optique évolue rapidement de façon à offrir plus de bande passante. Comme ce fut le cas pour l’industrie de la microélectronique, l’intégration de composants photoniques avancés est requise pour la production de composants de haute qualité aux fonctions multiples. C’est dans ce contexte, que s’inscrit ce travail qui consiste à contrôler la longueur d’onde d’émission des nanostructures InAs fabriquées dans deux types matrice InP. En effet, le premier volet de ce travail consiste à étudier les îlots quantiques InAs dans une matrice d’InP massif et sera dédié principalement à l’investigation de l’impact de l’interdiffusion sélective sur les propriétés optiques de bâtonnets quantiques (BaQs) élaborées par l’épitaxie par jets moléculaires (EJM). Un prototype d’une source modulable en longueur a été achevé à base de ces hétérostructures. Un modèles théorique qui traite de l’activation et du transfert thermique des porteurs à travers les BaQs de différentes tailles, créés par l’implantation ionique contrôlée a été développé. Les acquits obtenues dans le premier thème nous ont permis d’aborder une deuxième thématique très concurrentielle liée à l’étude des structures à Nanofils (NFs) InP et des hétérostructures à nanofils InAs/InP allant des structures 1D cœur/coquilles aux structures contenant une BQ InAs par nanofil InP par EJM en mode VLS (Vapeur-Liquide-Solide) sur substrat silicium. Nous avons révélé par différentes techniques spectroscopiques (PL, excitation de PL, microPL, PLRT) des propriétés optiques très spécifiques et particulièrement intéressantes : fort rapport surface/volume impactant sur les durées de vie des porteurs photocrés, présence de différentes phases cristallines (Wurtzite et Zinc-blende) au sein d’un même nanofil en fonction des conditions de croissance. Nous avons pu réaliser des couches actives des émetteurs à base de NFs dans lesquels nous avons privilégié la formation de segments d’InAs assimilables à des boîtes quantiques avec une forte localisation spatiale des porteurs et un très fort maintient de la luminescence en fonction de la température. Les mesures de PL montrent que les segments d’InAs émettent dans la gamme 1.3-1.55 µm ce qui montre le potentiel d’applications de ce type de nanofils dans une technologie des télécommunications par fibres optiques.

Télécommunications optiques

Fibre optique

Emission de lumière

Composant photonique

Nanostructure InAs

Bâtonnets quantiques

Caractérisation optique

Intégration monolithique

Implantation ionique

Optical telecommunications

Optical fiber

Quantum dashes

Nanowires

Optical Characterization

Monolitic integration

621.382 707 2

Spectroscopie Brillouin des micro et nanofils optiques de silice / Brillouin spectroscopy of silica optical micro-nanofibers

Godet, Adrien

19 December 2018

Cette thèse de doctorat porte sur la conception et la fabrication de microfils optiques de silice par la technique de fusion et d'étirage de fibres optiques standards, ainsi qu'une étude détaillée de leurs propriétés élastiques par spectroscopie Brillouin. Nous apportons une description complète, théorique et expérimentale, des spectres Brillouin rétro-diffusés par les microfils, révélant ainsi l'existence de plusieurs familles d'ondes élastiques, telles que les ondes hybrides et surfacique, ainsi que de nombreux anti-croisements. En exploitant l'ensemble de ces propriétés élastiques, nous démontrons ensuite une technique de mesure optique, simple et non-destructive, du diamètre des microfils et de leur uniformité, avec une très grande précision et une sensibilité de quelques nanomètres, comparable aux techniques conventionnelles comme la microscopie par balayage électronique. Nous réalisons en supplément une cartographie des ondes élastiques le long des microfils optiques par la technique de corrélation Brillouin de phase. Une autre étude majeure de cette thèse a porté sur la dépendance du spectre Brillouin en fonction d'une déformation axiale des microfils optiques qui présentent une très grande élasticité et des coefficients de contraintes élevés. Pour la première fois à notre connaissance, nous avons observé l’effet des non-linéaritiés des constantes élastiques de la silice dans un microfil optique fortement déformé sur les coefficients de contraintes. L'ensemble de ces travaux représente une étude fondamentale du processus de diffusion Brillouin dans les microfils optiques et permet également d'ouvrir la voie aux développements de dispositifs photoniques compacts dans le domaine des capteurs et des télécommunications. / This thesis reports the design and fabrication of subwavelength-diameter silica optical fibers, also known as optical micro and nanowires. These hair-like slivers of glass, manufactured by tapering optical fibers down to a size hundred times smaller than a strand of human hair, have a number of optical and mechanical properties that make them very attractive for both fundamental physics and technological applications. In addition to providing strong light confinement and enhanced nonlinear optical effects, they exhibit a large evanescent field, enabling applications not currently possible with comparatively bulky optical fibers.We here explore their elastic properties through Brillouin spectroscopy. We specifically provide a complete description, both theoretically and experimentally, of the backward Brillouin spectra including the observation of both bulk hybrid and surface acoustic waves with many anti-crossings. A very good agreement is found between numerical simulations of the elastodynamics equation and the experimental Brillouin spectra for a wide range of wire diameters. From this study, we demonstrate a simple and non-destructive in-situ technique for measuring the diameter of these ultra-thin fibers and their uniformity with a high sensitivity of only a few nanometers. A distributed measurement of both the surface and hybrid acoustic waves along an optical microwire was then performed using Brillouin optical correlation technique. We further investigate the tensile strain dependence of Brillouin scattering in optical microwires and report, for the first time to our knowledge, evidence of a strong elasticity and non-linearity of the elastic constants of silica. This thesis therefore demonstrates that optical microwires can find various potential applications for strain optical sensing.

Diffusion Brillouin

Microfils optiques

Fibres optiques

Fibres optiques effilées

Élasticité non-Linéaire

Spectroscopie

Contrainte déformation

Brillouin scattering

Optical microwires

Optical fiber

Optical taper

Third-Order elasticity

Spectroscopy

Stress-train sensing

535

Germanosilicate Fibers And Bragg Gratings : Newer Efforts In Understanding Photosensitivity And Novel Methods For Strain-Temperature Discrimination

Rahman, Aashia

07 1900

The different topics covered in this thesis include photosensitivity in germanosilicate fibers/glasses and application of fiber Bragg grating sensors in simultaneous strain and temperature discrimination. Fiber Bragg Gratings are wavelength dispersive refractive index structures manufactured through ultra-violet (UV) exposure of optical fibers. Their applications range from wavelength division multiplexing filters, dispersion compensators and fiber laser resonators for telecommunication applications to different types of point or distributive sensors for a variety of applications. One aim of this thesis has been to understand the mechanism of photosensitivity in germanosilicate fibers/preforms. Studies undertaken in this part of the thesis include thermal dynamics of Fiber Bragg Gratings and nano-indentation on ultra-violet irradiated germanosilicate glass preforms. An interesting, periodic appearance of a new peak has been observed in the reflected spectrum of Bragg grating inscribed in a germanosilicate fiber during thermal treatment. The new peak occurs on the longer wavelength side of the spectrum during heating and on the shorter wavelength side during cooling, following an identical reverse dynamics. A commercial grating with 99.9% reflectivity also shows a similar decay dynamics. The observed temperature induced distortion in refractive index modulation profile has been understood in the light of compaction-densification model. It is proposed that during the fabrication process of a grating, the modulation in the thermal expansion coefficient brought about by the interference fringes results in a non-uniform expansion throughout the grating length which in turn results in the distortion of the refractive index profile with increase/decrease in temperature. Since the reflection spectrum of a grating can be approximated as the Fourier transform of the refractive index profile, any distortion in the index profile results in the observed anomalous behaviour in the reflection spectrum. Nano-indentation studies have been performed to measure the changes in mechanical properties of a glass preform subjected to different levels of ultra-violet exposure. The results reveal that short term exposure leads to an appreciable increase in the Young’s modulus suggesting the densification of the glass, confirming the compaction-densification model. However, on prolonged exposure, the Young’s modulus decreases, which provides the first direct evidence of dilation in the glass leading into the Type IIA regime. The present results rule out the hypothesis that continued exposure leads to an irreversible compaction and prove that index modulation regimes are intrinsic to the glass matrix. In the second part of the thesis, three different schemes have been proposed for the use of Fiber Bragg Gratings as strain-temperature discriminating sensors: (a) The first method is based on the measurement of the different characteristic wavelength shifts of two types of gratings. Strain and temperature sensitivities of a Type I Bragg grating (G1) in germania doped silica fiber, fabricated under normal conditions, and zero strain, are compared with that of a Bragg grating inscribed under pre-strained condition (G2). Experimental results show that both, strain and temperature sensitivities of G1 and that of G2 are different. Based on this study, we have proposed an approach which enables simultaneous discrimination of axial strain and temperature. (b) In the second method, a single sensing element has been used to encode strain and temperature into an additional parameter other than the wavelength shift. The thermal out-diffusion of germanium from the core of a photosensitive fiber under elevated temperature is exploited to form a Fabry-Perot filter with a single Fiber Bragg Grating. The filter is fabricated using the standard phase-mask technique and one-time exposure. Energy Dispersive X-Ray analysis is used to measure the out-diffusion. The filter is used as a sensor for simultaneous measurement and discrimination of strain and temperature. The proposed technique, where a single grating is used to discriminate the parameters, provides a large advantage over other existing methods. (c) In the third method, a compact design based on cross-wire arrangement of Fiber Bragg Gratings having identical Bragg resonance and different reflectivity is proposed for simultaneously sensing strain (uniaxial) and temperature. Two gratings are assembled orthogonal to each other on an aluminium base. The cross-wire design allows the two sensors to experience the same temperature but different strain. The gratings are identified by their respective reflectivity and, strain and temperature are resolved from the shift in Bragg wavelength. The proposed design exploits the fact that strain is a vector and temperature is a scalar parameter. This sensor has wide industrial application in discriminating strain from temperature effects.

Bragg Grating

Photosensitivity

Germanosilicate Fibers

Fiber Bragg Gratings

Fiber Bragg Grating Sensors

Anomolous Thermal Dynamics

Nano-Indentation

Pre-strained Gratings

Germania

Fabry-Perot Filter

Germano-silicate Optical Fiber

FBG Sensors

Instrumentation

Dynamically Reconfigurable Optical Buffer and Multicast-Enabled Switch Fabric for Optical Packet Switching

Yeo, Yong-Kee

30 November 2006

Optical packet switching (OPS) is one of the more promising solutions for meeting the diverse needs of broadband networking applications of the future. By virtue of its small data traffic granularity as well as its nanoseconds switching speed, OPS can be used to provide connection-oriented or connectionless services for different groups of users with very different networking requirements. The optical buffer and the switch fabric are two of the most important components in an OPS router. In this research, novel designs for the optical buffer and switch fabric are proposed and experimentally demonstrated. In particular, an optical buffer that is based on a folded-path delay-line tree architecture will be discussed. This buffer is the most compact non-recirculating optical delay line buffer to date, and it uses an array of high-speed ON-OFF optical reflectors to dynamically reconfigure its delay within several nanoseconds. A major part of this research is devoted to the design and performance optimization of these high-speed reflectors. Simulations and measurements are used to compare different reflector designs as well as to determine their optimal operating conditions. Another important component in the OPS router is the switch fabric, and it is used to perform space switching for the optical packets. Optical switch fabrics are used to overcome the limitations imposed by conventional electronic switch fabrics: high power consumption and dependency on the modulation format and bit-rate of the signals. Currently, only those fabrics that are based on the broadcast-and-select architecture can provide truly non-blocking multicast services to all input ports. However, a major drawback of these fabrics is that they are implemented using a large number of optical gates based on semiconductor optical amplifiers (SOA). This results in large component count and high energy consumption. In this research, a new multicast-capable switch fabric which does not require any SOA gates is proposed. This fabric relies on a passive all-optical gate that is based on the Four-wave mixing (FWM) wavelength conversion process in a highly-nonlinear fiber. By using this new switch architecture, a significant reduction in component count can be expected.

Nonlinear fiber

Optical fiber communication

Folded-path

Four-wave mixing

Optical packet switching

Switch fabric

Optical label switching

Optical buffer

Delay line

Telecommunication Switching systems

Optical communications

Packet switching (Data transmission)

Information Transmission using the Nonlinear Fourier Transform

Isvand Yousefi, Mansoor

20 March 2013

The central objective of this thesis is to suggest and develop one simple, unified method for communication over optical fiber networks, valid for all values of dispersion and nonlinearity parameters, and for a single-user channel or a multiple-user network. The method is based on the nonlinear Fourier transform (NFT), a powerful tool in soliton theory and exactly solvable models for solving integrable partial differential equations governing wave propagation in certain nonlinear media. The NFT decorrelates signal degrees of freedom in such models, in much the same way that the Fourier transform does for linear systems. In this thesis, this observation is exploited for data transmission over integrable channels such as optical fibers, where pulse propagation is governed by the nonlinear Schr\"odinger (NLS) equation. In this transmission scheme, which can be viewed as a nonlinear analogue of orthogonal frequency-division multiplexing commonly used in linear channels, information is encoded in the nonlinear spectrum of the signal. Just as the (ordinary) Fourier transform converts a linear convolutional channel into a number of parallel scalar channels, the nonlinear Fourier transform converts a nonlinear dispersive channel described by a \emph{Lax convolution} into a number of parallel scalar channels. Since, in the spectral coordinates the NLS equation is multiplicative, users of a network can operate in independent nonlinear frequency bands with no deterministic inter-channel interference. Unlike most other fiber-optic transmission schemes, this technique deals with both dispersion and nonlinearity directly and unconditionally without the need for dispersion or nonlinearity compensation methods. This thesis lays the foundations of such a nonlinear frequency-division multiplexing system.

Communication theory

Information theory

Optical fiber communication

Nonlinear dispersive waves

Nonlinear Fourier transform

Integrable systems

Channel capacity

Solitons

Nonlinear Schrodinger equation

Interference channel

Fiber-optic

0544

Information Transmission using the Nonlinear Fourier Transform

Isvand Yousefi, Mansoor

20 March 2013

The central objective of this thesis is to suggest and develop one simple, unified method for communication over optical fiber networks, valid for all values of dispersion and nonlinearity parameters, and for a single-user channel or a multiple-user network. The method is based on the nonlinear Fourier transform (NFT), a powerful tool in soliton theory and exactly solvable models for solving integrable partial differential equations governing wave propagation in certain nonlinear media. The NFT decorrelates signal degrees of freedom in such models, in much the same way that the Fourier transform does for linear systems. In this thesis, this observation is exploited for data transmission over integrable channels such as optical fibers, where pulse propagation is governed by the nonlinear Schr\"odinger (NLS) equation. In this transmission scheme, which can be viewed as a nonlinear analogue of orthogonal frequency-division multiplexing commonly used in linear channels, information is encoded in the nonlinear spectrum of the signal. Just as the (ordinary) Fourier transform converts a linear convolutional channel into a number of parallel scalar channels, the nonlinear Fourier transform converts a nonlinear dispersive channel described by a \emph{Lax convolution} into a number of parallel scalar channels. Since, in the spectral coordinates the NLS equation is multiplicative, users of a network can operate in independent nonlinear frequency bands with no deterministic inter-channel interference. Unlike most other fiber-optic transmission schemes, this technique deals with both dispersion and nonlinearity directly and unconditionally without the need for dispersion or nonlinearity compensation methods. This thesis lays the foundations of such a nonlinear frequency-division multiplexing system.

Communication theory

Information theory

Optical fiber communication

Nonlinear dispersive waves

Nonlinear Fourier transform

Integrable systems

Channel capacity

Solitons

Nonlinear Schrodinger equation

Interference channel

Fiber-optic

0544

Optical millimeter-wave signal generation, transmission and processing for symmetric super-broadband optical-wireless access networks

Jia, Zhensheng

01 July 2008

Three 40/60-GHz optical-wireless bidirectional architectures are designed with a centralized light source in the central office based on wavelength reuse. Three super-broadband access networks are proposed and experimentally demonstrated for simultaneously delivering wired and wireless services over an optical fiber and an air link in a single transport platform. The transport feasibility in metro and wide-area access networks with multiple reconfigurable optical add-drop multiplexers (ROADMs) nodes is explored for 40-GHz and 60-GHz optical millimeter-wave signals. Additionally, the optical-wireless systems using the orthogonal frequency division multiplexing (OFDM) modulation format are analytically and experimentally demonstrated to mitigate the chromatic dispersion in optical fiber. This thesis also successfully implements the testbed trial for the delivery of uncompressed 270-Mb/s standard-definition television (SDTV) and 1.485-Gb/s high-definition television (HDTV) video signals over optical fiber and air links. The demonstration represents the first ever reported real applications over hybrid wired and wireless access networks, showing that our developed up-conversion schemes and designed architectures are highly suitable for super-broadband applications in next-generation optical-wireless access networks.

OFDM

Wired and wireless

ROADM

Wavelength reuse

Optical millimeter-wave

Optical wireless

Millimeter wave communication systems

Millimeter wave devices

Millimeter waves

Signal generators

Signal processing

Optical fiber communication

Telecommunication

Internet

Adaptive polarization mode dispersion equalizers for coherent optical communications systems / Αυτορυθμιζόμενοι εξισωτές διασποράς τρόπων πόλωσης για σύμφωνα οπτικά τηλεπικοινωνιακά συστήματα υψηλής φασματικής απόδοσης

Μαντζούκης, Νικόλαος

01 November 2010

Polarization mode dispersion (PMD) arises as a result of the birefringence in optical fibers, due to inherent asymmetries and deformities from external stresses. The spectral components of the input optical pulse propagate with different group velocities. Consequently, pulse duration increases leading to intersymbol interference between consequent symbols, leading to performance reduction of the coherent systems. In order to compensate for the PMD, we use adaptive linear PMD equalizers. Due to the dynamic and random nature of PMD, it is crucial for a system designer to efficiently simulate the PMD-induced outage probabilities of 10-5. Because of this stringent requirement, it is computationally costly to use the conventional Monte Carlo methods. To overcome this hurdle, Importance Sampling methods, such as the multicanonical Monte Carlo method have been applied in the past in order to efficiently reduce the simulation time required to estimate the statistics of these rare events. The multicanonical Monte Carlo method does not require any prior knowledge of which rare events contribute significantly to the PMD-induced outages. In essence, multicanonical Monte Carlo simulations adaptively bias the input random variables with a priori unknown weights. The PMD emulation model consists of a concatenation of birefringent sections, simulated based on MMC. The objective of this dissertation is to apply, for the first time, the multicanonical Monte Carlo method to accurately and efficiently evaluate the performance of adaptive, blind, feed-forward PMD equalizers employed in coherent polarization division multiplexed (PDM) quadrature phase-shift keying (QPSK) systems in all order PMD emulation model. In the exclusive presence of PMD, we demonstrated that the half-symbol-period-spaced adaptive electronic equalizers, based on the constant modulus algorithm (CMA) equalizers perform slightly better than the decision directed least mean square (DD-LMS) counterparts at links with larger PMD values, whereas the opposite holds true for the low PMD regime. Due to their distinguishable performance in different regimes of the PMD, they provided an even better performance when running DD-LMS after a first round of CMA-based equalization than using either one of the equalization algorithms stand alone. Finally, the joint presence of PMD and intermediate frequency offset or PMD and random differential phase carrier shifts slightly worsened the performance of the coherent PDM QPSK systems, independently of the equalizer. Although these random differential carrier phase shifts are typically omitted in similar PMD studies in intensity modulated/direct detection (IM/DD) systems, they should be taken into account in due to the phase sensitivity of the PDM QPSK coherent systems. / Οι οπτικές ίνες παρουσιάζουν διπλοθλαστικότητα, η οποία οφείλεται σε κατασκευαστικές ατέλειες των οπτικών ινών και σε εξωτερικούς παράγοντες. Η διπλοθλαστικότητα προκαλεί διασπορά μεταξύ των φασματικών συνιστωσών ενός διαμορφωμένου οπτικού σήματος. Κάθε φασματική συνιστώσα, ανάλογα με την πόλωσή της στην είσοδο της οπτικής ίνας, υφίσταται διαφορετική αλλαγή φάσης κατά τη διέλευσή της μέσα από την οπτική ίνα. Το φαινόμενο αυτό ονομάζεται διασπορά τρόπων πόλωσης. Η διασπορά τρόπων πόλωσης στην οπτική ίνα προκαλεί παραμόρφωση του οπτικού σήματος κι αλληλοπαρεμβολή συμβόλων στον οπτικό δέκτη, με αποτέλεσμα τη μείωση της απόδοσης ενός σύμφωνου οπτικού τηλεπικοινωνιακού συστήματος. Για την αντιμετώπιση του φαινομένου, χρησιμοποιούνται οι προσαρμοστικοί γραμμικοί εξισωτές διασποράς τρόπων πόλωσης. Εξαιτίας της στατιστικής φύσης του φαινομένου, πιθανότητες διακοπής της λειτουργίας της τάξεως του 10-5 ενός σύμφωνου συστήματος, τετραδικής διαμόρφωσης φάσης με πολυπλεξία πόλωσης της τάξεως με εξισωτές διασποράς τρόπων πόλωσης, υπολογίστηκαν βάσει της πολυκανονικής Monte Carlo μεθόδου (MMC). Στην MMC μέθοδο. οι παράμετροι στην είσοδο του συστήματος κατευθύνονται, έτσι ώστε στην έξοδο, η (άγνωστη) συνάρτηση πυκνότητας πιθανότητας της παραμέτρου ελέγχου να υπολογίζεται με ακρίβεια ακόμα και στις ουρές της. Το πλεονέκτημα της ΜΜC, σε σχέση με τις μεθόδους δειγματοληψίας σημαντικότητας, είναι ότι δεν απαιτείται καμία γνώση για το ποιες περιοχές στην είσοδο πρέπει να δειγματοληφθούν, ώστε στην έξοδο να προκύψουν τα σπάνια εκείνα γεγονότα που μας ενδιαφέρουν. Με βάση την ΜΜC μέθοδο υλοποιήθηκε και το μοντέλο της ίνας, ως μια αλληλουχία διπλοθλαστικών πλακιδίων. Σκοπός της διδακτορικής διατριβής, είναι η αξιολόγηση της απόδοσης του ενός σύμφωνου συστήματος με χρήση των εξισωτών, συναρτήσει της πιθανότητας διακοπής της λειτουργίας του συστήματος. Για την περίπτωση της αποκλειστικής παρουσίας της διασποράς τρόπων πόλωσης, ο εξισωτής ελαχίστου μέσου τετραγώνου (DD-LMS) έχει αποδοτικότερη λειτουργία, σε σχέση με τον εξισωτή σταθερής περιβάλλουσας (CMA), για χαμηλές τιμές της διασποράς τρόπων πόλωσης, ενώ ο εξισωτής CMA κυριαρχεί στις περιοχές με μεγαλύτερες τιμές της διασποράς τρόπων πόλωσης. Η βέλτιστη λειτουργία του σύμφωνου συστήματος σε μια ευρύτερη περιοχή τιμών της διασποράς τρόπων πόλωσης, επιτυγχάνεται με την χρήση ενός συνδυασμού των δύο εξισωτών CMA και LMS. Η αλληλεπίδραση της διασποράς τρόπων πόλωσης και της ενδιάμεσης συχνότητας επηρεάζει την απόδοση του σύμφωνου συστήματος, όπου ο εξισωτής CMA λειτουργεί αποδοτικότερα σε σχέση με τον εξισωτή DD-LMS, τόσο στις περιοχές χαμηλής όσο και υψηλής τιμής της διασποράς τρόπων πόλωσης. Επίσης, αν στο μοντέλο της ίνας, προσομοιώσουμε και τις τυχαίες διαφορικές ολισθήσεις της φέρουσας συχνότητας μεταξύ των πλακιδίων, λόγω της διπλοθλαστικότητας, τότε η επίδοση των εξισωτών ελαττώνεται. Επομένως, θα πρέπει να λαμβάνονται υπόψιν για την ορθότερη αξιολόγηση της απόδοσης του σύμφωνου συστήματος.

Optical communications

Optical fiber emulation

Multicanonical Monte Carlo

Coherent optical systems

Outage probability

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Πιθανότητα διακοπής

Capteurs de corrosion à fibre optique pour la surveillance répartie d’ouvrages en béton armé / Distributed corrosion sensing in reinforced concrete structures by optical fiber sensing

Ali Alvarez, Shamyr Sadat

19 September 2016

La corrosion des armatures de renforcement des structures en béton représente un enjeu socio-économique majeur. Sa détection et le suivi de son évolution constituent un défi pour la recherche appliquée. Les techniques standards non destructives de détection de corrosion mettent en œuvre des procédés indirects tels la mesure d’impédance, de potentiels, ou par ultrasons. Leurs capacités d’auscultation sont limitées dans l’espace (notamment en profondeur), leur coût reste élevé dans un contexte de maintenance périodique et elles conduisent à des paramètres d’interprétation complexe. Des progrès sont nécessaires dans la détection et l’analyse fiable de la progression des processus de corrosion. Dans ce travail, nous présentons une nouvelle méthode pour détecter la corrosion et le suivi de son évolution, basée sur l’observation directe des changements intervenant à l’interface fer-béton par Capteur à Fibre Optique (CFO). L'attaque par corrosion de la surface de l'armature dépend de plusieurs paramètres électrochimiques (température, pH, carbonatation, présence de chlorures, contamination biologique, etc.). Deux comportements mécaniques à l'interface fer-béton sont distingués. Dans le premier cas (carbonatation), le produit d'oxydation du métal reste à l'interface et augmente la pression interne, pouvant conduire à la fissuration de la couche de béton extérieure. Dans le second cas (piqures), les ions métalliques sont évacués hors de la structure avec comme conséquence une réduction de section des barres d'armature (affaiblissement du renforcement). Un CFO innovant est proposé dans le but de localiser et quantifier les deux types de corrosion précités. Le principe consiste à observer l’impact direct de la corrosion sur l’état de déformation d’une fibre optique préalablement précontrainte par construction. Deux procédés métrologiques sont étudiés : Bragg et réflectométrie fréquentielle (Optical Frequency-Domain Reflectometry - OFDR). Des tests de corrosion accélérée montrent la faisabilité du procédé. Une procédure de fabrication simplifiée et à coût optimisé est proposée pour la surveillance in situ et répartie des structures de génie civil, dans une perspective future de maintenance conditionnée. / Corrosion of reinforced bars (rebars) in concrete structures remains a major issue in civil engineering works, being its detection and evolution a challenge for the applied research. Usual non-destructive corrosion detection methods involve impedance, potential or ultra-sonic indirect measurements of complex interpretation. Besides, they are restricted to near-surface examinations and the maintenance cost is still high (scheduled maintenance). Many efforts remain to be done to survey the onset and progression of corrosion processes in a reliable way. In this work, we present a new methodology to detect the onset of corrosion and to monitor its evolution, based on the direct observation of rebar–concrete interface changes by the use of an Optical Fiber Sensor (OFS). The corrosion attack over rebar surface depends on several physical, chemical and electrochemical parameters (temperature, pH, presence of chlorides/CO2, biological contamination, etc.). Two types of mechanical behavior and described. In the first case (carbonation), metal oxidation products stay at the interface and increase internal pressure, potentially leading to a crack of the external concrete layer. In the second case (pitting), metal ions are evacuated out of the structure, leading to a reduction of the rebar section (structural weakness). An innovative sensor design is proposed with the purpose of localizing and quantifying the amount of both corrosion types. The basic principle consists in measuring the impact of corrosion over the state of strain of a prestressed optical fiber. Two metrological techniques are used: Fiber Bragg Grating (FBG) and Optical Frequency-Domain Reflectometry (OFDR). Accelerated corrosion tests were performed in electrolytic solutions for both kinds of corrosion types (pitting and carbonation) and provide a proof-of-concept for the technique. A low-cost, simplified manufacturing procedure is proposed with the aim to provide distributed and in situ Structural Health Monitoring (SHM), suitable for future Condition-Based Maintenance (CBM) of civil engineering concrete structures.

Corrosion

Béton armé

Capteur à Fibre Optique (CFO)

Réseau de Bragg

Réflectométrie fréquentielle

Surveillance de structures

Corrosion

Concrete

Optical Fiber Sensor (OFS)

Fiber Bragg Grating (FBG)

Structural Health Monitoring (SHM)

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