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Automatic Image Segmentation for Hair Masking: two MethodsVestergren, Sara, Zandpour, Navid January 2019 (has links)
We propose two different methods for image segmentation with the objective of marking contaminated regions in images from biochemical tests. The contaminated regions consists of thin hair or fibers and the purpose of this thesis is to eliminate the tedious task of masking the contaminated regions by hand by implementing automatic hair masking. Initially an algorithm based on Morphological Image Processing is presented, followed by solving the problem of pixelwise classification using a Convolutional Neural Network (CNN). Finally, the performance of each implementation is measured by comparing the segmented images with labelled images which are considered to be the ground truth. The result shows that both implementations have strong potential at successfully performing semantic segmentation on the images from the biochemical tests.
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Reconhecimento de pessoas por meio da região interna da írisRogéri, Jonathan Gustavo [UNESP] 10 May 2011 (has links) (PDF)
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rogeri_jg_me_sjrp.pdf: 962940 bytes, checksum: 5f86f6439d28c1cc69d98e55069b9b90 (MD5) / Nos últimos anos, a segurança tornou-se uma preocupação constante da grande maioria das pessoas. Os sistemas biométricos vem ganhando destaque em soluções ligadas à segurança, uma vez que tratam de características físicas e comportamentais para reconhecimento dos indivíduos e permissões de acesso. Este trabalho objetivou a proposição e implementação de um método para reconhecimento de indivíduos por meio de características contidas na região interna da íris com um alto percentual de exatidão no reconhecimento e uma grande diminuição no tempo de processamento, se comparado aos demais métodos encontrados na literatura. No método proposto foram utilizados operadores de morfologia matemática para localização da íris, wavelet de log-Gabor para extração das características e a distância de Hamming para o reconhecimento. Os resultados experimentais obtidos utilizando a base de dados CASIA mostraram que o método é confiável e seguro, além de se destacar com relação ao baixo custo computacional / In the recent years, the security became a constant concern of most people. Biometric systems have been highlighted in solutions related to security, since they deal with physical and behavioral characteristics for individuals recognition and access permissions. This work aims at the implementation of a method for individuals recognition based on the characteristics of the inner region of the iris, seeking a high percentage of accuracy in the recognition and a great reduction in the processing time, as compared to other methods published so far. We use mathematical morphology to search the iris in the image, the log-Gabor wavelet for feature extraction and the Hamming distance for recognition. The experimental results obtained from CASIA database show that the method is safe and reliable, and stand out with regard to the low computational cost
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Robust facial expression recognition in the presence of rotation and partial occlusionMushfieldt, Diego January 2014 (has links)
>Magister Scientiae - MSc / This research proposes an approach to recognizing facial expressions in the presence of
rotations and partial occlusions of the face. The research is in the context of automatic
machine translation of South African Sign Language (SASL) to English. The proposed
method is able to accurately recognize frontal facial images at an average accuracy of
75%. It also achieves a high recognition accuracy of 70% for faces rotated to 60◦. It was
also shown that the method is able to continue to recognize facial expressions even in
the presence of full occlusions of the eyes, mouth and left/right sides of the face. The
accuracy was as high as 70% for occlusion of some areas. An additional finding was that
both the left and the right sides of the face are required for recognition. As an addition,
the foundation was laid for a fully automatic facial expression recognition system that
can accurately segment frontal or rotated faces in a video sequence.
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Reconhecimento de pessoas por meio da região interna da íris /Rogéri, Jonathan Gustavo. January 2011 (has links)
Orientador: Aledir Silveira Pereira / Banca: Aparecido Nilceu Marana / Banca: Evandro Luís Linhari Rodrigues / Resumo: Nos últimos anos, a segurança tornou-se uma preocupação constante da grande maioria das pessoas. Os sistemas biométricos vem ganhando destaque em soluções ligadas à segurança, uma vez que tratam de características físicas e comportamentais para reconhecimento dos indivíduos e permissões de acesso. Este trabalho objetivou a proposição e implementação de um método para reconhecimento de indivíduos por meio de características contidas na região interna da íris com um alto percentual de exatidão no reconhecimento e uma grande diminuição no tempo de processamento, se comparado aos demais métodos encontrados na literatura. No método proposto foram utilizados operadores de morfologia matemática para localização da íris, wavelet de log-Gabor para extração das características e a distância de Hamming para o reconhecimento. Os resultados experimentais obtidos utilizando a base de dados CASIA mostraram que o método é confiável e seguro, além de se destacar com relação ao baixo custo computacional / Abstract: In the recent years, the security became a constant concern of most people. Biometric systems have been highlighted in solutions related to security, since they deal with physical and behavioral characteristics for individuals recognition and access permissions. This work aims at the implementation of a method for individuals recognition based on the characteristics of the inner region of the iris, seeking a high percentage of accuracy in the recognition and a great reduction in the processing time, as compared to other methods published so far. We use mathematical morphology to search the iris in the image, the log-Gabor wavelet for feature extraction and the Hamming distance for recognition. The experimental results obtained from CASIA database show that the method is safe and reliable, and stand out with regard to the low computational cost / Mestre
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Faster upper body pose recognition and estimation using compute unified device architectureBrown, Dane January 2013 (has links)
>Magister Scientiae - MSc / The SASL project is in the process of developing a machine translation system that can
translate fully-fledged phrases between SASL and English in real-time. To-date, several
systems have been developed by the project focusing on facial expression, hand shape,
hand motion, hand orientation and hand location recognition and estimation. Achmed
developed a highly accurate upper body pose recognition and estimation system. The
system is capable of recognizing and estimating the location of the arms from a twodimensional video captured from a monocular view at an accuracy of 88%. The system operates at well below real-time speeds. This research aims to investigate the use of optimizations and parallel processing techniques using the CUDA framework on Achmed’s algorithm to achieve real-time upper body pose recognition and estimation. A detailed analysis of Achmed’s algorithm identified potential improvements to the algorithm. Are- implementation of Achmed’s algorithm on the CUDA framework, coupled with these improvements culminated in an enhanced upper body pose recognition and estimation system that operates in real-time with an increased accuracy.
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Obrazová analýza mitotických chromosomů / Digital image analysis of mitotic chromosomesDanielová, Tereza January 2014 (has links)
This master’s thesis is focused on digital image analysis of mitotic chromosomes. It deals with the design of the processing of digital images - from image preprocessing to clasification of each chromosomes, including testing on a set of images. This work introduces used cytogenetic methods, that are used to visualize chromosomes. In its practical part describes morphology operations and clasification procedure. Classification of the chomosomes was divided into 5 groups (A-G). All algorithms were created in the MATLAB program.
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Detekce výrobků na pásovém dopravníku / Detection of Objects on Belt ConveyerLáník, Aleš January 2008 (has links)
In this master thesis, object's detection in image and tracking these objects in temporal area will be presented. First, theoretical background of the image's preprocessing, image filtration, the foreground extraction, and many others various image's features will be described. Next, design and implementation of detector will be processed. This part of my master thesis containes mainly information about detection of objects on belt conveyer Finally,results, conclusion and many supplementary data such as a photography camera's location will be shown.
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[pt] COMPARAÇÃO DE MÉTODOS DE EXTRAÇÃO DE CURVAS DE DISPERSÃO BASEADOS EM TRANSFORMADA DE FOURIER 2-D E ATRAVÉS DO MÉTODO MATRIZ PENCIL / [en] COMPARISON OF EXTRACTION METHODS FOR DISPERSION CURVES USING 2-D FOURIER TRANSFORM AND MATRIX PENCIL METHODFELIPE DE CARVALHO G DE OLIVEIRA 16 May 2022 (has links)
[pt] Ondas ultrassônicas guiadas são usadas em larga escala em ensaios
não destrutivos (END) e Structural Health Monitoring (SHM), permitindo
a inspeção de estruturas e equipamentos de forma não invasiva. A partir
da transmissão de um sinal acústico sobre uma estrutura e a captação dos
sinais de onda propagados por meio de sensores posicionados estrategicamente,
é possível obter informações materiais do objeto inspecionado. Na área de
óleo e gás, o uso desse tipo de ondas acústicas é de grande importância
no levantamento do perfil da camada de cimento que reveste poços, que
tem função de conferir integridade estrutural e isolar a estrutura interna de
produção do poço das regiões freáticas do entorno. No processo de desativação e
abandono do poço, é fundamental avaliar a qualidade do isolamento hidráulico
do cimento, assim como identificar possíveis defeitos.
A propagação de ondas guiadas em uma estrutura se dá, em geral,
por meio de múltiplos modos e apresenta característica dispersiva, que se
traduz numa dependência da velocidade de fase das ondas com a frequência,
e uma relação não linear entre número de onda e frequência. A relação de
dispersão carrega informações do meio de propagação, tal como constantes
elásticas e dimensões, e pode ser visualizada a partir de curvas no plano
frequência-número de onda (f-k). Diferentes técnicas vêm sendo exploradas
para a obtenção das relações de dispersão a partir de sinais no domínio do
tempo captados por sensores ultrassônicos em posições espaciais distintas.
Este trabalho explora três métodos distintos para a extração das curvas
de dispersão, ou seja, obter os pontos f-k associados aos modos de propagação,
a partir de um conjunto de sinais dependentes do espaço-tempo. O primeiro
algoritmo se baseia em uma técnica pré-existente que usa uma Transformada
de Fourier bidimensional (2-D FT) sobre a matriz de dados de sinais de
sensores ultrassônicos no espaço-tempo, gerando uma matriz de amplitudes
no plano f-k onde os máximos locais representam pontos pertencentes a curvas de dispersão. A representação da matriz como uma imagem f-k permite
a visualização das curvas de dispersão como conjuntos contíguos de pixels
de maior claridade. Propõe-se um novo algoritmo baseado em operações
morfológicas de processamento de imagem para a identificação de pixels
relativos aos pontos das curvas de dispersão na imagem f-k, após um préprocessamento da mesma. A segunda técnica consiste no pré-processamento
dessa mesma imagem f-k, obtida pela 2-D FT, e uso de um algoritmo préexistente de detecção de estruturas curvilíneas em imagens para identificar
os pontos correspondentes às curvas f-k. O terceiro método é uma adaptação,
proposta aqui, de um algoritmo pré-existente para estimar os números de onda
das curvas de dispersão relativos a cada frequência através de uma matriz
Pencil. Propõe-se também um algoritmo original para a separação dos pontos
f-k encontrados pelas três técnicas de extração em curvas distintas.
Os algoritmos utilizados para a obtenção das curvas de dispersão têm
seu desempenho avaliado em três conjuntos de dados distintos de simulações
por elementos finitos, a saber, uma de placa de alumínio fina sob distintos
valores de tração axial aplicada paralelamente à direção de propagação das
ondas; um poço multicamada sem tubing possuindo diferentes tipos de defeito
de cimentação-channeling, qualidade de cimento baixa, descolamento interno
e externo -, assim como sem defeito; e um pouco multicamada com tubing
sob os mesmos defeitos de cimentação e também sem defeito. Compara-se a
capacidade dos algoritmos de extração das curvas de dispersão de oferecer
informações sobre mudanças materiais entre os casos simulados. Avalia-se
também a precisão e custo computacional dos mesmos. / [en] Ultrasonic guided waves are widely used in the fields of Non-Destructive
Evaluation (END) and Structural Health Monitoring (SHM), allowing the
inspection of structures and pieces of equipment in a non-invasive manner.
Through the transmission of an acoustic signal over a given object and the
acquisition of the signal from the propagated waves using a group of sensors in
predefined positions, it is possible to obtain material information regarding the
investigated structure. In the Oil & Gas industry, the use of this type of wave is
integral to the logging of the cement layer that outlines the walls of wellbores,
which has the purpose of guaranteeing structural support and protecting the
well’s internal production structure and the surrounding groundwater from
each other. During the deactivation and abandonment of a production well, it
is necessary to evaluate the hydraulic isolation of the cement layer, as well as
identify possible defects.
The propagation of guided waves in a structure is usually multi-modal
and of dispersive characteristic. The latter means that the propagating waves
phase velocity is dependent on the frequency, translating into a non-linear
relationship between wavenumber and frequency. This dispersion relation
contains information about the propagating medium, such as elastic constants
and dimensions, and can be represented as curves in the frequency-wavenumber
(f-k) plane. Different methods are currently being explored for obtaining the
dispersion relation from time-domain signals acquired by ultrasonic sensors in
different spatial positions.
This work explored three different methods for the extraction of the
dispersion curves, that is, obtaining the f-k points associated with the modes
of propagation, from a dataset composed of space-time signals. The first
algorithm is based on a pre-existing technique that uses the bidimensional
Fourier Transform (2-D FT) over the matrix containing the space-time signals
from the ultrasonic sensors, generating an f-k matrix whose local maximas
correspond to points belonging to dispersions curves. The representation of the matrix as an f-k image shows the dispersion curves as contiguous groups
of pixels with elevated brightness. A new algorithm is proposed, based on
morphological operations from image-processing, to identify the pixels relative
to the f-k points of the dispersion curves in the image, after pre-processing
is performed. The second technique consists of pre-processing the same fk image, obtained from the 2-D FT, and the use of an existing algorithm
for the detection of curvilinear structures in images to identify the points
corresponding to the f-k curves. The third method proposes the adaptation
of an existing method of estimation of the wavenumbers associated with the
dispersion curves for different frequencies, using a matrix Pencil. This work
also proposes an original algorithm to separate the f-k points, retrieved by the
three techniques, in different curves associated with each mode of propagation.
The algorithms used here for the estimation of the dispersion curves
are evaluated over three distinct datasets of finite elements simulation: a
thin aluminum plate under different values of axial traction parallel to the
direction of propagation of the waves; a multilayer wellbore without tubing,
with different types of cement defects-channeling, low cement quality, internal
and external decoupling-, and without defect; a multilayer wellbore with
tubing with the same cement defects and with no defect. Finally, a comparison
is drawn over the capacity of the extraction algorithms of providing information
regarding changes in the material qualities of the simulated objects. The
work also evaluates the precision and computational performance of the
aforementioned algorithms.
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Fault Detection and Diagnosis for Automotive Camera using Unsupervised Learning / Feldetektering och Diagnostik för Bilkamera med Oövervakat LärandeLi, Ziyou January 2023 (has links)
This thesis aims to investigate a fault detection and diagnosis system for automotive cameras using unsupervised learning. 1) Can a front-looking wide-angle camera image dataset be created using Hardware-in-Loop (HIL) simulations? 2) Can an Adversarial Autoencoder (AAE) based unsupervised camera fault detection and diagnosis method be crafted for SPA2 Vehicle Control Unit (VCU) using an image dataset created using Hardware-inLoop? 3) Does using AAE surpass the performance of using Variational Autoencoder (VAE) for the unsupervised automotive camera fault diagnosis model? In the field of camera fault studies, automotive cameras stand out for its complex operational context, particularly in Advanced Driver-Assistance Systems (ADAS) applications. The literature review finds a notable gap in comprehensive image datasets addressing the image artefact spectrum of ADAS-equipped automotive cameras under real-world driving conditions. In this study, normal and fault scenarios for automotive cameras are defined leveraging published and company studies and a fault diagnosis model using unsupervised learning is proposed and examined. The types of image faults defined and included are Lens Flare, Gaussian Noise and Dead Pixels. Along with normal driving images, a balanced fault-injected image dataset is collected using real-time sensor simulation under driving scenario with industrially-recognised HIL setup. An AAE-based unsupervised automotive camera fault diagnosis system using VGG16 as encoder-decoder structure is proposed and experiments on its performance are conducted on both the selfcollected dataset and fault-injected KITTI raw images. For non-processed KITTI dataset, morphological operations are examined and are employed as preprocessing. The performance of the system is discussed in comparison to supervised and unsupervised image partition methods in related works. The research found that the AAE method outperforms popular VAE method, using VGG16 as encoder-decoder structure significantly using 3-layer Convolutional Neural Network (CNN) and ResNet18 and morphological preprocessings significantly ameliorate system performance. The best performing VGG16- AAE model achieves 62.7% accuracy to diagnosis on own dataset, and 86.4% accuracy on double-erosion-processed fault-injected KITTI dataset. In conclusion, this study introduced a novel scheme for collecting automotive sensor data using Hardware-in-Loop, utilised preprocessing techniques that enhance image partitioning and examined the application of unsupervised models for diagnosing faults in automotive cameras. / Denna avhandling syftar till att undersöka ett felupptäcknings- och diagnossystem för bilkameror med hjälp av oövervakad inlärning. De huvudsakliga forskningsfrågorna är om en bilduppsättning från en frontmonterad vidvinkelkamera kan skapas med hjälp av Hardware-in-Loop (HIL)-simulationer, om en Adversarial Autoencoder (AAE)-baserad metod för oövervakad felupptäckt och diagnos för SPA2 Vehicle Control Unit (VCU) kan utformas med en bilduppsättning skapad med Hardware-in-Loop, och om användningen av AAE skulle överträffa prestandan av att använda Variational Autoencoder (VAE) för den oövervakade modellen för felanalys i bilkameror. Befintliga studier om felanalys fokuserar på roterande maskiner, luftbehandlingsenheter och järnvägsfordon. Få studier undersöker definitionen av feltyper i bilkameror och klassificerar normala och felaktiga bilddata från kameror i kommersiella passagerarfordon. I denna studie definieras normala och felaktiga scenarier för bilkameror och en modell för felanalys med oövervakad inlärning föreslås och undersöks. De typer av bildfel som definieras är Lens Flare, Gaussiskt brus och Döda pixlar. Tillsammans med normala bilder samlas en balanserad uppsättning felinjicerade bilder in med hjälp av realtidssensor-simulering under körscenarier med industriellt erkänd HIL-uppsättning. Ett AAE-baserat system för oövervakad felanalys i bilkameror med VGG16 som kodaredekoderstruktur föreslås och experiment på dess prestanda genomförs både på den självinsamlade uppsättningen och felinjicerade KITTI-raw-bilder. För icke-behandlade KITTI-uppsättningar undersöks morfologiska operationer och används som förbehandling. Systemets prestanda diskuteras i jämförelse med övervakade och oövervakade bildpartitioneringsmetoder i relaterade arbeten. Forskningen fann att AAE-metoden överträffar den populära VAEmetoden, genom att använda VGG16 som kodare-dekoderstruktur signifikant med ett 3-lagers konvolutionellt neuralt nätverk (CNN) och ResNet18 och morfologiska förbehandlingar förbättrar systemets prestanda avsevärt. Den bäst presterande VGG16-AAE-modellen uppnår 62,7 % noggrannhet för diagnos på egen uppsättning, och 86,4 % noggrannhet på dubbelerosionsbehandlad felinjicerad KITTI-uppsättning. Sammanfattningsvis introducerade denna studie ett nytt system för insamling av data från bilsensorer med Hardware-in-Loop, utnyttjade förbehandlingstekniker som förbättrar bildpartitionering och undersökte tillämpningen av oövervakade modeller för att diagnostisera fel i bilkameror.
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