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Covariance and Gramian matrices in control and systems theoryFernando, Kurukulasuriya Vicenza January 1983 (has links)
Covariance and Gramian matrices in control and systems theory and pattern recognition are studied in the context of reduction of dimensionality and hence complexity of large-scale systems. This is achieved by the removal of redundant or 'almost' redundant information contained in the covariance and Grarrdan matrices. The Karhunen-Loeve expansion (principal component analysis) and its extensions and the singular value decomposition of matrices provide the framework for the work presented in the thesis. The results given for linear dynamical systems are based on controllability and observability Gramians and some new developments in singular perturbational analysis are also presented.
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Signal processing using the wavelet transform and the Karhunen-Loeve transformJin, Shasha, Gaoding, Ningcheng January 2012 (has links)
This degree project deals with Wavelet transform and Karhunen-Loeve transform. Through the mathematic description to understand and simulation to investigate the denoise ability of WT and the de-correlation ability of KLT. Mainly prove that the new algorithm which is the joint of these two algorithms is feasible.
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Person Identification Based on Karhunen-Loeve TransformChen, Chin-Ta 16 July 2004 (has links)
Abstract
In this dissertation, person identification systems based on Karhunen-Loeve transform (KLT) are investigated. Both speaker and face recognition are considered in our design. Among many aspects of the system design issues, three important problems: how to improve the correct classification rate, how to reduce the computational cost and how to increase the robustness property of the system, are addressed in this thesis.
Improvement of the correct classification rate and reduction of the computational cost for the person identification system can be accomplished by appropriate feature design methodology. KLT and hard-limited KLT (HLKLT) are proposed here to extract class related features. Theoretically, KLT is the optimal transform in minimum mean square error and maximal energy packing sense. The transformed data is totally uncorrelated and it contains most of the classification information in the first few coordinates. Therefore, satisfactory correct classification rate can be achieved by using only the first few KLT derived eigenfeatures.
In the above data transformation process, the transformed data is calculated from the inner products of the original samples and the selected eigenvectors. The computation is of course floating point arithmetic. If this linear transformation process can be further reduced to integer arithmetic, the time used for both person feature training and person classification will be greatly reduced. The hard-limiting process (HLKLT) here is used to extract the zero-crossing information in the eigenvectors, which is hypothesized to contain important information that can be used for classification. This kind of feature tremendously simplifies the linear transformation process since the computation is merely integer arithmetic.
In this thesis, it is demonstrated that the hard-limited KL transform has much simpler structure than that of the KL transform and it possess approximately the same excellent performances for both speaker identification system and face recognition system.
Moreover, a hybrid KLT/GMM speaker identification system is proposed in this thesis to improve classification rate and to save computational time. The increase of the correct rate comes from the fact that two different sets of speech features, one from the KLT features, the other from the MFCC features of the Gaussian mixture speaker model (GMM), are applied in the hybrid system.
Furthermore, this hybrid system performs classification in a sequential manner. In the first stage, the relatively faster KLT features are used as the initial candidate selection tool to discard those speakers with larger separability. Then in the second stage, the GMM is utilized as the final speaker recognition means to make the ultimate decision. Therefore, only a small portion of the speakers needed to be discriminated in the time-consuming GMM stage. Our results show that the combination is beneficial to both classification accuracy and computational cost.
The above hybrid KLT/GMM design is also applied to a robust speaker identification system. Under both additive white Gaussian noise (AWGN) and car noise environments, it is demonstrated that accuracy improvement and computational saving compared to the conventional GMM model can be achieved.
Genetic algorithm (GA) is proposed in this thesis to improve the speaker identification performance of the vector quantizer (VQ) by avoiding typical local minima incurred in the LBG process. The results indicates that this scheme is useful for our application on recognition and practice.
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Mitigating discontinuities in segmented Karhunen-Loeve TransformsStadnicka, Monika, Blanes, Ian, Serra-Sagrista, Joan, Marcellin, Michael W. 09 1900 (has links)
The Karhunen-Loeve Transform (KLT) is a popular transform used in multiple image processing scenarios. Sometimes, the application of the KLT is not carried out as a single transform over an entire image Rather, the image is divided into smaller spatial regions (segments), each of which is transformed by a smaller dimensional KLT. Such a situation may penalize the transform efficiency. An improvement for the segmented KLT, aiming at mitigating discontinuities arising on the edge of adjacent regions, is proposed in this paper. In the case of moderately varying image regions, discontinuities occur as the consequence of disregarded similarity between transform domains, as the order and sign of eigenvectors in the transform matrices are mismatched. In the proposed method, the KLT is adjusted to guarantee the best achievable similarity via the optimal assignment and sign correspondence for eigenvectors. Experimental results indicate that the proposed transform improves the similarity between transform domains, and reduces RMSE on the edge of adjacent regions. In consequence, images processed by the adjusted KLT present better cohesion and continuity between independently transformed regions.
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A Design of Speech Recognition System for Two-Word Mandarin PhrasesJheng, He-de 06 September 2007 (has links)
The objective of this thesis is to increase the correct recognition rate of the two-word Mandarin phrases. The reason for inaccuracy is due to the ambiguities of the syllables and the intonations. For the syllable ambiguity, a balanced speech training dataset is designed and the weights of the state observation probabilities on vowels and consonants are adjusted. For the tone ambiguity, both the pitch contour and the spectrum evolution property derived from the Karhunen-Loéve transform are applied. The experimental results indicate that an 85% correct rate can be achieved, that is a 6% increase in the performance for the system without the above improvements.
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A design of face recognition systemJiang, Ming-Hong 11 August 2003 (has links)
The design of a face recognition system ( FRS ) can been separated into two major modules ¡V face detection and face recognition.
In the face detection part, we combine image pre-processing techniques with maximum-likelihood estimation to detect the nearest frontal face in a single image. Under limited restrictions, our detection method overcomes some of the challenging tasks, such as variability in scale, location, orientation, facial expression, occlusion ( glasses ), and lighting change.
In the face recognition part, we use both Karhunen-Loeve transform and linear discrimant analysis ( LDA ) to perform feature extraction. In this feature extraction process, the features are calculated from the inner products of the original samples and the selected eigenvectors. In general, as the size of the face database is increased, the recognition time will be proportionally increased. To solve this problem, hard-limited Karhunen-Loeve transform ( HLKLT ) is applied to reduce the computation time in our FRS.
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[en] LOW DIMENSIONAL MODELS FOR NONLINEAR VIBRATION ANALYSIS AND STABILITY OF CYLINDRICAL SHELLS. / [pt] MODELOS DE DIMENSÃO REDUZIDA PARA ANÁLISE DAS OSCILAÇÕES NÃO-LINEARES E ESTABILIDADE DE CASCAS CILÍNDRICASFREDERICO MARTINS ALVES DA SILVA 27 May 2008 (has links)
[pt] Nesta tese, as vibrações não-lineares e a estabilidade de
uma casca cilíndrica contendo um fluido são estudadas com
base em modelos de dimensão reduzida, isto é, modelos com
um número reduzido de graus de liberdade. A partir dos
funcionais de energia potencial e cinética de uma casca
cilíndrica, deduzem-se suas equações de movimento. O campo
de deformações da casca cilíndrica segue a teoria não-
linear de Donnell para cascas abatidas. O fluido é
considerado interno à casca irrotacional, não-viscoso e
incompressível, sendo descrito a partir de um potencial de
velocidade que leva em consideração a interação entre o
fluido e a estrutura. Para resolver o sistema de equações de
equilíbrio da casca, desenvolve-se um procedimento
analítico que permite obter os campos de deslocamento axial
e circunferencial em função dos deslocamentos laterais,
além de atender as condições de contorno do problema.
Desta forma, reduz-se o sistema de equações de equilíbrio a
uma única equação diferencial parcial que é resolvida com o
método de Galerkin. A determinação dos deslocamentos
laterais é feita a partir de técnicas de perturbação que
ordena os modos não-lineares de acordo com sua importância
na solução da casca cilíndrica. Comprova-se essa ordenação
através do método de Karhunen-Loève que fornece, também,
uma expansão ótima para os deslocamentos laterais. Além
dessas técnicas, apresenta-se uma redução polinomial que
relacionam as amplitudes dos modos não-lineares com a
amplitude do modo linear, criando uma expansão modal com 1
GDL. Apresentam-se respostas no tempo, fronteiras de
instabilidade e diagramas de bifurcação para uma casca
cilíndrica submetida a dois tipos de carregamentos
harmônicos, pressão lateral e carga axial. A seguir, são
propostos alguns critérios para a análise da a
integridade do sistema dinâmico tanto para um sistema com 1
GDL quanto para um sistema multidimensional através da
evolução e erosão das bacias de atração. Por fim, estuda-se
o comportamento de cascas cilíndricas parcialmente
cheias, mostrando a influência da altura do fluido nas
fronteiras de instabilidade e curvas de ressonância da
casca cilíndrica. / [en] The nonlinear vibrations and stability of a fluid-filled
cylindrical shell is investigated using reduced order
models. First, the nonlinear equations of motion
of the cylindrical shell are deduced based on the
expressions for the potential and kinetic energy, which are
obtained using Donnell shallow shell theory. The
internal fluid is considered to be irrotational, non-
viscous and incompressible. It is described by a velocity
potential that takes into account the fluid-shell
interaction. A procedure is proposed to obtain analytically
the axial and circumferential displacements of the shell,
satisfying the in-plane equations of motion and the
associated boundary conditions. So, the problem is reduced
to one partial differential equation of motion which is
solved by the Galerkin method. The transversal displacement
field is obtained by perturbation techniques. This enables
one to identify the relevance of each term in the nonlinear
expansion of the vibration modes. Then, the Karhunen-Loève
method is employed to investigate de relative importance of
each mode obtained by the perturbation analysis on the
nonlinear response and to deduce optimal interpolation
function to be used in the Galerkin procedure. A SDOF model
is also obtained by relating the modal amplitudes of the
nonlinear modes to the vibration amplitude of the linear
mode. Time responses, instability boundaries and ifurcation
diagrams are obtained for cylindrical shells subjected to
harmonic lateral and axial loads. Different procedures for
the analysis of the shell integrity are proposed based on
the evolution and erosion of the basins of attraction in
state-space. Finally, the influence of the fluid height on
the stability boundaries and resonance curves is studied.
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[pt] ANÁLISE DE VIBRAÇÕES DE SISTEMAS LINEARES E NÃO-LINEARES NO CONTEXTO DA FORMULAÇÃO FRACA, ANÁLISE MODAL E DECOMPOSIÇÃO DE KARHUNEN-LOÈVE / [en] VIBRATION ANALYSIS OF LINEAR AND NON-LINEAR SYSTEMS IN THE CONTEXT OF WEAK-FORMULATION, MODAL ANALYSIS AND KARHUNEN-LOÈVEN BASISTHIAGO GAMBOA RITTO 06 January 2006 (has links)
[pt] Neste trabalho a Análise de Vibrações é tratada no
contexto da formulação
fraca. Um sistema contínuo é formulado abstratamente em um
espaço de
Hilbert e uma base de projeção é escolhida para a
dinâmica. Um esquema de
convergência para a aproximação é garantido à medida em
que se aumenta o
número de funções da base usada para representar a
resposta do problema.
Esta é a idéia por traz de métodos como o Método dos
Elementos Finitos e
o Método dos Modos Supostos, que derivam do Método de
Galerkin. Esta
estratégia é diferente do que comumente é ensinado nos
cursos de vibrações,
onde um sistema massa-mola é analisado, e sistemas
discretos formados por
massas, molas e amortecedores são discutidos. Nestes casos
não se sabe qual
é o erro cometido na análise numérica. A Análise de
Vibrações é muito usada
na manutenção preditiva de máquinas rotativas. Alguns
fenômenos observados nesses equipamentos motivaram o
desenvolvimento de um modelo
numérico que pudesse reproduzir tais fenômenos para melhor
entendê-los.
Um sistema rotor-mancal é modelado e sua resposta dinâmica
comparada
qualitativamente com a resposta dinâmica captada através
de acelerômetros
fixados nos mancais de um exaustor da Companhia
Siderúrgica
de Tubarão
(CST). Durante o trabalho diversos programas foram
desenvolvidos através
da plataforma MATLAB. / [en] Vibration Analysis is treated in the context of weak
formulation. A continuous system is formulated in the
Hilbert space and one base is selected
to project the dynamics. An approximation scheme is
guaranteed by increasing the number of functions in the
base used to represent the response.
This is the idea behind methods like the Finite Element
Method and Assumed Modes Method, which derive from
Galerkin Method. This strategy
is different from what is commonly taught in vibration
courses, where a
mass-spring system is analyzed and discrete systems
composed by masses,
springs and dashpots are discussed. In those cases the
error of the numerical
analysis is not known. Vibration Analysis is very used in
predictive maintenance of rotating machines. Some
phenomenons observed in those machines
motivated the development of a numerical model that could
reproduce such
phenomenons to better understand them. A rotor-bearing
system is modelled and its dynamic response is qualitative
compared to the dynamic response captured by
accelerometers fixed on the bearings of a blower of the
steel company Companhia Siderúrgica de Tubarão (CST).
During this work
several programs were developed using MATLAB software.
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Méthodes exploratoires d'analyse de données temporellesSaporta, Gilbert 10 June 1981 (has links) (PDF)
L'analyse en composantes principales et l'analyse des correspondances sont généralisées pour étudier des ensembles de trajectoires de processus numériques ou qualitatifs. On étudie également certains problèmes de régression avec une infinité non dénombrable de variables: régression sur un processus, régression d'un processus sur un autre.
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A Hybrid Design of Speech Recognition System for Chinese NamesHsu, Po-Min 06 September 2004 (has links)
A speech recognition system for Chinese names based on Karhunen Loeve transform (KLT), MFCC, hidden Markov model (HMM) and Viterbi algorithm is proposed in this thesis. KLT is the optimal transform in minimum mean square error and maximal energy packing sense to reduce data. HMM is a stochastic approach which characterizes many of the variability in speech signal by recording the state transitions. For the speaker-dependent case, the correct identification rate can be achieved 93.97% within 3 seconds in the laboratory environment.
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