Your search keyword '"Zapirain, Begoña"' showing total 5 results

1. Predicting Genetic Disorder and Types of Disorder Using Chain Classifier Approach.

Author

Raza A, Rustam F, Siddiqui HUR, Diez IT, Garcia-Zapirain B, Lee E, and Ashraf I

Subjects

Humans, Prognosis, Random Forest, Artificial Intelligence, Neoplasms

Abstract

Genetic disorders are the result of mutation in the deoxyribonucleic acid (DNA) sequence which can be developed or inherited from parents. Such mutations may lead to fatal diseases such as Alzheimer's, cancer, Hemochromatosis, etc. Recently, the use of artificial intelligence-based methods has shown superb success in the prediction and prognosis of different diseases. The potential of such methods can be utilized to predict genetic disorders at an early stage using the genome data for timely treatment. This study focuses on the multi-label multi-class problem and makes two major contributions to genetic disorder prediction. A novel feature engineering approach is proposed where the class probabilities from an extra tree (ET) and random forest (RF) are joined to make a feature set for model training. Secondly, the study utilizes the classifier chain approach where multiple classifiers are joined in a chain and the predictions from all the preceding classifiers are used by the conceding classifiers to make the final prediction. Because of the multi-label multi-class data, macro accuracy, Hamming loss, and α -evaluation score are used to evaluate the performance. Results suggest that extreme gradient boosting (XGB) produces the best scores with a 92% α -evaluation score and a 84% macro accuracy score. The performance of XGB is much better than state-of-the-art approaches, in terms of both performance and computational complexity.

Published

2022

2. Detection of pigment network in dermoscopy images using supervised machine learning and structural analysis.

Author

García Arroyo JL and García Zapirain B

Subjects

Humans, Algorithms, Artificial Intelligence, Databases, Factual, Dermoscopy methods, Image Processing, Computer-Assisted methods, Melanoma pathology, Skin Neoplasms pathology, Skin Pigmentation

Abstract

By means of this study, a detection algorithm for the "pigment network" in dermoscopic images is presented, one of the most relevant indicators in the diagnosis of melanoma. The design of the algorithm consists of two blocks. In the first one, a machine learning process is carried out, allowing the generation of a set of rules which, when applied over the image, permit the construction of a mask with the pixels candidates to be part of the pigment network. In the second block, an analysis of the structures over this mask is carried out, searching for those corresponding to the pigment network and making the diagnosis, whether it has pigment network or not, and also generating the mask corresponding to this pattern, if any. The method was tested against a database of 220 images, obtaining 86% sensitivity and 81.67% specificity, which proves the reliability of the algorithm., (© 2013 The Authors. Published by Elsevier Ltd. All rights reserved.)

Published

2014

3. Are AI systems biased against the poor? A machine learning analysis using Word2Vec and GloVe embeddings

Author

Curto, Georgina, Jojoa Acosta, Mario Fernando, Comim, Flavio, and Garcia-Zapirain, Begoña

Published

2024

4. Predicting Genetic Disorder and Types of Disorder Using Chain Classifier Approach.

Author

Raza, Ali, Rustam, Furqan, Siddiqui, Hafeez Ur Rehman, Diez, Isabel de la Torre, Garcia-Zapirain, Begoña, Lee, Ernesto, and Ashraf, Imran

Subjects

GENETIC disorders, ARTIFICIAL intelligence, DNA, ALZHEIMER'S disease, RANDOM forest algorithms, TAGS (Metadata)

Abstract

Genetic disorders are the result of mutation in the deoxyribonucleic acid (DNA) sequence which can be developed or inherited from parents. Such mutations may lead to fatal diseases such as Alzheimer's, cancer, Hemochromatosis, etc. Recently, the use of artificial intelligence-based methods has shown superb success in the prediction and prognosis of different diseases. The potential of such methods can be utilized to predict genetic disorders at an early stage using the genome data for timely treatment. This study focuses on the multi-label multi-class problem and makes two major contributions to genetic disorder prediction. A novel feature engineering approach is proposed where the class probabilities from an extra tree (ET) and random forest (RF) are joined to make a feature set for model training. Secondly, the study utilizes the classifier chain approach where multiple classifiers are joined in a chain and the predictions from all the preceding classifiers are used by the conceding classifiers to make the final prediction. Because of the multi-label multi-class data, macro accuracy, Hamming loss, and α-evaluation score are used to evaluate the performance. Results suggest that extreme gradient boosting (XGB) produces the best scores with a 92% α-evaluation score and a 84% macro accuracy score. The performance of XGB is much better than state-of-the-art approaches, in terms of both performance and computational complexity. [ABSTRACT FROM AUTHOR]

Published

2023

5. Data Analytics and Applications of the Wearable Sensors in Healthcare.

Author

Syed Abdul, Shabbir, Garcia-Gomez, Juan Miguel, Garcia-Zapirain, Begoña, Hsueh, Pei-Yun, Luque, Luis Fernandez, and Syed Abdul, Shabbir

Subjects

Humanities, Social interaction, GENEactiv accelerometer, GIS, GPS, Gaussian mixture model, IoT, IoT wearable monitor, LSTM, MIMU, P-Ergonomics, Telemedicine, accelerometer, accelerometers, accidental falls, actigraph, actigraphy, action research arm test, activities of daily living, activity monitoring, activity recognition and monitoring, artificial intelligence, behaviour analysis, biofeedback, biomedical signal processing, biomedical technology, bispectrum, body worn sensors, calibration, cameras, citizen science, classifier efficiency, classifier optimization, clothing sensors, cluster analysis, conductive gels, cross correlation analysis, data compression, deep learning, denoising, disease prevention, eHealth, edge computing, electrocardiogram, embedded system, encoding, energy expenditure, entropy, exercise experiment, exercise intervention, exercise therapy, fall detection, feature extraction, feature selection, filtering algorithm, free-living, frequency-domain features, functional decline, genetic algorithm, gyroscope, health, healthcare, healthcare movement sensing, heart failure (HF), heart rate, heart rate variability, heat stroke, hemodialysis, hidden Markov model, human activity recognition, human factors, human movement, impedance pneumography, inertial measurement unit, inertial measurement units, integration, latent features, left ventricular ejection fraction (LVEF), longitudinal study, machine learning, machine learning for real-time applications, magnetometer, mechanocardiogram (MCG), mobile health, monitoring, motion, motion sensors, multivariate analysis, musculoskeletal disorders, myocardial ischemia, n/a, neural network, non-contact sensor, non-wearable sensors, noncontact electrode, occupational healthcare, one-class classification, optoelectronic plethysmography, orientation-invariant sensing, orthopedics, pacemaker, patient health and state monitoring, pattern classification, performance measures, personal risk detection, physical activity, physical activity classification, physical activity type, physical workload, physiological parameters, posture analysis, precision ergonomics, predictive analytics, principal component analysis, probabilistic inference, qualitative, real-life, real-world, recurrent neural networks, respiration rate, respiratory monitoring, sedentary behavior, services, signal analysis, signal processing, skill assessment, smart clothes, smart textiles, spinal posture, state space model, supervised machine learning, talking detection, technology acceptance model (TAM), time-domain features, upper extremity, ventricular premature contraction, walking, wavelets, wearable, wearable biomedical sensors, wearable device, wearable devices, wearable sensing, wearable sensor, wearable sensors, wearable systems for healthcare, wearables, wellbeing at work, wireless sensor network

Abstract

Summary: This book provides a collection of comprehensive research articles on data analytics and applications of wearable devices in healthcare. This Special Issue presents 28 research studies from 137 authors representing 37 institutions from 19 countries. To facilitate the understanding of the research articles, we have organized the book to show various aspects covered in this field, such as eHealth, technology-integrated research, prediction models, rehabilitation studies, prototype systems, community health studies, ergonomics design systems, technology acceptance model evaluation studies, telemonitoring systems, warning systems, application of sensors in sports studies, clinical systems, feasibility studies, geographical location based systems, tracking systems, observational studies, risk assessment studies, human activity recognition systems, impact measurement systems, and a systematic review. We would like to take this opportunity to invite high quality research articles for our next Special Issue entitled "Digital Health and Smart Sensors for Better Management of Cancer and Chronic Diseases" as a part of Sensors journal.