Μοντελοποίηση και έλεγχος μίκρο/νάνο ρομποτικών συστημάτων

Τσουκαλάς, Αθανάσιος

21 December 2012

Η παρούσα διδακτορική διατριβή έχει ως κύριο αντικείμενο μελέτης την μοντελοποίηση και έλεγχο ενός μικρορομποτικού βραχίονα αναλυόμενου σε σφαιρικά πεπερασμένα στοιχεία σε περιβάλλον με εξωτερικές δυνάμεις Van Der Waals και συνυπολογίζοντας την τριβή. Τα κύρια σημεία είναι η εισαγωγή των εξωτερικών δυνάμεων στο μοντέλο του μικρορομπότ, η δημιουργία προσαρμοστικού ελέγχου για την επίτευξη ακολουθίας τροχιάς με αναγνώριση και ακύρωση των ισχυρών μεταβαλλόμενων εξωτερικών δυνάμεων, η αναγνώριση της θέσης και η αποφυγή εμποδίων σε άγνωστο περιβάλλον κλίμακας μικρομέτρων και ο καθορισμός τροχιάς για προσέγγιση σημείων στον χώρο εργασίας του μικρορομπότ. Προτείνεται επίσης ένα σύστημα επενέργησης σε διάταξη τένοντα με νανοκαλώδια και γίνεται μελέτη της αντοχής του σε σχέση με τις μέγιστες δυνάμεις-ροπές που παρουσιάζονται κατά τον έλεγχο. Για την αναγνώριση των εξωτερικών δυνάμεων δοκιμάζονται διαφορετικά είδη εκτιμητών και εξετάζεται η απόδοσή τους στο συνολικό σύστημα. / The present PhD thesis has a key object the modeling and control of a micro robotic manipulator, represented by spherical particles in an environment with external Van Der Waals forces and taking friction into account. The main points are a) the insertion of the external forces in the micro robot model, b) the adaptive control used in order to follow a desired trajectory, with identification and cancellation of the external forces, the position identification and avoidance of obstacles in an unstructured micrometer scale environment and the trajectory planning towards a target point in the task space of the microrobot. Also a tendon like actuation system is proposed, using nanowires and its mechanical properties are studied in order to determine the viability of its use in relation to the required torques during the control process. For the external force identification scheme, various types of estimators are proposed and their efficiency in the system is studied.

Νανοκαλώδια

PD ελεγκτές

Αποφυγή εμποδίων

Μικροτριβή

629.893 3

Piezoelectric actuators

MEMS

Nanowires

Adaptive control

PD controllers

Obstacle avoidance

Obstacle identification

Micro scale friction

A Design Procedure for Flapping Wings Comprising Piezoelectric Actuators, Driver Circuit, and a Compliant Mechanism

Chattaraj, Nilanjan

January 2015

Flapping-wing micro air vehicle (MAV) is an emerging micro-robotic technology, which has several challenges toward its practical implementation. Inspired by insect flight, researchers have adopted bio-mimicking approach to accomplish its engineering model. There are several methods to synthesize such an electromechanical system. A piezoelectric actuator driven flapping mechanism, being voltage controlled, monolithic, and of solid state type exhibits greater potential than any conventional motor driven flapping wing mechanism at small scale. However, the demand for large tip deflection with constrained mass introduces several challenges in the design of such piezoelectric actuators for this application. The mass constraint restricts the geometry, but applying high electric field we can increase the tip deflection in a piezoelectric actuator. Here we have investigated performance of rectangular piezo-actuator at high electric field. The performance measuring attributes such as, the tip deflection, block force, block moment, block load, output strain energy, output energy density, input electrical energy, and energy efficiency are analytically calculated for the actuator at high electric field. The analytical results suggest that the performance of such an actuator can be improved by tailoring the geometry while keeping the mass and capacitance constant. Thereby, a tapered piezoelectric bimorph cantilever actuator can provide better electromechanical performance for out-of-plane deflection, compared to a rectangular piezoelectric bimorph of equal mass and capacitance. The constant capacitance provides facility to keep the electronic signal bandwidth unchanged. We have analytically presented improvement in block force and its corresponding output strain energy, energy density and energy effi- ciency with tapered geometry. We have quantitatively and comparatively shown the per- formance improvement. Then, we have considered a rigid extension of non-piezoelectric material at the tip of the piezo-actuator to increase the tip deflection. We have an- alytically investigated the effect of thick and thin rigid extension of non-piezoelectric material on the performance of this piezo-actuator. The formulation provides scope for multi-objective optimization for the actuator subjected to mechanical and electrical con- straints, and leads to the findings of some useful pareto optimal solutions. Piezoelectric materials are polarized in a certain direction. Driving a piezoelectric actuator by high electric field in a direction opposite to the polarized direction can destroy the piezo- electric property. Therefore, unipolar high electric field is recommended to drive such actuators. We have discussed the drawbacks of existing switching amplifier based piezo- electric drivers for flapping wing MAV application, and have suggested an active filter based voltage driver to operate a piezoelectric actuator in such cases. The active filter is designed to have a low pass bandwidth, and use Chebyshev polynomial to produce unipolar high voltage of low flapping frequency. Adjustment of flapping frequency by this voltage driver is compatible with radio control communication. To accomplish the flapping-wing mechanism, we have addressed a compatible dis- tributed compliant mechanism, which acts like a transmission between the flapping wing of a micro air vehicle and the laminated piezoelectric actuator, discussed above. The mechanism takes translational deflection at its input from the piezoelectric actuator and provides angular deflection at its output, which causes flapping. The feasibility of the mechanism is investigated by using spring-lever (SL) model. A basic design of the com- pliant mechanism is obtained by topology optimization, and the final mechanism is pro- totyped using VeroWhitePlus RGD835 material with an Objet Connex 3D printer. We made a bench-top experimental setup and demonstrated the flapping motion by actuating the distributed compliant mechanism with a piezoelectric bimorph actuator.

Flapping Wing Microair Vehicle

Microrobotic Technology

Piezoelectric Actuator

Compliant Flapping Mechanism

Flapping Wing MAV

Piezoelectric Bimorph Actuator

Piezoelectric Flapping Actuator

Piezo-Actuators

Flapping-Wing Micro Air Vehicles

Piezoelectric Bimorph

Piezo-actuated Flapping Wing

Aerospace Engineering

Apport de la combinaison de méthodes de mesure de formes tridimensionnelles dans le contexte de l'endoscopie flexible / Contribution of the combination of methods for three-dimensional shapes measurements in the context of flexible endoscopy

Hou, Yingfan

27 January 2016

Les techniques de reconstruction de formes tridimensionnelles sont très largement utilisées dans de nombreux domaines, et notamment dans le domaine industriel ou médical. Et dans ces domaines, les techniques de mesure sans contact sont particulièrement étudiées, principalement parce qu'elles permettent de ne pas détériorer l'objet mesuré. Ce travail de thèse se place donc dans ce contexte et plus particulièrement dans le cas des dispositifs endoscopiques de mesure tridimensionnelle de surface par moyen optique. Dans le domaine médical, ce type d'instrument peut être appliqué à la coloscopie 3D ou à la chirurgie mini-invasive pour la détection de forme en surface de tissus biologiques. Dans cette thèse ce sont plus particulièrement les méthodes à base de stéréovision active ou passive, qui vont être étudiées et intégrées dans un dispositif miniaturisé. Différents modes de mesure vont être intégrés simultanément dans un unique instrument miniaturisé afin de permettre d'augmenter les performances de mesure : l'instrument peut adapter son principe de mesure à la texture de l'objet ou également à l'orientation des surfaces mesurées et plus généralement au contexte de la mesure. Ce travail de thèse est donc basé sur une étude algorithmique et instrumentale d'intégration de ces différents modes de mesure dans un unique instrument endoscopique miniaturisé. L'étude des modes de mesure par stéréovision a été réalisée en trois phases. Tout d'abord, c'est l'influence de l'orientation de la surface des objets mesurés dans un cas de stéréovision active qui est analysé. Puis une technique de basculement entre les voies de projection et d'acquisition du système de stéréovision active par actionnement bistable est proposé, ce qui permet d'adapter la mesure à l'orientation des surfaces à mesurer. Enfin, l'étude est orientée vers la possibilité de basculer d'un mode de stéréovision active vers un mode de stéréovision passive, toujours par actionnement bistable, le mode de stéréovision passive étant particulièrement adapté aux objets fortement texturés. Ainsi, trois modes de mesure sont réalisés dans ce nouveau système : deux modes de stéréovision active (avec inversion des voies de capture et de projection) et un mode de stéréovision passive. Pour réaliser la reconstruction tridimensionnelle, deux méthodes actives (par décalage de phase et par transformation de Fourier) et une méthode passive sont étudiées. Différentes performances de mesure sont obtenues selon les méthodes sélectionnées : un résultat de mesure plus précis est obtenu par les méthodes à. décalage de phase, une vitesse de mesure plus élevée est obtenu par les méthodes à transformée de Fourier ou par les méthodes passives. Le développement instrumental est également décrit dans cette thèse. Après modélisation optique et conception mécanique du système de mesure, un prototype de l'instrument endoscopique est fabriqué avec divers équipements spécifiques, tels qu'un DMD (Digital Micromirror Device), des guides d'images et des actionneurs électromagnétiques bistables. La validation expérimentale de la mesure tridimensionnelle est réalisée essentiellement sur objets mécaniques (du type mesure de détails sur pièce de monnaie), les deux méthodes actives et la méthode passives sont ainsi testées et confrontées. Enfin, une mesure sur un colon artificiel est réalisée par ce système pour se placer dans un contexte applicatif médical. / The techniques of three dimensional shapes reconstruction are widely used in many fields, particularly in the industrial or medical field. And in these areas, non-contact measurement techniques are particularly studied, mainly because they don't damage the measured object. This work therefore falls within this context and in particular in the case of endoscopic devices of surface coordinate measuring by optical methods. ln the medical field, this type of instrument can be applied to 3D colonoscopy or minimally invasive surgery to the surface in the form of biological tissues. In this thesis, methods based on active or passive stereo vision are the principle, which will be studied and integrated into a miniaturized device. Different measurement modes will be incorporated simultaneously into a single miniaturized instrument to help increase measurement performance: the instrument can adjust its measurement principle to the texture of the object or also to the orientation of measured surfaces more generally to the context of the measurement. This thesis is based on an algorithmic study and instrumental integration of these different measurement modes into a single miniaturized endoscopic instrument. The study of the measurement modes stereovision was conducted in three phases. First, it is the influence of the orientation of the measured objects' surface in a case of active stereovision being analyzed. And a technique of switching between the projection and acquisition in an active stereovision system by bistable actuation is proposed, which allows to adapt the measurement to the orientation of the measured surfaces. Finally, the study is oriented towards the ability to switch from one active stereovision mode to one passive stereovision mode, always by bistable actuator operation, the passive stereovision mode is particularly suitable for highly textured objects. Thus, three measurement modes are made in the new system: two modes of active stereovision (reversing capture and projection channels) and a mode of passive stereovision. To achieve three-dimensional reconstruction, two active methods (phase shift and Fourier Transform) and a passive method are studied. Different performance measurements are obtained according to methods selected: a more accurate measuring result is obtained by the phase shift methods; a high measurement speed is obtained by the Fourier transform methods or by passive methods. The instrumental development is also described in this thesis. After optical modeling and mechanical design of the measuring system, a prototype of the endoscopic instrument is manufactured with various specific devices such as a DMD (Digital Micromirror Deviee),images guides and bistable electromagnetic actuators. The experimental validation of the three-dimensional measurement is performed mainly on mechanical objects (such as details measurement on a coin), both active and passive method methods are well tested and compared. Finally, an artificial colon is measured by this system to be placed in a medical application context.

Profilométrie à décalage de phase

Guides d'images

Digital micro-mirror device (DMD)

Endoscopie flexible

3-D television

Profilometry

Fourier transformations

Optics

Endoscopy

Actuators

Návrh a realizace stavebnice pro výuku a vývoj aplikací s jednočipovými mikropočítači rodiny Atmel AVR / Design and implementation of modules for teaching and developing applications with microcontroller Atmel AVR

LANGMAJER, Miroslav

January 2012

This thesis is based on the design and production of teaching kits with expansion modules which are based on the Atmel AVR microcontroller. Kit consists of a plate containing processes and basic power modules directly on the board and expansion modules "SIMAČ". "SIMAČ" modules are virtual elements that simulate the real elements and they are commonly used in industrial automation. Because of their cost they are integrated in extension kit as programmable modules. It also contains basic theoretical information about working with ATMEL AVR microcontrollers. Expansion modules with module development board and disc which will be loaded all the schemes, programs and technical documentation for individual districts will be attached to the thesis.

Du diagnostic au pronostic de pannes des entraînements électriques / From the diagnosis to the prognosis of faults in electrical drives

Soualhi, Abdenour

24 September 2013

Le diagnostic et le pronostic de pannes des systèmes d'entraînement électriques est un enjeu majeur pour assurer la fiabilité et la sûreté de fonctionnement des outils de production notamment dans les secteurs sensibles (militaire, l'aéronautique, l'aérospatiale et nucléaire, etc.). Le travail de recherche présenté dans cette thèse vise à introduire de nouvelles méthodes de diagnostic et de pronostic des défauts d'une machine asynchrone ainsi que des roulements à rouleaux. Ces méthodes, orientées données, utilisent les données de mesure recueillies à partir de capteurs placés sur un système (machine asynchrone, roulement à rouleaux) afin de construire un vecteur de paramètres indicateur de défaut. Les méthodes de classification développées (supervisée, non supervisée) permettent de classer les observations, décrites par le vecteur de paramètres, par rapport aux différents modes de fonctionnement, connus ou inconnus du système, avec ou sans défauts. Des défauts ont été créés au rotor et aux roulements de la machine asynchrone, alimentée par le biais d'un onduleur de tension. La classification non supervisée, basée sur l'algorithme des fourmis artificielles, permet d'analyser les observations inconnues et inexplorées afin de mettre en évidence les classes regroupant les observations similaires. Cela permet d'améliorer la classification et de détecter l'apparition de nouveaux modes de fonctionnement. La classification supervisée, basée sur les modèles de Markov cachés, permet d'associer un degré d'appartenance (sous forme d'une probabilité) lors de l'affectation d'une observation à une ou plusieurs classes. Cela permet de définir un indice de fiabilité à l'affectation réalisée mais aussi de détecter l'apparition de nouveaux modes de fonctionnement. Ces méthodes ne se limitent pas qu'à diagnostiquer les défauts, elles peuvent aussi contribuer au pronostic des défauts. En effet, le pronostic peut être défini comme une extension du problème de diagnostic. La prédiction d'un défaut est réalisée par trois méthodes basées sur les modèles de Markov cachés pour la détection de l'imminence d'un défaut ainsi que par deux méthodes basées sur le système neuro-flou (ANFIS pour Adaptive Neuro Fuzzy Inference System et le neurone neuro-flou) pour estimer le temps restant avant son apparition. Des données de vieillissement d'un ensemble de roulements à rouleaux ont été utilisées afin de tester les méthodes proposées. Les résultats obtenus montrent l'efficacité de ces méthodes pour le diagnostic et le pronostic des défauts dans les entraînements électriques / Faults diagnosis and prognosis of electrical drives play a key role in the reliability and safety of production tools especially in key sectors (military, aviation, aerospace and nuclear, etc.). The research presented in this thesis aims to introduce new methods for faults diagnosis and prognosis of an induction motors and roller bearings. These methods use measured data collected from sensors placed on the system (induction motor, roller) in order to construct a feature vector which indicates the state of the system. Supervised and unsupervised classification methods are developed to classify measurements (observations) described by the feature vector compared to known or unknown operating modes, with or without failures. Defects were created in the rotor and the bearing of the induction motor, fed by a voltage inverter. The unsupervised classification technique, based on artificial ant-clustering, allows analyzing the unknown and unexplored observations to highlight classes with similar observations. This allows improving the classification and the detection of new operating modes. The supervised classification, based on hidden Markov models, allows associating a degree of similarity when we affect an observation to one or more classes. This defines a reliability index which allows the detection of new operating modes. These methods are not limited to diagnose faults; they can also contribute to the prognosis of faults. Indeed, the prognosis can be defined as an extension of the problem of diagnosis. The prognosis of faults is carried out by three methods based on hidden Markov models for the detection of an impending failure and by two methods based on the neuro-fuzzy system (ANFIS for Adaptive Neuro fuzzy Inference System and the neo-fuzzy neuron) to estimate the remaining time before its appearance. A set of historical data collected on roller bearings is used to validate the proposed methods. The obtained results show the effectiveness of the proposed methods for faults diagnosis and prognosis of electrical drives

Actionneurs électriques

Traitement du signal

Mécanismes de défaillance

Vieillissement des composants

Maintenance prédictive

Intelligence artificielle

Reconnaissance de formes

Electric actuators

Signal processing

Failure mechanisms

Component aging

Predictive maintenance

Artificial intelligence

Pattern recognition

621.3

[en] AN APPROACH TO THE CONNECTIVITY PROBLEM IN MULTILATERAL IOT PLATFORMS / [pt] UMA ABORDAGEM PARA O PROBLEMA DE CONECTIVIDADE EM PLATAFORMAS MULTILATERAIS DE IOT

LUIZ GUILHERME DE OLIVEIRA PITTA

31 July 2018

[pt] A popularização da Internet das Coisas (IoT) abriu uma série de oportuni-dades para a geração de novas aplicações que não eram possíveis anteriormente. No cenário atual de IoT existem marketplaces que vendem soluções completas para os clientes com objetos inteligentes, gateways para a transmissão dos dados e provedores que analisam estes por uma taxa de assinatura. Partimos da visão de que no futuro deverá ocorrer uma uberização de IoT, onde cada pessoa poderá oferecer dados de sensores e acesso a atuadores para outra e que eles estarão categorizados com base no QoS dos objetos que os fornecem, similarmente como são classificadas commodities hoje. Além disso, haverá plataformas multilaterais onde essas informações poderão ser negociadas em combinação com provedores de conectividade, para transmitir os dados, e de análise. Uma plataforma que fornece esse serviço deve garantir que o fluxo de dados (e do estado) de objetos seja contínuo, sem expor para o cliente algum problema de conectividade entre eles e os provedores. Ou seja, ela deve ter mecanismos para detectá-los e rapidamente selecionar novos provedores, isso dentro de um cenário de intensa troca de dados. Este trabalho apresenta como contribuições um mecanismo de detecção contínuo de problemas de conectividade que utiliza o paradigma Publish-Subscribe para o envio de mensagens de identificação de problemas e uma solução arquitetural de uma plataforma baseada em conceitos de marketplaces para IoT, que inclui os serviços de comoditização dos provedores de serviço e o matchmaking para selecionar uma combinação destes para prestar serviços para o cliente. Um estudo de caso no domínio de marketplaces é conduzido, com a análise dos serviços da plataforma em vários cenários de testes e a avaliação do mecanismo de detecção de problemas de conectividade, com a simulação de diferentes falhas na conexão. / [en] The popularization of the Internet of Things (IoT) opened up a series of opportunities for the generation of new applications that were not previously possible. In the current scenario of IoT there are marketplaces that sell complete solutions for users with smart objects, gateways for data transmission and providers that analyze these for a subscription fee. We start from the view that in the future an uberization of IoT should occur, where each person can offer sensor data and access to actuators to another and that they will be categorized based on the QoS of the objects that provide them, similarly as commodities are classified today. In addition, there will be multilateral platforms where this information can be negotiated in combination with connectivity providers, to transmit data, and analytics. A platform that provides this service must ensure that the data (and state) flow of objects is continuous, without exposing to the user any connectivity problems between them and the providers. That is, it must have mechanisms to detect problems and quickly select new providers, all this in a scenario of intense data exchange. This work presents as contributions a continuous connectivity problem detection mechanism that uses a Publish-Subscribe paradigm to send problem identification messages and an architectural solution of a platform based on marketplaces concepts for IoT, which includes the commoditization of service providers and a matchmaking service to select a combination of these to provide services to the customer. A case study in the domain of marketplaces is conducted, with the analysis of the services of the platform with several tests scenarios and the evaluation of the mechanism of detection of connectivity problems, with the simulation of different connection failures.

[pt] COMPUTACAO MOVEL

[en] MOBILE COMPUTING

[pt] SENSOR

[en] SENSOR

[pt] ATUADORES

[en] ACTUATORS

[pt] MIDDLEWARE

[en] MIDDLEWARE

[pt] INTERNET DAS COISAS - IOT

[en] INTERNET OF THINGS - IOT

[pt] DADOS COMO COMMODITIES

[en] DATA AS COMMODITIES

[pt] SERVICOS PREDITIVOS E PRESCRITIVOS

Modelagem de estruturas piezelétricas para aplicação em localização de falhas

Marqui, Clayton Rodrigo [UNESP]

21 September 2007

Made available in DSpace on 2014-06-11T19:27:14Z (GMT). No. of bitstreams: 0 Previous issue date: 2007-09-21Bitstream added on 2014-06-13T19:35:08Z : No. of bitstreams: 1 marqui_cr_me_ilha.pdf: 2038827 bytes, checksum: 471f672b818089216b3b9afc3b90a230 (MD5) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Este trabalho apresenta o estudo e desenvolvimento de técnicas para o monitoramento da integridade estrutural em sistemas inteligentes com sensores e atuadores piezelétricos acoplados. Os índices de sensibilidade estudados e utilizados no monitoramento da estrutura são: índice de falha métrica, calculado diretamente do sinal de impedância elétrica dos sensores/atuadores piezelétricos; índices do sensor, calculados com as normas de sistemas ou com as matrizes grammiana de observabilidade e os índices de entrada, calculados com as matrizes grammianas de controlabilidade. Tais índices são utilizados para detectar e localizar as falhas em aplicações numéricas e experimentais. As normas de sistemas e as matrizes grammianas de controlabilidade e observabilidade são obtidas através de um modelo numérico, como por exemplo, Método dos Elementos Finitos; ou um modelo identificado experimentalmente, via o método de realização para autossistemas, mais conhecido como ERA (Eigensytem Realization Algorithm). Em uma segunda etapa do procedimento proposto, as falhas são quantificadas utilizando Redes Neurais Artificiais, que foram treinadas com as normas de sistemas e com as matrizes grammianas. / This work presents the study and development of Structural Health Monitoring techniques for application in intelligent systems with coupled piezoelectric sensors and actuators. The indices of sensitivity for structural monitoring are based on: root-means-square deviation index, directly calculated from electric impedance signal of the piezoelectric sensors/actuators; sensor indices, calculated from system norms or observability grammian matrix, and input index, calculated from controllability grammian matrix. Such indices are used for damage detection and location in numerical and experimental applications. System norms, controllability and observability grammian matrices are obtained through numerical model, as for instance, Finite Element Method; or by experimental identification technique, via Eigensytem Realization Algorithm (ERA). In the second stage of the proposed procedure, damages were quantified using Artificial Neural Networks, that were trained with systems norms and grammian matrices.

Localização de falhas (Engenharia)

Redes neurais (Computação)

Monitoramento da integridade estrutural

Modelagem de estruturas inteligentes

Redes neurais artificiais

Sensores e atuadores piezelétricos

Structural health monitorin

Smart structures modeling

Artificial neural networks

Piezoelectric sensors and actuators

Projeto de multi-atuadores piezelétricos homogêneos e gradados utilizando o método de otimização topológica. / Design of graded and homogeneous piezoelectric multi-actuators using the topology optimization method.

Ronny Calixto Carbonari

22 January 2008

Microdispositivos piezelétricos tem uma vasta aplicação em mecânica de precisão, como, por exemplo, manipulação de células, microcirurgias, equipamentos de nanotecnologia e principalmente em microeletromecanismos (MEMS). Os microdispositivos piezelétricos considerados nesta tese essencialmente consistem de uma estrutura multi-flexível atuada por duas ou mais piezocerâmicas, que geram deslocamentos e forças em direções e regiões pré-determinadas do domínio, ou seja, a estrutura multi-flexível atua como um transformador mecânico amplificando e alterando os deslocamentos gerados pelas piezocerâmicas nos movimentos de atuação. O desenvolvimento destes microdispositivos piezelétricos em sua grande maioria não utiliza ferramentas sistemáticas e genéricas. A complexidade dos movimentos de atuação torna o desenvolvimento dos microdispositivos piezelétricos complexo, principalmente devido ao surgimento de movimentos indesejados ou acoplados durante a sua atuação. Portanto, é necessário um método sistemático e eficiente como o método de otimização topológica (MOT), que incorpore na sua formulação as principais exigências de projeto dos microdispositivos, como apresentado nesse trabalho. O MOT implementado é baseado na abordagem CAMD (Distribuição Contínua da Distribuição de Material), onde as pseudo-densidades são interpoladas nos nós de cada elemento finito, resultando numa distribuição contínua de material no domínio. Um método adjunto foi implementado para o cálculo das sensibilidades. São consideradas três formulações. A primeira denominada de MAPs (Multi-Atuadores Piezelétricos) considera as regiões piezocerâmicas fixas, otimizando apenas a estrutura multi-flexível no domínio de projeto. Nesta formulação materiais não-piezelétricos (como, por exemplo, Alumínio) e vazio são distribuídos no domínio de projeto, mantendo as regiões piezocerâmicas fixas e homogêneas. Para validar os resultados obtidos com essa formulação foram fabricados protótipos de nanoposicionadores $XY$, que foram caracterizados experimentalmente utilizando técnicas de interferometria laser, considerando excitação quasi-estática. No entanto, essa primeira formulação impõe restrições no problema, limitando a optimalidade da solução obtida pela otimização topológica. Assim, surgiu a necessidade de desenvolver uma segunda formulação, que permite distribuir simultaneamente material não-piezelétrico, piezelétrico e vazio no domínio de projeto, denominada de LOMPs (Localização Ótima do Material Piezelétrico). A formulação dos LOMPs obtém simultaneamente a localização do material piezelétrico na estrutura flexível otimizada pela OT, e inclui também uma variável de projeto para determinar o ângulo ótimo entre as direções de polarização e do campo elétrico. Nesta formulação como as posições dos eletrodos não são conhecidas, ``a priori\'\', é utilizado como abordagem aplicar um campo elétrico constante para determinar a localização do material piezelétrico e conseqüentemente dos eletrodos. Finalmente, foi explorado o conceito de materiais com gradação funcional (MGFs) no projeto dos MAPs. Os MGFs apresentam uma distribuição contínua de materiais na sua microestrutura, não possuindo interface entre os materiais distribuídos, o que possibilita aumentar a vida útil do dispositivo piezelétrico. Assim, foi implementado uma terceira formulação denominada de MAPs MGFs, que permite obter a gradação ótima de materiais piezelétricos e não-piezelétricos no domínio piezocerâmico dos MAPs, conjuntamente com a topologia da estrutura multi-flexível. Essa formulação foi estendida para projetar atuadores bilaminares MGFs. Todas as formulações desenvolvidas utilizam uma função multi-objetivo, que permite controlar a rigidez e a flexibilidade minimizando o movimento acoplado, de cada movimento de atuação. Os exemplos numéricos são limitados a modelos bi-dimensionais, utilizando o estado plano de tensões e deformações mecânicas e elétricas, uma vez que a grande maioria das aplicações dos microdispositivos piezelétricos são bi-dimensionais. / Microtools offer significant promise in a wide range of applications such as cell manipulation, microsurgery, nanotechnology processes, and many other fields. The microtools considered in this doctoral thesis essentially consist of a multi-flexible structure actuated by two or more piezoceramic devices that when each piezoceramic is actuated, it generates an output displacement and force at a specified point of the domain and direction. The multi-flexible structure acts as a mechanical transformer by amplifying and changing the direction of the piezoceramic output displacements. Thus, the development of microtools requires the design of actuated flexible structures that can perform complex movements. The development of these microtools is still in the beginning and it can be strongly enhanced by using design tools. In addition, when multiple piezoceramic devices are involved, coupling effects in their movements become critical, especially the appearance of undesired movements, which makes the design task very complex. One way to avoid such undesirable effects is the use of a systematic design method, such as topology optimization, with appropriate formulation of the optimization problem. The topology optimization method implemented is based on the CAMD (Continuous Approximation of Material Distribution) approach where fictitious densities are interpolated at each finite element, providing a continuum material distribution in the domain. The corresponding sensitivity analysis is presented using the adjoint method. Three formulations are considered. The first formulation, called Piezoelectric Multi-Actuators (PMAs), keeps fixed piezoceramic positions in the design domain and only the flexible structure is designed by distributing some non-piezoelectric material (Aluminum, for example). $XY$ Piezoelectric Nanopositioner are manufactured and experimentally analyzed to validate the results of the topology optimization obtained using this formulation. Experimental analyses are conducted using laser interferometry to measure displacement, while considering a quasi-static excitation. However, this first formulation imposes a constraint to the position of piezoelectric material in the optimization problem limiting the optimality of the solution. Thus, the second formulation presented, called LOMPs, allows the simultaneous distribution of non-piezoelectric and piezoelectric material in the design domain, to achieve certain specified actuation movements. The optimization problem is posed as the simultaneous search for an optimal topology of a flexible structure as well as the optimal position of piezoceramics in the design domain and optimal rotation angle of piezoceramic material axes that maximize output displacements or output forces at a specified point of the domain and direction. When the distribution of a non-piezoelectric conductor material and a piezoceramic material is considered in the design domain, the electrode positions are not known ``a priori\'\'. To circumvent this problem, an electric field is applied as electrical excitation. Finally, the concept of functionally graded materials (FGM) is applied to PMAs design. FGMs are special materials that possess continuously graded properties without interfaces which can increase lifetime of piezoelectric devices. Thus, a third formulation is implemented to find the optimum gradation and polarization sign variation of piezoceramic FGMs, while simultaneously optimizing the multi-flexible structural configuration. This formulation is extended to design bimorph type FGM actuators. For all developed formulations, a multi-objective function is defined that controls the stiffness and flexibility, minimizing the coupling movement of each actuated movement. The present examples are limited to two-dimensional models because most part of the applications for such micro-tools are planar devices.

Atuadores piezelétricos (Projeto)

Materiais com Gradação Funcional (MGF)

Nanoposicionadores piezelétricos

Sistemas Micro-eletromecânico (MEMS)

Sistemas multi-físicos

Topologia (Otimização)

Functionally graded material (FGM)

Micro-electro-mechanical systems (MEMS)

Multiphysics

Nano-positioners

Piezoelectric actuators

Topology optimization

Método para proteção dos dados contra falhas de comunicação em redes de sensores sem fios. / Method for data protection against communication failures in smart sensors networks.

Rubens Ramires Sobrinho

30 November 2007

Este trabalho apresenta o desenvolvimento de um método para garantir a proteção dos dados contra falhas de comunicação, em redes de sensores inteligentes sem fios. A rede sem fios foi empregada nos ensaios de modelos físicos reduzidos em centrífuga para estudar o comportamento das âncoras \"tartaruga\", utilizadas nas linhas de ancoragem de sistemas oceânicos para produção de óleo e gás em águas profundas. O emprego da tecnologia de redes de sensores sem fios tem aumentado em muitas áreas da sociedade, principalmente na engenharia. Dessa forma, muitos problemas estão sendo enfrentados e estudados pelos pesquisadores. Sobretudo no que diz respeito à interferência ambiental, relação de potência e alcance, integridade da informação, miniaturização dos dispositivos, autonomia de energia, limitação de algoritmos e vida útil. A inserção da tecnologia de redes de sensores inteligentes sem fios nos ensaios de modelos físicos reduzidos em centrífuga, além de ser inédita no Brasil, permitirá avanços significativos na determinação de parâmetros que, atualmente, são de difícil obtenção com tecnologias convencionais como os sistemas de aquisição de dados e controle que utilizam cabos e fios. Muitas vezes depara-se com a inconveniência do peso dos cabos e dificuldades de instalação dos dispositivos nos modelos, pela sua pouca portabilidade. / This work present a method development to guarantee of the integrity data in the wireless smart sensor networks, employed in centrifuge physical modeling tests of anchors used as fixing devices of deep water production oil and gas systems. The use of wireless smart sensor networks technology has been increasing in many engineering areas. In spite of this evidence, lots of problems are being faced and studied by the researchers, environmental interference, power and reach relations, integrity of the information, miniaturization of the devices, energy autonomy, algorithms and useful life. The use of the wireless smart sensor networks technology in the reduced physical models test in centrifuge, by first time in Brazil, will allow significant advances in the parameters determination. The conventional instrumentation presents inconvenience of the weight cables and difficulties of the devices in the models by limited portability.

Centrífuga para ensaios geotécnicos

Engenharia Oceânica

Ensaios de modelos físicos reduzidos

Instrumentação eletrônica

Redes de sensores inteligentes sem fios

Sensores e atuadores

Actuators

Geotechnical tests in centrifuge

Instrumentation

Physical modeling tests

Sensors

Wireless smart sensors networks

Wireless systems

Modélisation stochastique pour la sûreté de fonctionnement des systèmes commandés / Stochastic modeling for dependability assessment of control systems

Langeron, Yves

08 January 2015

Dans le contexte des systèmes commandés, l’effort de recherche est principalement porté sur la reconfiguration d’une loi de commande à l’apparition d’une situation de défaut. La reconfiguration a pour objectif de pallier au défaut et donc de maintenir les performances du système. La problématique principale de nos travaux est d’étudier ces systèmes du point de vue de leur sûreté de fonctionnement en s’interrogeant sur les causes qui engendrent une situation de défaut. Pour cela, il est supposé l’existence d’une relation étroite entre la commande d’un système, sa dégradation et ses défauts. Un cadre de modélisation stochastique de la dégradation est proposé intégrant l’usage du système ainsi que les différents modes de détérioration. Le pronostic de la durée de vie résiduelle RUL de l’actionneur -élément critique de ces systèmes- est dérivé de l’ensemble des modèles. La RUL est alors utilisée comme un outil de reconfiguration de la loi LQR (Linear Quadratic Regulator) d’un système mono-actionné dans le cadre d’une maintenance prédictive. L’impact de cette nouvelle politique de maintenance sur les performances statiques et dynamiques du système est évalué. Enfin, le comportement stochastique d’un système tolérant aux fautes basé sur une redondance d’actionneurs est étudié au travers des modèles développés / In the context of control systems, the research effort is focused on how to reconfigure the control law upon the occurrence of a faulty situation. The reconfiguration procedure aims to overcome the fault and thus to maintain system performances. The main issue of this thesis is to study these systems in terms of their dependability by questioning the causes that generate a fault. Then it is assumed a close relationship between the control of a system, its degradation and its faults. A stochastic modelling framework is proposed combining the use of the system and the various modes of deterioration. The actuator is assumed to be the most critical part of a system. The prognosis of its remaining life RUL is derived from these models. This RUL is then used as a tool for reconfiguring the LQR law (Linear Quadratic Regulator) of a system with a single actuator in the context of a predictive maintenance. The impact of this new maintenance policy on static and dynamic performances is assessed. Finally the stochastic behavior of a fault tolerant control system is studied by means of the achieved models

Processus stochastiques

Détérioration

Durée de vie (ingénierie)

Fiabilité

Systèmes, théorie des

Entretien

Reconfiguration (informatique)

Actionneurs -- Défauts

Prévision, théorie de la

Stochastic process

Deterioration

Service life (engineering)

Reliability (engineering)

System theory

Maintenance

Actuators -- Defects

Prediction theory

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