Etude, développement et caractérisation de fibres optiques à haute sensibilité aux radiations ionisantes pour une application de dosimétrie répartie

Beauvois, Gwendal

19 December 2017

Dans le domaine du nucléaire, les techniques actuelles de mesure de radiation n’offrent pas la possibilité d’effectuer un contrôle le long d’un objet filaire. Le projet Droïd a pour but de développer un dosimètre linéique utilisant une fibre optique comme élément sensible. L’atténuation radio-induite (ARI) du guide d’onde, lue par réflectométrie optique, permet non seulement de quantifier, mais également de localiser le dépôt de dose le long de la fibre. Chaque portion du câble fait alors office de capteur de rayonnement. Il est envisageable d’effectuer des mesures réparties sur de longues distances (plusieurs dizaines de mètres) et d’obtenir des cartographies de dose en une, deux ou trois dimensions selon la disposition de l’objet dans l’espace. Le projet se structure en deux volets. Le premier est le développement d’une fibre optique hautement sensible aux radiations. En effet, les technologies commerciales standard ne le sont pas suffisamment pour des applications comme la radioprotection du personnel dans le milieu du nucléaire. Définir la composition chimique de la fibre permet de maîtriser sa réponse aux rayonnements. Le second volet du projet concerne la modélisation liant l’atténuation radio-induite à la dose reçue par le guide d’onde. Dans le cas général d’une fibre avec fading, le développement et l’inversion d’un modèle non linéaire sont primordiaux pour le bon fonctionnement du dosimètre et constituent un verrou scientifique majeur à lever. / In the nuclear domain, current radiation monitoring techniques do not offer the possibility to locally determine the dose received by a wire along its path. The purpose of the Droïd project is to develop a linear dosimeter based on an optical fiber as a sensitive element. The Radiation-Induced Attenuation (RIA) of the waveguide, read by optical reflectometry, can be used not only to quantify, but also to locate the dose deposition along the fiber. Each portion of the cable acts as a radiation sensor. It becomes possible to make measurements over long distances (several tens of meters) and to obtain dose maps in one, two or three dimensions depending on the spatial arrangement of the fiber. The project is structured in two parts. The first one is the development of an optical fiber that is highly sensitive to radiation. Indeed, standard commercial technologies are not reactive enough for applications such as staff radioprotection. Defining the chemical composition of the fiber permits to master its behavior under radiation. The second part of the project deals with modeling the non-linear relationship between the RIA and the dose received by the waveguide. In the general case of a sensor with fading, building and inverting such a model are a requirement for the final device and constitute a major scientific challenge.

Dosimétrie

Rayonnement ionisant

Fibre optique

Mesure répartie

Dosimetry

Ionizing radiation

Optical fiber

Distributed measurement

670

620

530

A Distributed Approach to Passively Gathering End-to-End Network Performance Measurements

Simpson, Charles Robert, Jr.

12 April 2004

NETI@home is an open-source software package that collects network performance statistics from end-systems. It has been written for and tested on the Windows, Solaris, and Linux operating systems, with testing for other operating systems to be completed soon. NETI@home is designed to run on end-user machines and collect various statistics about Internet performance. These statistics are then sent to a server at the Georgia Institute of Technology, where they are collected and made publicly available. This tool gives researchers much needed data on the end-to-end performance of the Internet, as measured by end-users. NETI@homes basic approach is to sniff packets sent from and received by the host and infer performance metrics based on these observed packets. NETI@home users are able to select a privacy level that determines what types of data are gathered, and what is not reported. NETI@home is designed to be an unobtrusive software system that runs quietly in the background with little or no intervention by the user, and using few resources.

End-to-end

Passive measurement

NETI@home

Network measurements

Network performance

Distributed measurement

Software architecture

End-user computing

Internet Computer programs

Network performance (Telecommunication)

Implementação de um nó IEEE 1451, baseado em ferramentas abertas e padronizadas, para aplicações em ambientes de instrumentação distribuída

Rossi, Silvano Renato [UNESP]

14 January 2005

Made available in DSpace on 2014-06-11T19:31:40Z (GMT). No. of bitstreams: 0 Previous issue date: 2005-01-14Bitstream added on 2014-06-13T18:42:30Z : No. of bitstreams: 1 rossi_sr_dr_ilha.pdf: 2325960 bytes, checksum: 7ef7ad22ede243a4f480a84cc0e63023 (MD5) / Universidad Nacional de Asuncion / Atualmente, as redes de transdutores inteligentes desempenham um papel de importância vital em sistemas de Medição e Controle Distribuído. Nesse contexto, o Padrão IEEE 1451 para interfaceamento de transdutores inteligentes tem como objetivo simplificar a conectividade de transdutores em ambientes de rede, fornecendo, para tal fim, um conjunto de interfaces padronizadas, aumentando a flexibilidade dos sistemas de instrumentação distribuída. Neste trabalho descreve-se a implementação de um nó de rede em conformidade com o padrão IEEE 1451. O nó foi completamente desenvolvido através do emprego de ferramentas padronizadas e sistemas abertos. O nó é composto por um Processador de Aplicação com Capacidade de Operar em Rede (NCAP), com base no padrão IEEE 1451.1 e um Módulo de Interface para Transdutores Inteligentes (STIM), em conformidade com o padrão IEEE 1451.2. A parte física do NCAP foi implementada através dos recursos de um Computador Pessoal (PC) e de um Dispositivo Lógico Programável (PLD) de uso geral. A parte lógica do NCAP foi desenvolvida através da tecnologia Java. O STIM foi implementado com dispositivos lógicos programáveis versáteis, de uso geral, e sua funcionalidade foi integralmente descrita em linguagem de descrição de hardware. O conjunto NCAP-STIM foi conectado a uma rede de área local, sob o modelo de comunicação cliente-servidor, sendo que várias aplicações clientes podem acessar as informações dos transdutores conectados ao STIM, através da rede, via intermediação do NCAP. O emprego de ferramentas padronizadas e abertas no desenvolvimento total do sistema IEEE 1451 é uma das contribuições mais importantes do presente trabalho. No entanto, há várias contribuições pontuais como: a maneira de descrever as Informações de Transdutores em Formato Eletrônico (TEDS), a implementação... . / Nowadays, smart transducer networks play an essential role in distributed measurement and control systems. In this context, the IEEE 1451 smart transducer interface standards aimed to simplify transducer connectivity, providing a set of common interfaces for connecting transducers in a networked fashion, increasing the flexibility of distributed instrumentation systems. In this work the implementation of a network node according to the IEEE 1451 standard is introduced. The node has been fully developed using open and standardized tools. A Network Capable Application Processor (NCAP) according to the IEEE 1451.1 Standard and a Smart Transducer Interface Module (STIM) comprises the node. The physical part of the NCAP has been implemented using the resources of a Personal Computer (PC) and a general-purpose Programmable Logic Device (PLD). The logical part of the NCAP has been developed using Java technology. The STIM module was implemented with versatile, general-purpose Programmable Logic Devices. STIM functionality has been fully developed in hardware description language. A network node (STIM-NCAP) was connected in a client-server modelbased local area network. Many client applications can access STIM transducers information, through the network with the NCAP as an intermediary. One of the most important contributions of this work is the employment of open and standardized tools for implementing the IEEE 1451 network node. However, there are many specific contributions such as: Transducer Electronic Data Sheet (TEDS’s) description method, programmable logic-based Protocol Manager implementation that allows the use of the parallel port without any modification, the employment of low-cost PLDs for implementing the STIM and the Protocol Manager, and Java-based NCAP software development. Through the implementation of the IEEE Standard, industries... (Complete abstract, click electronic address below).

Transdutores

Redes de computadores

VHDL (Linguagem descritiva de hardware)

Distributed measurement and control

Transducer networks

Interfacing

IEEE 1451

STIM

NCAP

Smart transducer

Programmable logic technology

Java

Implementação de um nó IEEE 1451, baseado em ferramentas abertas e padronizadas, para aplicações em ambientes de instrumentação distribuída /

Rossi, Silvano Renato.

January 2005

Resumo: Atualmente, as redes de transdutores inteligentes desempenham um papel de importância vital em sistemas de Medição e Controle Distribuído. Nesse contexto, o Padrão IEEE 1451 para interfaceamento de transdutores inteligentes tem como objetivo simplificar a conectividade de transdutores em ambientes de rede, fornecendo, para tal fim, um conjunto de interfaces padronizadas, aumentando a flexibilidade dos sistemas de instrumentação distribuída. Neste trabalho descreve-se a implementação de um nó de rede em conformidade com o padrão IEEE 1451. O nó foi completamente desenvolvido através do emprego de ferramentas padronizadas e sistemas abertos. O nó é composto por um Processador de Aplicação com Capacidade de Operar em Rede (NCAP), com base no padrão IEEE 1451.1 e um Módulo de Interface para Transdutores Inteligentes (STIM), em conformidade com o padrão IEEE 1451.2. A parte física do NCAP foi implementada através dos recursos de um Computador Pessoal (PC) e de um Dispositivo Lógico Programável (PLD) de uso geral. A parte lógica do NCAP foi desenvolvida através da tecnologia Java. O STIM foi implementado com dispositivos lógicos programáveis versáteis, de uso geral, e sua funcionalidade foi integralmente descrita em linguagem de descrição de hardware. O conjunto NCAP-STIM foi conectado a uma rede de área local, sob o modelo de comunicação cliente-servidor, sendo que várias aplicações clientes podem acessar as informações dos transdutores conectados ao STIM, através da rede, via intermediação do NCAP. O emprego de ferramentas padronizadas e abertas no desenvolvimento total do sistema IEEE 1451 é uma das contribuições mais importantes do presente trabalho. No entanto, há várias contribuições pontuais como: a maneira de descrever as Informações de Transdutores em Formato Eletrônico (TEDS), a implementação... (Resumo completo, clicar acesso eletrônico abaixo). / Abstract: Nowadays, smart transducer networks play an essential role in distributed measurement and control systems. In this context, the IEEE 1451 smart transducer interface standards aimed to simplify transducer connectivity, providing a set of common interfaces for connecting transducers in a networked fashion, increasing the flexibility of distributed instrumentation systems. In this work the implementation of a network node according to the IEEE 1451 standard is introduced. The node has been fully developed using open and standardized tools. A Network Capable Application Processor (NCAP) according to the IEEE 1451.1 Standard and a Smart Transducer Interface Module (STIM) comprises the node. The physical part of the NCAP has been implemented using the resources of a Personal Computer (PC) and a general-purpose Programmable Logic Device (PLD). The logical part of the NCAP has been developed using Java technology. The STIM module was implemented with versatile, general-purpose Programmable Logic Devices. STIM functionality has been fully developed in hardware description language. A network node (STIM-NCAP) was connected in a client-server modelbased local area network. Many client applications can access STIM transducers information, through the network with the NCAP as an intermediary. One of the most important contributions of this work is the employment of open and standardized tools for implementing the IEEE 1451 network node. However, there are many specific contributions such as: Transducer Electronic Data Sheet (TEDS's) description method, programmable logic-based Protocol Manager implementation that allows the use of the parallel port without any modification, the employment of low-cost PLDs for implementing the STIM and the Protocol Manager, and Java-based NCAP software development. Through the implementation of the IEEE Standard, industries... (Complete abstract, click electronic address below). / Orientador: Aparecido Augusto de Carvalho / Coorientador: Alexandre César Rodrigues da Silva / Banca: Onofre Trindade Júnior / Banca: Edward David Moreno Ordonez / Banca: Cláudio Kitano / Banca: Ricardo Tokio Higuti / Doutor

Transdutores.

Redes de computadores.

VHDL (Linguagem descritiva de hardware)

Distributed measurement and control. eng

Transducer networks. eng

Interfacing. eng

IEEE 1451. eng

STIM. eng

NCAP. eng

Smart transducer. eng

Programmable logic technology. eng

Java. eng

Mesure dynamique de déformation par rétrodiffusion Brillouin spontanée B-OTDR / Dynamic strain measurement based on spontaneous Brillouin scattering B-OTDR

Maraval, Damien

11 May 2017

Aujourd’hui, trois technologies distinctes et complémentaires sont disponibles pour réaliser des mesures réparties de température, de déformation ou de vibration grâce à l’analyses des rétrodiffusion Raman, Brillouin et Rayleigh. Les besoins industriels actuels se portent sur la mesure répartie de déformation pour des infrastructures avec de longs linéaires, comme les canalisations, pour lesquelles une cartographie linéaire et en temps réel de leur état est demandée. Nous nous focalisons alors sur la conception d’un système de mesure Brillouin capable de mesurer de manière répartie et dynamique les déformations subies par une fibre optique. La méthode employée sera celle du flanc de frange ; elle a déjà été développée et expérimentée sur une architecture opto-électronique de type analyseur Brillouin (Brillouin-OTDA), nécessitant l’accès aux deux extrémités de la fibre optique. Dans notre cas, elle est implémentée sur une architecture fonctionnant en réflectométrie. Les résultats expérimentaux obtenus seront caractérisés et validés par la simulation des mesures de la déformation et du déplacement d’une canalisation supportée entre deux appuis simples ; un modèle mécanique, adapté à cette configuration et transposable sur des projets réels, est développé. Par le biais de partenaire industriels de Cementys, ce modèle est utilisé dans deux projets de surveillance de canalisation d’hydrocarbures dont les moyens d’installation et la finalité sont différents. / Today, three distinct and complementary technologies are available for distributed temperature, strain or vibration measurements with the analysis of Raman, Brillouin and Rayleigh backscattered light. Current industrial needs are distributed strain measurements for linear infrastructures, such as pipelines, for which linear and real-time strain distribution is required. The research work aims to design a new distributed and dynamic strain measurement system based on the analysis of spontaneous Brillouin backscatter by reflectometry. Slope assisted technique is used to accelerate the measurement acquisition, currently limited to static events because of their actual principle of sweep frequency acquisition of the Brillouin backscattering spectrum. The experimental results are characterized and validated by the simulation of the measurements of the deformation and displacement of a pipe supported between two simple supports. A mechanical model, adapted to this configuration and transposable on real projects, is developed. Through Cementys industrial partner, this model is then used for two monitoring project of pipelines with different installation facilities and purpose.

Capteurs à fibre optique

Mesure répartie

Mesure dynamique de température

Déformation et déplacement

Mécanique des matériaux

Optical fiber sensors

Distributed measurement

Dynamic temperature strain

Displacement measurement

Structural health monitoring, SHM

Material mechanics