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1. D2DF2WOD: Learning Object Proposals for Weakly-Supervised Object Detection via Progressive Domain Adaptation

Author

Wang, Yuting, Guerrero, Ricardo, and Pavlovic, Vladimir

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Weakly-supervised object detection (WSOD) models attempt to leverage image-level annotations in lieu of accurate but costly-to-obtain object localization labels. This oftentimes leads to substandard object detection and localization at inference time. To tackle this issue, we propose D2DF2WOD, a Dual-Domain Fully-to-Weakly Supervised Object Detection framework that leverages synthetic data, annotated with precise object localization, to supplement a natural image target domain, where only image-level labels are available. In its warm-up domain adaptation stage, the model learns a fully-supervised object detector (FSOD) to improve the precision of the object proposals in the target domain, and at the same time learns target-domain-specific and detection-aware proposal features. In its main WSOD stage, a WSOD model is specifically tuned to the target domain. The feature extractor and the object proposal generator of the WSOD model are built upon the fine-tuned FSOD model. We test D2DF2WOD on five dual-domain image benchmarks. The results show that our method results in consistently improved object detection and localization compared with state-of-the-art methods., Comment: published in WACV 2023

Published
2022

2. A digital business ecosystem maturity model for personal service firms

Author

Guerrero, Ricardo, Lattemann, Christoph, Michalke, Simon, and Siemon, Dominik

Subjects
Computer Science - Computers and Society
Abstract

Personal services can be found in sectors such as education, retail, hospitality, and craftsmanship. As of today, personal service firms lack the know-how and experience on how to implement processes and practices to effectively build digital business ecosystems. This becomes an obstacle for these kinds of firms to overcome the challenges of todays digital age. Based on the guidelines of Design Science Research (DSR), we address this gap by proposing a maturity model, which offers specific guidance for this sector to be able to achieve the transition from analog to digital. The design of the model is grounded in a systematic literature review, semi-structured interviews, and a validation test involving company representatives from the field of personal services, business ecosystems, and digitalization. Results revealed a series of dimensions, capabilities, and maturity stages indicating an evolutionary path towards digital maturity for personal service firms. Thus, leading them to achieve a digital business ecosystem., Comment: This is a draft chapter. The final version is available in Handbook on Digital Business Ecosystems edited by Sabine Baumann, published in 2022, Edward Elgar Publishing Ltd https://doi.org/10.4337/9781839107191.00026

Published
2022
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3. FS-DETR: Few-Shot DEtection TRansformer with prompting and without re-training

Author

Bulat, Adrian, Guerrero, Ricardo, Martinez, Brais, and Tzimiropoulos, Georgios

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

This paper is on Few-Shot Object Detection (FSOD), where given a few templates (examples) depicting a novel class (not seen during training), the goal is to detect all of its occurrences within a set of images. From a practical perspective, an FSOD system must fulfil the following desiderata: (a) it must be used as is, without requiring any fine-tuning at test time, (b) it must be able to process an arbitrary number of novel objects concurrently while supporting an arbitrary number of examples from each class and (c) it must achieve accuracy comparable to a closed system. Towards satisfying (a)-(c), in this work, we make the following contributions: We introduce, for the first time, a simple, yet powerful, few-shot detection transformer (FS-DETR) based on visual prompting that can address both desiderata (a) and (b). Our system builds upon the DETR framework, extending it based on two key ideas: (1) feed the provided visual templates of the novel classes as visual prompts during test time, and (2) ``stamp'' these prompts with pseudo-class embeddings (akin to soft prompting), which are then predicted at the output of the decoder. Importantly, we show that our system is not only more flexible than existing methods, but also, it makes a step towards satisfying desideratum (c). Specifically, it is significantly more accurate than all methods that do not require fine-tuning and even matches and outperforms the current state-of-the-art fine-tuning based methods on the most well-established benchmarks (PASCAL VOC & MSCOCO)., Comment: Accepted at ICCV 2023

Published
2022

4. SOS! Self-supervised Learning Over Sets Of Handled Objects In Egocentric Action Recognition

Author

Escorcia, Victor, Guerrero, Ricardo, Zhu, Xiatian, and Martinez, Brais

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Learning an egocentric action recognition model from video data is challenging due to distractors (e.g., irrelevant objects) in the background. Further integrating object information into an action model is hence beneficial. Existing methods often leverage a generic object detector to identify and represent the objects in the scene. However, several important issues remain. Object class annotations of good quality for the target domain (dataset) are still required for learning good object representation. Besides, previous methods deeply couple the existing action models and need to retrain them jointly with object representation, leading to costly and inflexible integration. To overcome both limitations, we introduce Self-Supervised Learning Over Sets (SOS), an approach to pre-train a generic Objects In Contact (OIC) representation model from video object regions detected by an off-the-shelf hand-object contact detector. Instead of augmenting object regions individually as in conventional self-supervised learning, we view the action process as a means of natural data transformations with unique spatio-temporal continuity and exploit the inherent relationships among per-video object sets. Extensive experiments on two datasets, EPIC-KITCHENS-100 and EGTEA, show that our OIC significantly boosts the performance of multiple state-of-the-art video classification models.

Published
2022

5. Multi-attribute Pizza Generator: Cross-domain Attribute Control with Conditional StyleGAN

Author

Han, Fangda, Hao, Guoyao, Guerrero, Ricardo, and Pavlovic, Vladimir

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Multi-attribute conditional image generation is a challenging problem in computervision. We propose Multi-attribute Pizza Generator (MPG), a conditional Generative Neural Network (GAN) framework for synthesizing images from a trichotomy of attributes: content, view-geometry, and implicit visual style. We design MPG by extending the state-of-the-art StyleGAN2, using a new conditioning technique that guides the intermediate feature maps to learn multi-scale multi-attribute entangled representationsof controlling attributes. Because of the complex nature of the multi-attribute image generation problem, we regularize the image generation by predicting the explicit conditioning attributes (ingredients and view). To synthesize a pizza image with view attributesoutside the range of natural training images, we design a CGI pizza dataset PizzaView using 3D pizza models and employ it to train a view attribute regressor to regularize the generation process, bridging the real and CGI training datasets. To verify the efficacy of MPG, we test it on Pizza10, a carefully annotated multi-ingredient pizza image dataset. MPG can successfully generate photo-realistic pizza images with desired ingredients and view attributes, beyond the range of those observed in real-world training data., Comment: To appear in British Machine Vision Conference (BMVC) 2021. arXiv admin note: text overlap with arXiv:2012.02821

Published
2021

6. CHEF: Cross-modal Hierarchical Embeddings for Food Domain Retrieval

Author

Pham, Hai X., Guerrero, Ricardo, Li, Jiatong, and Pavlovic, Vladimir

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Despite the abundance of multi-modal data, such as image-text pairs, there has been little effort in understanding the individual entities and their different roles in the construction of these data instances. In this work, we endeavour to discover the entities and their corresponding importance in cooking recipes automaticall} as a visual-linguistic association problem. More specifically, we introduce a novel cross-modal learning framework to jointly model the latent representations of images and text in the food image-recipe association and retrieval tasks. This model allows one to discover complex functional and hierarchical relationships between images and text, and among textual parts of a recipe including title, ingredients and cooking instructions. Our experiments show that by making use of efficient tree-structured Long Short-Term Memory as the text encoder in our computational cross-modal retrieval framework, we are not only able to identify the main ingredients and cooking actions in the recipe descriptions without explicit supervision, but we can also learn more meaningful feature representations of food recipes, appropriate for challenging cross-modal retrieval and recipe adaption tasks., Comment: 22 pages, accepted in AAAI 2021

Published
2021

8. MPG: A Multi-ingredient Pizza Image Generator with Conditional StyleGANs

Author

Han, Fangda, Hao, Guoyao, Guerrero, Ricardo, and Pavlovic, Vladimir

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Computation and Language
Abstract

Multilabel conditional image generation is a challenging problem in computer vision. In this work we propose Multi-ingredient Pizza Generator (MPG), a conditional Generative Neural Network (GAN) framework for synthesizing multilabel images. We design MPG based on a state-of-the-art GAN structure called StyleGAN2, in which we develop a new conditioning technique by enforcing intermediate feature maps to learn scalewise label information. Because of the complex nature of the multilabel image generation problem, we also regularize synthetic image by predicting the corresponding ingredients as well as encourage the discriminator to distinguish between matched image and mismatched image. To verify the efficacy of MPG, we test it on Pizza10, which is a carefully annotated multi-ingredient pizza image dataset. MPG can successfully generate photo-realist pizza images with desired ingredients. The framework can be easily extend to other multilabel image generation scenarios.

Published
2020

9. Cross-Modal Retrieval and Synthesis (X-MRS): Closing the Modality Gap in Shared Representation Learning

Author

Guerrero, Ricardo, Pham, Hai Xuan, and Pavlovic, Vladimir

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Information Retrieval, Computer Science - Machine Learning
Abstract

Computational food analysis (CFA) naturally requires multi-modal evidence of a particular food, e.g., images, recipe text, etc. A key to making CFA possible is multi-modal shared representation learning, which aims to create a joint representation of the multiple views (text and image) of the data. In this work we propose a method for food domain cross-modal shared representation learning that preserves the vast semantic richness present in the food data. Our proposed method employs an effective transformer-based multilingual recipe encoder coupled with a traditional image embedding architecture. Here, we propose the use of imperfect multilingual translations to effectively regularize the model while at the same time adding functionality across multiple languages and alphabets. Experimental analysis on the public Recipe1M dataset shows that the representation learned via the proposed method significantly outperforms the current state-of-the-arts (SOTA) on retrieval tasks. Furthermore, the representational power of the learned representation is demonstrated through a generative food image synthesis model conditioned on recipe embeddings. Synthesized images can effectively reproduce the visual appearance of paired samples, indicating that the learned representation captures the joint semantics of both the textual recipe and its visual content, thus narrowing the modality gap.

Published
2020

10. Learning Disentangled Latent Factors from Paired Data in Cross-Modal Retrieval: An Implicit Identifiable VAE Approach

Author

Kim, Minyoung, Guerrero, Ricardo, and Pavlovic, Vladimir

Subjects
Computer Science - Machine Learning, Computer Science - Computer Vision and Pattern Recognition
Abstract

We deal with the problem of learning the underlying disentangled latent factors that are shared between the paired bi-modal data in cross-modal retrieval. Our assumption is that the data in both modalities are complex, structured, and high dimensional (e.g., image and text), for which the conventional deep auto-encoding latent variable models such as the Variational Autoencoder (VAE) often suffer from difficulty of accurate decoder training or realistic synthesis. A suboptimally trained decoder can potentially harm the model's capability of identifying the true factors. In this paper we propose a novel idea of the implicit decoder, which completely removes the ambient data decoding module from a latent variable model, via implicit encoder inversion that is achieved by Jacobian regularization of the low-dimensional embedding function. Motivated from the recent Identifiable VAE (IVAE) model, we modify it to incorporate the query modality data as conditioning auxiliary input, which allows us to prove that the true parameters of the model can be identified under some regularity conditions. Tested on various datasets where the true factors are fully/partially available, our model is shown to identify the factors accurately, significantly outperforming conventional encoder-decoder latent variable models. We also test our model on the Recipe1M, the large-scale food image/recipe dataset, where the learned factors by our approach highly coincide with the most pronounced food factors that are widely agreed on, including savoriness, wateriness, and greenness.

Published
2020

11. Picture-to-Amount (PITA): Predicting Relative Ingredient Amounts from Food Images

Author

Li, Jiatong, Han, Fangda, Guerrero, Ricardo, and Pavlovic, Vladimir

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Increased awareness of the impact of food consumption on health and lifestyle today has given rise to novel data-driven food analysis systems. Although these systems may recognize the ingredients, a detailed analysis of their amounts in the meal, which is paramount for estimating the correct nutrition, is usually ignored. In this paper, we study the novel and challenging problem of predicting the relative amount of each ingredient from a food image. We propose PITA, the Picture-to-Amount deep learning architecture to solve the problem. More specifically, we predict the ingredient amounts using a domain-driven Wasserstein loss from image-to-recipe cross-modal embeddings learned to align the two views of food data. Experiments on a dataset of recipes collected from the Internet show the model generates promising results and improves the baselines on this challenging task. A demo of our system and our data is availableat: foodai.cs.rutgers.edu.

Published
2020

12. CookGAN: Meal Image Synthesis from Ingredients

Author

Han, Fangda, Guerrero, Ricardo, and Pavlovic, Vladimir

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In this work we propose a new computational framework, based on generative deep models, for synthesis of photo-realistic food meal images from textual list of its ingredients. Previous works on synthesis of images from text typically rely on pre-trained text models to extract text features, followed by generative neural networks (GAN) aimed to generate realistic images conditioned on the text features. These works mainly focus on generating spatially compact and well-defined categories of objects, such as birds or flowers, but meal images are significantly more complex, consisting of multiple ingredients whose appearance and spatial qualities are further modified by cooking methods. To generate real-like meal images from ingredients, we propose Cook Generative Adversarial Networks (CookGAN), CookGAN first builds an attention-based ingredients-image association model, which is then used to condition a generative neural network tasked with synthesizing meal images. Furthermore, a cycle-consistent constraint is added to further improve image quality and control appearance. Experiments show our model is able to generate meal images corresponding to the ingredients., Comment: 10 pages, 5 figures, accepted by WACV 2020. arXiv admin note: substantial text overlap with arXiv:1905.13149

Published
2020

13. Monolithic CMOS photoluminescence lifetime microsensors for oxygen concentration measurement

Author

Guerrero, Ricardo Jose, Murray, Alan, Smith, Stewart, and Flynn, Brian

Subjects
SPAD, Single Photon Avalanche Diode, Photoluminescence, Phosphorescence, TCSPC, Time-correlated Single Photon Counting, Silicon LED, Avalanche Diode, PLµS, photoluminescence lifetime, CMOS
Abstract

The oxygen partial pressure within a cancer tumour is a key factor which determines the prognosis and the effectiveness of cancer treatments; particularly radiotherapy. Due to the unregulated growth of cancer cells, the supporting vasculature is incapable of supplying the entire tumour. This leads to inhomogeneities that vary both spatially, as some parts of the tumour are not serviced by the blood supply; and temporally as the vasculature formed can be temporary and disappear and reform due to a number of factors. The lack of oxygen within a tumour is known as hypoxia wherein a cell - or in the case of a cancer tumour, a grouping of cells - is devoid of oxygen due to a lack of blood supply. The ability to measure and monitor the levels of hypoxia within a cancer tumour is thus important to ensure that cancer treatments are given at periods of maximum efficacy wherein hypoxia is least present. Measurement of tumour hypoxia is currently typically achieved through the use of one-off imaging methods such as PET or MRI scans and thus cannot be used for continuous monitoring. The Implantable Microsystems for Personalised Anti-Cancer Therapy (IMPACT) project aims to allow continuous monitoring of the tumour microenvironment via miniaturised oxygen sensors, with the main focus being the use of electrochemical sensors. As driven by the main goal of the IMPACT project, this PhD work presents the development of a novel microsensor integrable and manufactured with standard CMOS fabrication technologies capable of monitoring of oxygen concentrations via measurement of the photoluminescence (PL) emission lifetime of oxygen-sensitive luminophores. Three iterations of CMOS microchips were developed in the High-Voltage austriamicrosystems 0.35 µm technology node over the course of the PhD to reach a functioning photoluminescence lifetime microsensor (PLµS); with each chip contributing to a better understanding of the overall PLµS design. The developed PLµS chip is the first-of-its-kind monolithic photoluminescence microsensor. It consists of silicon light emitting diodes (SiLED) for PL excitation, silicon photon avalanche diodes (SPAD) for detection of the emission, and the associated switching and driving circuitry required for PL lifetime measurement. This developed PLµS pixel is 125×125µm2 and can be modularly added to other CMOS microsystems in the same process. To functionalise the PLµS for oxygen concentration measurements, platinum octaethylporphyrin (PtOEP) is immobilised in polystyrene to form an oxygen sensitive PL material which is deposited directly onto the PLµS. This work demonstrates the capability of the PLµS to measure the photoluminescence lifetimes of the PtOEP-PS film when exposed to gaseous oxygen concentrations of 0% to 21%. While all PLµS measurements were done ex-vivo, the tested concentration ranges cover all possible physiologic oxygen concentrations including those associated with tumour hypoxia. Continuation of this work would be the use of the PLµS for testing of biological samples, and the extension of the capabilities of the PLµS pixel itself for the measurement of other optical biomarkers.

Published
2021
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14. Deep Cooking: Predicting Relative Food Ingredient Amounts from Images

Author

Li, Jiatong, Guerrero, Ricardo, and Pavlovic, Vladimir

Subjects
Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

In this paper, we study the novel problem of not only predicting ingredients from a food image, but also predicting the relative amounts of the detected ingredients. We propose two prediction-based models using deep learning that output sparse and dense predictions, coupled with important semi-automatic multi-database integrative data pre-processing, to solve the problem. Experiments on a dataset of recipes collected from the Internet show the models generate encouraging experimental results.

Published
2019
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15. The Art of Food: Meal Image Synthesis from Ingredients

Author

Han, Fangda, Guerrero, Ricardo, and Pavlovic, Vladimir

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Graphics, Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

In this work we propose a new computational framework, based on generative deep models, for synthesis of photo-realistic food meal images from textual descriptions of its ingredients. Previous works on synthesis of images from text typically rely on pre-trained text models to extract text features, followed by a generative neural networks (GANs) aimed to generate realistic images conditioned on the text features. These works mainly focus on generating spatially compact and well-defined categories of objects, such as birds or flowers. In contrast, meal images are significantly more complex, consisting of multiple ingredients whose appearance and spatial qualities are further modified by cooking methods. We propose a method that first builds an attention-based ingredients-image association model, which is then used to condition a generative neural network tasked with synthesizing meal images. Furthermore, a cycle-consistent constraint is added to further improve image quality and control appearance. Extensive experiments show our model is able to generate meal image corresponding to the ingredients, which could be used to augment existing dataset for solving other computational food analysis problems., Comment: 12 pages, 6 figures, 2 tables, under review as a conference paper at BMVC 2019

Published
2019

16. Meta-Weighted Gaussian Process Experts for Personalized Forecasting of AD Cognitive Changes

Author

Rudovic, Ognjen, Utsumi, Yuria, Guerrero, Ricardo, Peterson, Kelly, Rueckert, Daniel, and Picard, Rosalind W.

Subjects
Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

We introduce a novel personalized Gaussian Process Experts (pGPE) model for predicting per-subject ADAS-Cog13 cognitive scores -- a significant predictor of Alzheimer's Disease (AD) in the cognitive domain -- over the future 6, 12, 18, and 24 months. We start by training a population-level model using multi-modal data from previously seen subjects using a base Gaussian Process (GP) regression. Then, we personalize this model by adapting the base GP sequentially over time to a new (target) subject using domain adaptive GPs, and also by training subject-specific GP. While we show that these models achieve improved performance when selectively applied to the forecasting task (one performs better than the other on different subjects/visits), the average performance per model is suboptimal. To this end, we used the notion of meta learning in the proposed pGPE to design a regression-based weighting of these expert models, where the expert weights are optimized for each subject and his/her future visit. The results on a cohort of subjects from the ADNI dataset show that this newly introduced personalized weighting of the expert models leads to large improvements in accurately forecasting future ADAS-Cog13 scores and their fine-grained changes associated with the AD progression. This approach has potential to help identify at-risk patients early and improve the construction of clinical trials for AD.

Published
2019

18. GAN Augmentation: Augmenting Training Data using Generative Adversarial Networks

Author

Bowles, Christopher, Chen, Liang, Guerrero, Ricardo, Bentley, Paul, Gunn, Roger, Hammers, Alexander, Dickie, David Alexander, Hernández, Maria Valdés, Wardlaw, Joanna, and Rueckert, Daniel

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

One of the biggest issues facing the use of machine learning in medical imaging is the lack of availability of large, labelled datasets. The annotation of medical images is not only expensive and time consuming but also highly dependent on the availability of expert observers. The limited amount of training data can inhibit the performance of supervised machine learning algorithms which often need very large quantities of data on which to train to avoid overfitting. So far, much effort has been directed at extracting as much information as possible from what data is available. Generative Adversarial Networks (GANs) offer a novel way to unlock additional information from a dataset by generating synthetic samples with the appearance of real images. This paper demonstrates the feasibility of introducing GAN derived synthetic data to the training datasets in two brain segmentation tasks, leading to improvements in Dice Similarity Coefficient (DSC) of between 1 and 5 percentage points under different conditions, with the strongest effects seen fewer than ten training image stacks are available.

Published
2018

19. Automatic View Planning with Multi-scale Deep Reinforcement Learning Agents

Author

Alansary, Amir, Folgoc, Loic Le, Vaillant, Ghislain, Oktay, Ozan, Li, Yuanwei, Bai, Wenjia, Passerat-Palmbach, Jonathan, Guerrero, Ricardo, Kamnitsas, Konstantinos, Hou, Benjamin, McDonagh, Steven, Glocker, Ben, Kainz, Bernhard, and Rueckert, Daniel

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We propose a fully automatic method to find standardized view planes in 3D image acquisitions. Standard view images are important in clinical practice as they provide a means to perform biometric measurements from similar anatomical regions. These views are often constrained to the native orientation of a 3D image acquisition. Navigating through target anatomy to find the required view plane is tedious and operator-dependent. For this task, we employ a multi-scale reinforcement learning (RL) agent framework and extensively evaluate several Deep Q-Network (DQN) based strategies. RL enables a natural learning paradigm by interaction with the environment, which can be used to mimic experienced operators. We evaluate our results using the distance between the anatomical landmarks and detected planes, and the angles between their normal vector and target. The proposed algorithm is assessed on the mid-sagittal and anterior-posterior commissure planes of brain MRI, and the 4-chamber long-axis plane commonly used in cardiac MRI, achieving accuracy of 1.53mm, 1.98mm and 4.84mm, respectively., Comment: Accepted for MICCAI2018

Published
2018

20. Disease Prediction using Graph Convolutional Networks: Application to Autism Spectrum Disorder and Alzheimer's Disease

Author

Parisot, Sarah, Ktena, Sofia Ira, Ferrante, Enzo, Lee, Matthew, Guerrero, Ricardo, Glocker, Ben, and Rueckert, Daniel

Subjects
Statistics - Machine Learning, Computer Science - Learning
Abstract

Graphs are widely used as a natural framework that captures interactions between individual elements represented as nodes in a graph. In medical applications, specifically, nodes can represent individuals within a potentially large population (patients or healthy controls) accompanied by a set of features, while the graph edges incorporate associations between subjects in an intuitive manner. This representation allows to incorporate the wealth of imaging and non-imaging information as well as individual subject features simultaneously in disease classification tasks. Previous graph-based approaches for supervised or unsupervised learning in the context of disease prediction solely focus on pairwise similarities between subjects, disregarding individual characteristics and features, or rather rely on subject-specific imaging feature vectors and fail to model interactions between them. In this paper, we present a thorough evaluation of a generic framework that leverages both imaging and non-imaging information and can be used for brain analysis in large populations. This framework exploits Graph Convolutional Networks (GCNs) and involves representing populations as a sparse graph, where its nodes are associated with imaging-based feature vectors, while phenotypic information is integrated as edge weights. The extensive evaluation explores the effect of each individual component of this framework on disease prediction performance and further compares it to different baselines. The framework performance is tested on two large datasets with diverse underlying data, ABIDE and ADNI, for the prediction of Autism Spectrum Disorder and conversion to Alzheimer's disease, respectively. Our analysis shows that our novel framework can improve over state-of-the-art results on both databases, with 70.4% classification accuracy for ABIDE and 80.0% for ADNI., Comment: in Press at Medical Image Analysis, MICCAI 2017 Special Issue

Published
2018
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21. Personalized Gaussian Processes for Forecasting of Alzheimer's Disease Assessment Scale-Cognition Sub-Scale (ADAS-Cog13)

Author

Utsumi, Yuria, Rudovic, Ognjen, Peterson, Kelly, Guerrero, Ricardo, and Picard, Rosalind W.

Subjects
Computer Science - Learning, Statistics - Applications
Abstract

In this paper, we introduce the use of a personalized Gaussian Process model (pGP) to predict per-patient changes in ADAS-Cog13 -- a significant predictor of Alzheimer's Disease (AD) in the cognitive domain -- using data from each patient's previous visits, and testing on future (held-out) data. We start by learning a population-level model using multi-modal data from previously seen patients using a base Gaussian Process (GP) regression. The personalized GP (pGP) is formed by adapting the base GP sequentially over time to a new (target) patient using domain adaptive GPs. We extend this personalized approach to predict the values of ADAS-Cog13 over the future 6, 12, 18, and 24 months. We compare this approach to a GP model trained only on past data of the target patients (tGP), as well as to a new approach that combines pGP with tGP. We find that the new approach, combining pGP with tGP, leads to large improvements in accurately forecasting future ADAS-Cog13 scores., Comment: International Engineering in Medicine and Biology Conference (EMBC) 2018 - accepted. 5 pages. arXiv admin note: text overlap with arXiv:1712.00181

Published
2018

22. Personalized Gaussian Processes for Future Prediction of Alzheimer's Disease Progression

Author

Peterson, Kelly, Rudovic, Ognjen, Guerrero, Ricardo, and Picard, Rosalind W.

Subjects
Computer Science - Learning, Quantitative Biology - Quantitative Methods, Statistics - Machine Learning
Abstract

In this paper, we introduce the use of a personalized Gaussian Process model (pGP) to predict the key metrics of Alzheimer's Disease progression (MMSE, ADAS-Cog13, CDRSB and CS) based on each patient's previous visits. We start by learning a population-level model using multi-modal data from previously seen patients using the base Gaussian Process (GP) regression. Then, this model is adapted sequentially over time to a new patient using domain adaptive GPs to form the patient's pGP. We show that this new approach, together with an auto-regressive formulation, leads to significant improvements in forecasting future clinical status and cognitive scores for target patients when compared to modeling the population with traditional GPs., Comment: 13 pages

Published
2017

28. Biodiversity and potential functionality of biofilm-sediment biotope in La Muerte lagoon, Monegros Desert, Spain.

Author

Berlanga, Mercedes, Picart, Pere, Blasco, Arnau, Benaiges-Fernandez, Robert, Guerrero, Ricardo, Butturini, Andrea, Urmeneta, Jordi, Darlene Mowe, Maxine Allayne, and Gao, Yu

Subjects
BODIES of water, BACTERIAL communities, LAGOONS, BIOFILMS, ARCHAEBACTERIA, CALVIN cycle, CARBON fixation, NITROGEN fixation, PROKARYOTES
Abstract

La Muerte lagoon is an ephemeral endorheic water body located in the Monegros desert, Zaragoza, Spain. Amplicon sequencing of the 16S rRNA gene was performed to analyze the bacterial and archaeal communities in biofilmsediment samples over three years, to understand the dynamic changes in the microbial community. PICRUSt and shotgun metagenomics were used to examine energy production and carbohydrate metabolism pathways. The dominant bacterial phyla were Actinobacteriota, Bacteroidota, Cyanobacteriota, and Pseudomonadota, while Halobacteriota was the predominant archaeal phylum. Despite seasonal environmental fluctuations, the biofilm community remained stable over time, suggesting resilience. The Calvin-Benson cycle was the main carbon fixation pathway, carried out by Cyanobacteria and purple non-sulfur bacteria. Nitrogen fixation by diazotrophs supplied an important nitrogen source. Organic carbon was derived primarily from autotrophs, with little use of allochthonous plant material. The comparison of biofilm-sediment and water column biotopes showed distinct but related prokaryote communities. Biofilm-sediments showed higher taxonomic diversity and different proportions of microbial phyla compared to the water column. This study provides initial insights into the complex microbial life in endorheic lagoons and underscores the importance of protecting these globally threatened habitats. The limited sample size in this study warrants further investigation with a more comprehensive sampling strategy to fully characterize the microbial communities and their functional roles in the different biotopes of La Muerte lagoon. [ABSTRACT FROM AUTHOR]

Published
2024
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29. LA ARQUITECTURA DEL PENSAMIENTO ANALÓGICO. TANGUÁ BENACH, UNA MIRADA A LA ARQUITECTURA DEL PAISAJE ANDINO-AMAZÓNICA.

Author

Manosalva, María Angélica, Arias Romero, Carlos Orlando, Segura Trujillo, Andrés Felipe, and Baracaldo Guerrero, Ricardo Elías

Subjects
FOOTHILLS, BIOMES, JUNGLES, TRAILS, MYTH, LANDSCAPE architecture
Abstract

Copyright of Universum is the property of Instituto de Estudios Humanisticos Juan Ignacio Molina, Universidad de Talca and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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37. Linguistic Restrictions in Automatic Translation from Written Spanish to Mexican Sign Language

Author

Pichardo-Lagunas, Obdulia, Martínez-Seis, Bella, Ponce-de-León-Chávez, Alejandro, Pegueros-Denis, Carlos, Muñoz-Guerrero, Ricardo, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Sidorov, Grigori, editor, and Herrera-Alcántara, Oscar, editor

Published
2017
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39. Multi-input Cardiac Image Super-Resolution Using Convolutional Neural Networks

Author

Oktay, Ozan, Bai, Wenjia, Lee, Matthew, Guerrero, Ricardo, Kamnitsas, Konstantinos, Caballero, Jose, de Marvao, Antonio, Cook, Stuart, O’Regan, Declan, Rueckert, Daniel, Hutchison, David, Editorial Board Member, Kanade, Takeo, Editorial Board Member, Kittler, Josef, Editorial Board Member, Kleinberg, Jon M., Editorial Board Member, Mattern, Friedemann, Editorial Board Member, Mitchell, John C., Editorial Board Member, Naor, Moni, Editorial Board Member, Pandu Rangan, C., Editorial Board Member, Terzopoulos, Demetri, Editorial Board Member, Tygar, Doug, Editorial Board Member, Weikum, Gerhard, Series Editor, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Ourselin, Sebastien, editor, Joskowicz, Leo, editor, Sabuncu, Mert R., editor, Unal, Gozde, editor, and Wells, William, editor

Published
2016
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40. Pseudo-healthy Image Synthesis for White Matter Lesion Segmentation

Author

Bowles, Christopher, Qin, Chen, Ledig, Christian, Guerrero, Ricardo, Gunn, Roger, Hammers, Alexander, Sakka, Eleni, Dickie, David Alexander, Hernández, Maria Valdés, Royle, Natalie, Wardlaw, Joanna, Rhodius-Meester, Hanneke, Tijms, Betty, Lemstra, Afina W., van der Flier, Wiesje, Barkhof, Frederik, Scheltens, Philip, Rueckert, Daniel, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Tsaftaris, Sotirios A., editor, Gooya, Ali, editor, Frangi, Alejandro F., editor, and Prince, Jerry L., editor

Published
2016
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47. List of contributors

Author

Berry, Paul E., primary, Bevilacqua, Mariapia, additional, Bonaccorso, Elisa, additional, Breure, Abraham S.H., additional, Brewer Carías, Charles, additional, Costa, Mauro, additional, Derka, Tomáš, additional, Fučíková, Karolina, additional, Guerrero, Ricardo, additional, Huber, Otto, additional, K. Lim, Burton, additional, Kaštovský, Jan, additional, Lentino, Miguel, additional, Lew, Daniel, additional, Michelangeli, Fabián A., additional, Montoya, Encarni, additional, Nogué, Sandra, additional, Ochoa, José A., additional, Pérez-Emán, Jorge L., additional, Riina, Ricarda, additional, Rojas-Runjaic, Fernando J.M., additional, Rull, Valentí, additional, Safont, Elisabet, additional, Señaris, Celsa, additional, Tierno de Figueroa, José Manuel, additional, Vegas-Vilarrúbia, Teresa, additional, Veselá, Jana, additional, Viloria, Ángel L., additional, and Zamora-Muñoz, Carmen, additional

Published
2019
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49. Multi-stage Biomarker Models for Progression Estimation in Alzheimer’s Disease

Author

on behalf of the Alzheimers Disease Neuroimaging Initiative, Schmidt-Richberg, Alexander, Guerrero, Ricardo, Ledig, Christian, Molina-Abril, Helena, Frangi, Alejandro F., Rueckert, Daniel, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Ourselin, Sebastien, editor, Alexander, Daniel C., editor, Westin, Carl-Fredrik, editor, and Cardoso, M. Jorge, editor

Published
2015
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