Tree-Based Deep Mixture of Experts with Applications to Visual Saliency Prediction and Quality Robust Visual Recognition

abstract: Mixture of experts is a machine learning ensemble approach that consists of individual models that are trained to be ``experts'' on subsets of the data, and a gating network that provides weights to output a combination of the expert predictions. Mixture of experts models do not currently see wide use due to difficulty in training diverse experts and high computational requirements. This work presents modifications of the mixture of experts formulation that use domain knowledge to improve training, and incorporate parameter sharing among experts to reduce computational requirements. First, this work presents an application of mixture of experts models for quality robust visual recognition. First it is shown that human subjects outperform deep neural networks on classification of distorted images, and then propose a model, MixQualNet, that is more robust to distortions. The proposed model consists of ``experts'' that are trained on a particular type of image distortion. The final output of the model is a weighted sum of the expert models, where the weights are determined by a separate gating network. The proposed model also incorporates weight sharing to reduce the number of parameters, as well as increase performance. Second, an application of mixture of experts to predict visual saliency is presented. A computational saliency model attempts to predict where humans will look in an image. In the proposed model, each expert network is trained to predict saliency for a set of closely related images. The final saliency map is computed as a weighted mixture of the expert networks' outputs, with weights determined by a separate gating network. The proposed model achieves better performance than several other visual saliency models and a baseline non-mixture model. Finally, this work introduces a saliency model that is a weighted mixture of models trained for different levels of saliency. Levels of saliency include high saliency, which corresponds to regions where almost all subjects look, and low saliency, which corresponds to regions where some, but not all subjects look. The weighted mixture shows improved performance compared with baseline models because of the diversity of the individual model predictions.Dissertation/ThesisDoctoral Dissertation Electrical Engineering 201

Subjective and objective quality assessment of ancient degraded documents

Archiving, restoration and analysis of damaged manuscripts have been largely increased in recent decades. Usually, these documents are physically degraded because of aging and improper handing. They also cannot be processed manually because a massive volume of these documents exist in libraries and archives around the world. Therefore, automatic methodologies are needed to preserve and to process their content. These documents are usually processed through their images. Degraded document image processing is a difficult task mainly because of the existing physical degradations. While it can be very difficult to accurately locate and remove such distortions, analyzing the severity and type(s) of these distortions is feasible. This analysis provides useful information on the type and severity of degradations with a number of applications. The main contributions of this thesis are to propose models for objectively assessing the physical condition of document images and to classify their degradations. In this thesis, three datasets of degraded document images along with the subjective ratings for each image are developed. In addition, three no-reference document image quality assessment (NR-DIQA) metrics are proposed for historical and medieval document images. It should be mentioned that degraded medieval document images are a subset of the historical document images and may contain both graphical and textual content. Finally, we propose a degradation classification model in order to identify common distortion types in old document images. Essentially, existing no reference image quality assessment (NR-IQA) metrics are not designed to assess physical document distortions. In the first contribution, we propose the first dataset of degraded document images along with the human opinion scores for each document image. This dataset is introduced to evaluate the quality of historical document images. We also propose an objective NR-DIQA metric based on the statistics of the mean subtracted contrast normalized (MSCN) coefficients computed from segmented layers of each document image. The segmentation into four layers of foreground and background is done based on an analysis of the log-Gabor filters. This segmentation is based on the assumption that the sensitivity of the human visual system (HVS) is different at the locations of text and non-text. Experimental results show that the proposed metric has comparable or better performance than the state-of-the-art metrics, while it has a moderate complexity. Degradation identification and quality assessment can complement each other to provide information on both type and severity of degradations in document images. Therefore, we introduced, in the second contribution, a multi-distortion historical document image database that can be used for the research on quality assessment of degraded documents as well as degradation classification. The developed dataset contains historical document images which are classified into four categories based on their distortion types, namely, paper translucency, stain, readers’ annotations, and worn holes. An efficient NR-DIQA metric is then proposed based on three sets of spatial and frequency image features extracted from two layers of text and non-text. In addition, these features are used to estimate the probability of the four aforementioned physical distortions for the first time in the literature. Both proposed quality assessment and degradation classification models deliver a very promising performance. Finally, we develop in the third contribution a dataset and a quality assessment metric for degraded medieval document (DMD) images. This type of degraded images contains both textual and pictorial information. The introduced DMD dataset is the first dataset in its category that also provides human ratings. Also, we propose a new no-reference metric in order to evaluate the quality of DMD images in the developed dataset. The proposed metric is based on the extraction of several statistical features from three layers of text, non-text, and graphics. The segmentation is based on color saliency with assumption that pictorial parts are colorful. It also follows HVS that gives different weights to each layer. The experimental results validate the effectiveness of the proposed NR-DIQA strategy for DMD images

An automated image processing system for the detection of photoreceptor cells in adaptive optics retinal images

The rapid progress in Adaptive Optics (AO) imaging, in the last decades, has had a transformative impact on the entire approach underpinning the investigations of retinal tissues. Capable of imaging the retina in vivo at the cellular level, AO systems have revealed new insights into retinal structures, function, and the origins of various retinal pathologies. This has expanded the field of clinical research and opened a wide range of applications for AO imaging. The advances in image processing techniques contribute to a better observation of retinal microstructures and therefore more accurate detection of pathological conditions. The development of automated tools for processing images obtained with AO allows for objective examination of a larger number of images with time and cost savings and thus facilitates the use of AO imaging as a practical and efficient tool, by making it widely accessible to the clinical ophthalmic community. In this work, an image processing framework is developed that allows for enhancement of AO high-resolution retinal images and accurate detection of photoreceptor cells. The proposed framework consists of several stages: image quality assessment, illumination compensation, noise suppression, image registration, image restoration, enhancement and detection of photoreceptor cells. The visibility of retinal features is improved by tackling specific components of the AO imaging system, affecting the quality of acquired retinal data. Therefore, we attempt to fully recover AO retinal images, free from any induced degradation effects. A comparative study of different methods and evaluation of their efficiency on retinal datasets is performed by assessing image quality. In order to verify the achieved results, the cone packing density distribution was calculated and correlated with statistical histological data. From the performed experiments, it can be concluded that the proposed image processing framework can effectively improve photoreceptor cell image quality and thus can serve as a platform for further investigation of retinal tissues. Quantitative analysis of the retinal images obtained with the proposed image processing framework can be used for comparison with data related to pathological retinas, as well as for understanding the effect of age and retinal pathology on cone packing density and other microstructures

Deep learning based objective quality assessment of multidimensional visual content

Tese (doutorado) — Universidade de Brasília, Faculdade de Tecnologia, Departamento de Engenharia Elétrica, 2022.Na última década, houve um tremendo aumento na popularidade dos aplicativos multimídia, aumentando assim o conteúdo multimídia. Quando esses conteúdossão gerados, transmitidos, reconstruídos e compartilhados, seus valores de pixel originais são transformados. Nesse cenário, torna-se mais crucial e exigente avaliar a qualidade visual do conteúdo visual afetado para que os requisitos dos usuários finais sejam atendidos. Neste trabalho, investigamos recursos espaciais, temporais e angulares eficazes desenvolvendo algoritmos sem referência que avaliam a qualidade visual de conteúdo visual multidimensional distorcido. Usamos algoritmos de aprendizado de máquina e aprendizado profundo para obter precisão de previsão.Para avaliação de qualidade de imagem bidimensional (2D), usamos padrões binários locais multiescala e informações de saliência e treinamos/testamos esses recursos usando o Random Forest Regressor. Para avaliação de qualidade de vídeo 2D, apresentamos um novo conceito de saliência espacial e temporal e pontuações de qualidade objetivas personalizadas. Usamos um modelo leve baseado em Rede Neural Convolucional (CNN) para treinamento e teste em patches selecionados de quadros de vídeo.Para avaliação objetiva da qualidade de imagens de campo de luz (LFI) em quatro dimensões (4D), propomos sete métodos de avaliação de qualidade LFI (LF-IQA) no total. Considerando que o LFI é composto por multi-views densas, Inspired by Human Visual System (HVS), propomos nosso primeiro método LF-IQA que é baseado em uma arquitetura CNN de dois fluxos. O segundo e terceiro métodos LF-IQA também são baseados em uma arquitetura de dois fluxos, que incorpora CNN, Long Short-Term Memory (LSTM) e diversos recursos de gargalo. O quarto LF-IQA é baseado nas camadas CNN e Atrous Convolution (ACL), enquanto o quinto método usa as camadas CNN, ACL e LSTM. O sexto método LF-IQA também é baseado em uma arquitetura de dois fluxos, na qual EPIs horizontais e verticais são processados no domínio da frequência. Por último, mas não menos importante, o sétimo método LF-IQA é baseado em uma Rede Neural Convolucional de Gráfico. Para todos os métodos mencionados acima, realizamos experimentos intensivos e os resultados mostram que esses métodos superaram os métodos de última geração em conjuntos de dados de qualidade populares.Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES).In the last decade, there has been a tremendous increase in the popularity of multimedia applications, hence increasing multimedia content. When these contents are generated, transmitted, reconstructed and shared, their original pixel values are transformed. In this scenario, it becomes more crucial and demanding to assess visual quality of the affected visual content so that the requirements of end-users are satisfied. In this work, we investigate effective spatial, temporal, and angular features by developing no-reference algorithms that assess the visual quality of distorted multi-dimensional visual content. We use machine learning and deep learning algorithms to obtain prediction accuracy. For two-dimensional (2D) image quality assessment, we use multiscale local binary patterns and saliency information, and train / test these features using Random Forest Regressor. For 2D video quality assessment, we introduce a novel concept of spatial and temporal saliency and custom objective quality scores. We use a Convolutional Neural Network (CNN) based light-weight model for training and testing on selected patches of video frames. For objective quality assessment of four-dimensional (4D) light field images (LFI), we propose seven LFI quality assessment (LF-IQA) methods in total. Considering that LFI is composed of dense multi-views, Inspired by Human Visual System (HVS), we propose our first LF-IQA method that is based on a two-streams CNN architecture. The second and third LF-IQA methods are also based on a two-stream architecture, which incorporates CNN, Long Short-Term Memory (LSTM), and diverse bottleneck features. The fourth LF-IQA is based on CNN and Atrous Convolution layers (ACL), while the fifth method uses CNN, ACL, and LSTM layers. The sixth LF-IQA method is also based on a two-stream architecture, in which, horizontal and vertical EPIs are processed in the frequency domain. Last, but not least, the seventh LF-IQA method is based on a Graph Convolutional Neural Network. For all of the methods mentioned above, we performed intensive experiments, and the results show that these methods outperformed state-of-the-art methods on popular quality datasets

Advanced Sensing and Image Processing Techniques for Healthcare Applications

This Special Issue aims to attract the latest research and findings in the design, development and experimentation of healthcare-related technologies. This includes, but is not limited to, using novel sensing, imaging, data processing, machine learning, and artificially intelligent devices and algorithms to assist/monitor the elderly, patients, and the disabled population

Visual and Camera Sensors

This book includes 13 papers published in Special Issue ("Visual and Camera Sensors") of the journal Sensors. The goal of this Special Issue was to invite high-quality, state-of-the-art research papers dealing with challenging issues in visual and camera sensors

Métaheuristiques pour l’évaluation objective de la qualité d’images et de vidéos

Le travail présenté dans cette thèse s’inscrit dans le domaine d’évaluation objective de la qualité d’images et de vidéos et plus particulièrement sur l’évaluation de qualité avec réfé- rence complète. Il s’agit d’un domaine de recherche actif qui s’est imposé avec l’évolution rapide des technologies de l’informatique, des communications et des réseaux. Malgré la richesse des travaux dans ce domaine, et l’abondance des méthodes objectives d’évaluation (les métriques), le problème d’évaluation de qualité d’image reste toujours posé. En effet, les métriques présentées sont généralement spécifiques à un type particulier de dé- gradation, sensibles aux données bruitées par plusieurs types de dégradations, d’où l’idée de s’orienter vers de nouvelles approches recommandant la fusion de différentes métriques pour quantifier la qualité de l’image en se basant sur les techniques d’apprentissage et les métaheuristiques d’optimisation. Dans cette thèse, nous avons développé de nouvelles méthodes basées sur la programmation génétique multigène (MGGP) comme une technique d’apprentissage évolutive inspirée de l’évolution naturelle, permettant, à partir d’un ensemble d’apprentissage, de trouver de bons modèles de combinaison de métriques de qualité d’image, en optimisant simultanément deux objectifs concurrents : l’adéquation de modèles par rapport à leur corrélation avec les scores subjectifs de divers types de distorsions dans les images, et la complexité de leur structure. En raison de la croissance explosive des applications orientées écran, nous avons exploité les avantages offerts par MGGP afin de développer une mé- thode générique pour l’évaluation objective des images de contenu d’écran. Les résultats d’expérimentation menée sur les grands benchmarks, ont montré les performances supé- rieures des méthodes proposées par rapport aux mesures de pointe, y compris d’autres approches de fusion récemment publiées