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31	Estimação de rigidezes de mancais de rotores por análise de sensibilidade / Caldiron, Leonardo. January 2004 (has links) Orientador: Luiz de Paula do Nascimento / Banca: Katia Lucchesi Cavalca Dedini / Banca: Gilberto Pechoto de Melo / Resumo: Neste trabalho são otimizadas rotinas computacionais de um método de estimação de rigidez de mancais de máquinas através de um processo de ajuste de modelo, utilizando a análise de sensibilidade. Este método consiste em utilizar a análise de sensibilidade dos autovalores com relação à variação da rigidez dos mancais de um rotor. A eficácia e a robustez do método são analisadas através de simulações teóricas, bem como através de dados experimentais obtidos de um rotor de rotação variável e rigidezes dos mancais ajustáveis. O modelo matemático de ajuste do sistema é desenvolvido pelo método dos elementos finitos e o método de ajuste converge empregando-se um processo iterativo. Este método de ajuste baseia-se na minimização da diferença entre autovalores experimentais e autovalores obtidos com o modelo matemático de ajuste a partir de valores de rigidez dos mancais previamente adotados. A análise é feita com o rotor em diversas velocidades de rotação para verificar a influência do efeito giroscópio, e em diversas condições de valores da rigidez dos mancais para analisar o método quando aplicado em rotores flexíveis e em rotores rígidos. O desempenho do método é analisado com resultados teóricos e experimentais. / Abstract: In this work, computational routines of estimation method of stiffness bearing of machine via a model updating process are optimized, using the sensitivity analysis. This method consists of using the eigenvalue sensitivity analysis, relating to the stiffness bearing variation of a rotor. The efficacy and the robustness of the method are analyzed through the theoretical simulations, as well as, based on the experimental data obtained of a test rotor with variable rotating speeds and adjustable bearing stiffness values. The mathematical model system is developed by the finite element method and the method of adjustment should converge employing an iterative process. The method of adjustment is based on the minimization of the difference between experimental eigenvalues and eigenvalues obtained via mathematical model from previously adopted stiffness bearing values. The analysis is made by using the rotor in different rotating speeds in order to check the influence of the gyroscopic effect, and in several conditions of the stiffness bearing values to analyze the method when applied on flexible and rigid rotors. The performance of the method is analyzed through theoretical and experimental results. / Mestre Rotores - Dinâmica. Analise de sensibilidade. Model updating. eng Rotor dynamics. eng Sensitivity analysis. eng Parameter identification. eng
32	A numerical platform for the identification of dynamic non-linear constitutive laws using multiple impact tests : application to metal forming and machining Ming, Lu 28 March 2018 (has links) (PDF) The main concern of this thesis is to propose a new inverse identification procedure applied to metal forming and machining situations, which can provide an appropriate parameters set for any elastoplastic constitutive law following J_{2} plasticity and isotropic hardening, by evaluating the correlation between the experimental and numerical responses. Firstly the identification program has been developed, which combines the Levenberg-Marquardt algorithm and the Data processing methods to optimize the constitutive parameters. In terms of experimentation, dynamic compression and tensile tests have been conducted. The final deformed shape of specimens, which relies on a post-mortem analysis, has been selected as the observation quantity. As for the numerical simulation, the numerical models of the same experimental procedure have been built with the finite element software Abaqus/Explicit in order to provide numerical responses. A numerical algorithm has been proposed for the implementation of user defined elastoplastic constitutive laws in Abaqus/Explicit. Parameter identification Dynamic non-linear constitutive law Taylor impact test VUMAT Abaqus/Explicit
33	Identification de paramètres dans la fabrication de matériaux composites / Identification of parameters in the manufacture of composite materials Nguyen, Phuong Chi 12 April 2011 (has links) Ce travail est une contribution à l’étude du comportement de certains matériaux composites. Nous formalisons les observations expérimentales du point de vue mathématique, et menons une étude « critique » des différents modèles utilisés pour proposer des techniques génériques d’identification de paramètres dans ce contexte. Le manuscrit se divise en trois chapitres. Le chapitre 1 rappelle les principes élémentaires et le contexte mécanique de cette étude. On y présentera les hypothèses simplificatrices faites par la suite et les modèles de lois de comportement utilisés et testés. Le chapitre 2 est consacré à la modélisation du problème inverse avec utilisation du modèle de Grosberg et à son étude théorique et numérique. Le chapitre 3 reprend la démarche du chapitre précédent avec le modèle de Dahl. Outre la méthode numérique utilisée précédemment, nous utilisons une approche contrôle optimal et présentons des résultats plus rigoureux obtenus avec AMPL. / This work is a contribution to the study of the behavior of some composite materials. We formalize the experimental observations from the mathematical point of view, and are conducting a “critical” study of the various models used to propose generic techniques for parameter identification in this context. The manuscript is divided into three chapters. Chapter 1 recalls the basic principles and mechanics context of this study. It will present the simplifying assumptions made by the following models and behaviour laws that we used and tested. Chapter 2 is devoted to modeling the inverse problem using the model of Grosberg and its theoretical and numerical study. Chapter 3 takes the approach of the previous chapter with the model of Dahl. Besides the numerical method used previously, we use an optimal control approach and present results obtained with more rigorous method and AMPL. Identification de paramètres Modèle de Grosberg Modèle de Dahl Parameter identification Model of Grosberg Model of Dahl
34	Identification of the Parameters When the Density of the Minimum is Given Davis, John C 30 May 2007 (has links) Let (X1, X2, X3) be a tri-variate normal vector with a non-singular co-variance matrix ∑ , where for i ≠ j, ∑ij < 0 . It is shown here that it is then possible to determine the three means, the three variances and the three correlation coefficients based only on the knowledge of the probability density function for the minimum variate Y = min{X1 , X2 , X3 }. We will present a method for identifying the nine parameters which consists of careful determination of the asymptotic orders of various bivariate tail probabilities. Tri-variate normal Parameter identification Minimum variate Asymptotic order Tail probabilities American Studies Arts and Humanities
35	Online Identification of Friction Coefficients in an Industrial Robot Längkvist, Martin January 2009 (has links) <p>All mechanical systems with moving parts are affected by friction, including industrial robots. Being able to design an accurate friction model would further increase the performance of todays robots. Friction is a complex dynamic phenomena that is constantly changing depending on the state and environment of the robot. It is therefore beneficial to update the parameters of the friction model online. An estimate of the friction will be made using the feedback control signal with the help of a feedforward control scheme in a two axis simulation setup. The friction estimate is then used for an offline identification of three friction model parameters in a static Lugre friction model. Improvements on the identification will be done by introducing some shut-off rules that will improve the estimate. The normalized least mean square method (NLMS) will then be used to update the parameters online. A simulation of friction compensation with a fixed friction model, and with an adaptive friction model will be studied. The method will also be simulated using experimental data taken from a real industrial robot.</p> industrial robot friction static Lugre friction model friction compensation Automatic control Reglerteknik
36	Identification of Convection Constants for Electronic Packages Using Modified Genetic Algorithm and Reduced-Basis Method Yang, Zhenglin, Lee, Jung Hong, Liu, Guirong, Patera, Anthony T., Lam, Khin Yong 01 1900 (has links) A new inverse analysis method is presented to identify parameters of heat convection in microelectronic packages. This approach adopts a modified Micro Genetic Algorithm (µGA) in finding the global optimum of parameters. A reduced-basis approach is introduced in the forward heat transfer analysis so as to significantly improve the efficiency in the calculation. Different identification procedures are employed to identify heat convection coefficients of a typical microelectronic package. Comparisons between different algorithms are performed. Results show that the use of the reduced-basis method together with the modified µGA outperforms the conventional GAs significantly. The presented method of coefficient identification is ideal for practical applications. It is efficient enough even for online analysis of both forward and inverse problem. / Singapore-MIT Alliance (SMA) inverse analysis microelectronic package modified µGA parameter identification reduced-basis method
37	Self-tuned indirect field oriented controlled IM drive Masiala, Mavungu 11 1900 (has links) The simplest form of induction motors, known as AC squirrel cage motor, is the universal workhorse of industrial and commercial premises. For many years it was restricted to constant speed applications while DC motors were preferred for high-performance variable speed and servo drives. With modern advances in semiconductor and digital signal processing technologies, it is now possible to operate induction motors in high-performance drives at a reasonable cost with Field Oriented Control methods. The latter have made induction motor drives equivalent to DC drives in terms of independent control of flux and torque; and superior to them in terms of dynamic performance. In developing Field Oriented Control for induction motors engineers are faced with two major challenges: (1) the estimation of rotor data to compute for the slip gain, and (2) the compensation of changes in drive operating conditions and parameters in order to maintain the drive performance high at all time. This thesis addresses these issues by introducing two independent control systems. The first system is designed to estimate online the value of the slip gain in the entire torque-speed plane in order to maintain decoupled control of torque and flux despite the so-called detuning effects. It is based on evaluating the operating condition of the drive in terms frequency and load torque, and selecting the appropriate estimation method accordingly. A fuzzy controller is used to generate the distribution factor for the methods. The second system is a fuzzy self-tuning speed controller, with reduced sensitivity to motor parameters and operating condition changes. It has the ability to adjust its gains in real time according to the current trend of the drive system. It is designed to maintain tight control of speed and torque for high-performance applications. The performances of the two controllers are validated through a series of simulation and experimental tests using a 2HP 3-phase induction motor with an ADMC21992 160-MHz DSP microprocessor. / Power Engineering and Power Electronics Field oriented control Fuzzy logic Induction Motor Parameter identification Self-tuning
38	Identifikation von Waermeaustauschparametern Thermischer Netzwerke durch transient gemessene Knotentemperaturen bei minimierter Messzeit Erfurt 04 December 2001 (has links) (PDF) No description available.
39	Regularization of Parameter Problems for Dynamic Beam Models Rydström, Sara January 2010 (has links) The field of inverse problems is an area in applied mathematics that is of great importance in several scientific and industrial applications. Since an inverse problem is typically founded on non-linear and ill-posed models it is a very difficult problem to solve. To find a regularized solution it is crucial to have a priori information about the solution. Therefore, general theories are not sufficient considering new applications. In this thesis we consider the inverse problem to determine the beam bending stiffness from measurements of the transverse dynamic displacement. Of special interest is to localize parts with reduced bending stiffness. Driven by requirements in the wood-industry it is not enough considering time-efficient algorithms, the models must also be adapted to manage extremely short calculation times. For the developing of efficient methods inverse problems based on the fourth order Euler-Bernoulli beam equation and the second order string equation are studied. Important results are the transformation of a nonlinear regularization problem to a linear one and a convex procedure for finding parts with reduced bending stiffness. Euler-Bernoulli beam equation parameter identification bending stiffness refractive index Tikhonov regularization Applied mathematics Tillämpad matematik
40	Sensorless Control of Permanent-Magnet Synchronous Motors Using Online Parameter Identification Based on System Identification Theory Ichikawa, Shinji, Tomita, Mutuwo, Doki, Shinji, Okuma, Shigeru January 2006 (has links) No description available. Extended electromotive force (EEMF) online parameter identification sensorless control

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