Your search keyword '"Díez, Isabel De la Torre"' showing total 22 results

1. Smart Physiotherapy: Advancing Arm-Based Exercise Classification with PoseNet and Ensemble Models.

Author

Hussain, Shahzad, Siddiqui, Hafeez Ur Rehman, Saleem, Adil Ali, Raza, Muhammad Amjad, Iturriaga, Josep Alemany, Velarde-Sotres, Álvaro, Díez, Isabel De la Torre, and Dudley, Sandra

Subjects

*COVID-19 pandemic, *RANDOM forest algorithms, *MACHINE learning, *CLASSIFICATION, *PHYSICAL therapy

Abstract

Telephysiotherapy has emerged as a vital solution for delivering remote healthcare, particularly in response to global challenges such as the COVID-19 pandemic. This study seeks to enhance telephysiotherapy by developing a system capable of accurately classifying physiotherapeutic exercises using PoseNet, a state-of-the-art pose estimation model. A dataset was collected from 49 participants (35 males, 14 females) performing seven distinct exercises, with twelve anatomical landmarks then extracted using the Google MediaPipe library. Each landmark was represented by four features, which were used for classification. The core challenge addressed in this research involves ensuring accurate and real-time exercise classification across diverse body morphologies and exercise types. Several tree-based classifiers, including Random Forest, Extra Tree Classifier, XGBoost, LightGBM, and Hist Gradient Boosting, were employed. Furthermore, two novel ensemble models called RandomLightHist Fusion and StackedXLightRF are proposed to enhance classification accuracy. The RandomLightHist Fusion model achieved superior accuracy of 99.6%, demonstrating the system's robustness and effectiveness. This innovation offers a practical solution for providing real-time feedback in telephysiotherapy, with potential to improve patient outcomes through accurate monitoring and assessment of exercise performance. [ABSTRACT FROM AUTHOR]

Published

2024

2. Therapeutic Exercise Recognition Using a Single UWB Radar with AI-Driven Feature Fusion and ML Techniques in a Real Environment.

Author

Hussain, Shahzad, Siddiqui, Hafeez Ur Rehman, Saleem, Adil Ali, Raza, Muhammad Amjad, Iturriaga, Josep Alemany, Velarde-Sotres, Alvaro, and Díez, Isabel De la Torre

Subjects

*EXERCISE therapy, *COVID-19 pandemic, *MAGNETIC susceptibility, *ARTIFICIAL intelligence, *CLINICAL supervision

Abstract

Physiotherapy plays a crucial role in the rehabilitation of damaged or defective organs due to injuries or illnesses, often requiring long-term supervision by a physiotherapist in clinical settings or at home. AI-based support systems have been developed to enhance the precision and effectiveness of physiotherapy, particularly during the COVID-19 pandemic. These systems, which include game-based or tele-rehabilitation monitoring using camera-based optical systems like Vicon and Microsoft Kinect, face challenges such as privacy concerns, occlusion, and sensitivity to environmental light. Non-optical sensor alternatives, such as Inertial Movement Units (IMUs), Wi-Fi, ultrasound sensors, and ultrawide band (UWB) radar, have emerged to address these issues. Although IMUs are portable and cost-effective, they suffer from disadvantages like drift over time, limited range, and susceptibility to magnetic interference. In this study, a single UWB radar was utilized to recognize five therapeutic exercises related to the upper limb, performed by 34 male volunteers in a real environment. A novel feature fusion approach was developed to extract distinguishing features for these exercises. Various machine learning methods were applied, with the EnsembleRRGraBoost ensemble method achieving the highest recognition accuracy of 99.45%. The performance of the EnsembleRRGraBoost model was further validated using five-fold cross-validation, maintaining its high accuracy. [ABSTRACT FROM AUTHOR]

Published

2024

3. Novel model to authenticate role-based medical users for blockchain-based IoMT devices.

Author

Aslam, Muhammad Shehzad, Altaf, Ayesha, Iqbal, Faiza, Nigar, Natasha, Galán, Juan Castanedo, Aray, Daniel Gavilanes, Díez, Isabel de la Torre, and Ashraf, Imran

Subjects

*MEDICAL personnel, *DATA privacy, *ACCESS control, *INTERNET of things, *PATIENT monitoring, *MEDICAL equipment

Abstract

The IoT (Internet of Things) has played a promising role in e-healthcare applications during the last decade. Medical sensors record a variety of data and transmit them over the IoT network to facilitate remote patient monitoring. When a patient visits a hospital he may need to connect or disconnect medical devices from the medical healthcare system frequently. Also, multiple entities (e.g., doctors, medical staff, etc.) need access to patient data and require distinct sets of patient data. As a result of the dynamic nature of medical devices, medical users require frequent access to data, which raises complex security concerns. Granting access to a whole set of data creates privacy issues. Also, each of these medical user need to grant access rights to a specific set of medical data, which is quite a tedious task. In order to provide role-based access to medical users, this study proposes a blockchain-based framework for authenticating multiple entities based on the trust domain to reduce the administrative burden. This study is further validated by simulation on the infura blockchain using solidity and Python. The results demonstrate that role-based authorization and multi-entities authentication have been implemented and the owner of medical data can control access rights at any time and grant medical users easy access to a set of data in a healthcare system. The system has minimal latency compared to existing blockchain systems that lack multi-entity authentication and role-based authorization. [ABSTRACT FROM AUTHOR]

Published

2024

4. Efficacy and classification of Sesamum indicum linn seeds with Rosa damascena mill oil in uncomplicated pelvic inflammatory disease using machine learning.

Author

Sumbul, Sultana, Arshiya, Md Belal Bin Heyat, Rahman, Khaleequr, Akhtar, Faijan, Parveen, Saba, Urbano, Mercedes Briones, Lipari, Vivian, Díez, Isabel De la Torre, Khan, Azmat Ali, Malik, Abdul, Pkmkina, Oksana, Nasir, Abdul, and Saba Khan

Subjects

*SESAME, *PELVIC inflammatory disease, *MACHINE learning, *DRUG design, *MEDICAL botany

Abstract

Background and objectives: As microbes are developing resistance to antibiotics, natural, botanical drugs or traditional herbal medicine are presently being studied with an eye of great curiosity and hope. Hence, complementary and alternative treatments for uncomplicated pelvic inflammatory disease (uPID) are explored for their efficacy. Therefore, this study determined the therapeutic efficacy and safety of Sesamum indicum Linn seeds with Rosa damascena Mill Oil in uPID with standard control. Additionally, we analyzed the data with machine learning. Materials and methods: We included 60 participants in a double-blind, doubledummy, randomized standard-controlled study. Participants in the Sesame and Rose oil group (SR group) (n = 30) received 14 days course of black sesame powder (5 gm) mixed with rose oil (10 mL) per vaginum at bedtime once daily plus placebo capsules orally. The standard group (SC), received doxycycline 100 mg twice and metronidazole 400 mg thrice orally plus placebo per vaginum for the same duration. The primary outcome was a clinical cure at post-intervention for visual analogue scale (VAS) for lower abdominal pain (LAP), and McCormack pain scale (McPS) for abdominal-pelvic tenderness. The secondary outcome included white blood cells (WBC) cells in the vaginal wet mount test, safety profile, and health-related quality of life assessed by SF-12. In addition, we used AdaBoost (AB), Naïve Bayes (NB), and Decision Tree (DT) classifiers in this study to analyze the experimental data. Results: The clinical cure for LAP and McPS in the SR vs SC group was 82.85% vs 81.48% and 83.85% vs 81.60% on Day 15 respectively. On Day 15, pus cells less than 10 in the SR vs SC group were 86.6% vs 76.6% respectively. No adverse effects were reported in both groups. The improvement in total SF-12 score on Day 30 for the SR vs SC group was 82.79% vs 80.04% respectively. In addition, our Naive Bayes classifier based on the leave-one-out model achieved the maximum accuracy (68.30%) for the classification of both groups of uPID. Conclusion: We concluded that the SR group is cost-effective, safer, and efficacious for curing uPID. Proposed alternative treatment (test drug) could be a substitute of standard drug used for Female genital tract infections. [ABSTRACT FROM AUTHOR]

Published

2024

5. Design and development of patient health tracking, monitoring and big data storage using Internet of Things and real time cloud computing.

Author

Shafi, Imran, Din, Sadia, Farooq, Siddique, Díez, Isabel de la Torre, Breñosa, Jose, Espinosa, Julio César Martínez, and Ashraf, Imran

Subjects

*CLOUD storage, *PULSE oximeters, *REAL-time computing, *DATA warehousing, *PATIENT-professional relations, *MEDICAL personnel as patients, *MEDICAL personnel

Abstract

With the outbreak of the COVID-19 pandemic, social isolation and quarantine have become commonplace across the world. IoT health monitoring solutions eliminate the need for regular doctor visits and interactions among patients and medical personnel. Many patients in wards or intensive care units require continuous monitoring of their health. Continuous patient monitoring is a hectic practice in hospitals with limited staff; in a pandemic situation like COVID-19, it becomes much more difficult practice when hospitals are working at full capacity and there is still a risk of medical workers being infected. In this study, we propose an Internet of Things (IoT)-based patient health monitoring system that collects real-time data on important health indicators such as pulse rate, blood oxygen saturation, and body temperature but can be expanded to include more parameters. Our system is comprised of a hardware component that collects and transmits data from sensors to a cloud-based storage system, where it can be accessed and analyzed by healthcare specialists. The ESP-32 microcontroller interfaces with the multiple sensors and wirelessly transmits the collected data to the cloud storage system. A pulse oximeter is utilized in our system to measure blood oxygen saturation and body temperature, as well as a heart rate monitor to measure pulse rate. A web-based interface is also implemented, allowing healthcare practitioners to access and visualize the collected data in real-time, making remote patient monitoring easier. Overall, our IoT-based patient health monitoring system represents a significant advancement in remote patient monitoring, allowing healthcare practitioners to access real-time data on important health metrics and detect potential health issues before they escalate. [ABSTRACT FROM AUTHOR]

Published

2024

6. Blockchain based transparent and reliable framework for wheat crop supply chain.

Author

Farooq, Muhammad Shoaib, Ansari, Zain Khalid, Alvi, Atif, Rustam, Furqan, Díez, Isabel De La Torre, Mazón, Juan Luis Vidal, Rodríguez, Carmen Lili, and Ashraf, Imran

Subjects

*SUPPLY chains, *WHEAT, *ECONOMIC models, *BLOCKCHAINS, *CRYPTOCURRENCIES, *PRECISION farming, *FOOD crops

Abstract

The wheat crop that fulfills 35% of human food demand is facing several problems due to a lack of transparency, security, reliability, and traceability in the existing agriculture supply chain. Many systems have been developed for the agriculture supply chain to overcome such issues, however, monopolistic centralized control is the biggest hurdle to realizing the use of such systems. It has eventually gained consumers' trust in branded products and rejected other products due to the lack of traceable supply chain information. This study proposes a blockchain-based framework for supply chain traceability which provides trustable, transparent, secure, and reliable services for the wheat crop. A crypto token called wheat coin (WC) has been introduced to keep track of transactions among the stakeholders of the wheat supply chain. Moreover, an initial coin offering (ICO) of WC, crypto wallets, and an economic model are proposed. Furthermore, a smart contract-based transaction system has been devised for the transparency of wheat crop transactions and conversion of WC to fiat and vice versa. We have developed the interplanetary file system (IPFS) to improve data availability, security, and transparency which stores encrypted private data of farmers, businesses, and merchants. Lastly, the results of the experiments show that the proposed framework shows better performance as compared to previous crop supply chain solutions in terms of latency to add-blocks, per-minute transactions, average gas charge for the transaction, and transaction verification time. Performance analysis with Bitcoin and Ethereum shows the superior performance of the proposed system. [ABSTRACT FROM AUTHOR]

Published

2024

7. Voxel Extraction and Multiclass Classification of Identified Brain Regions across Various Stages of Alzheimer's Disease Using Machine Learning Approaches.

Author

Shahzadi, Samra, Butt, Naveed Anwer, Sana, Muhammad Usman, Pascual, Iñaki Elío, Urbano, Mercedes Briones, Díez, Isabel de la Torre, and Ashraf, Imran

Subjects

*ALZHEIMER'S disease, *MACHINE learning, *INDEPENDENT component analysis, *MILD cognitive impairment, *DATABASES

Abstract

This study sought to investigate how different brain regions are affected by Alzheimer's disease (AD) at various phases of the disease, using independent component analysis (ICA). The study examines six regions in the mild cognitive impairment (MCI) stage, four in the early stage of Alzheimer's disease (AD), six in the moderate stage, and six in the severe stage. The precuneus, cuneus, middle frontal gyri, calcarine cortex, superior medial frontal gyri, and superior frontal gyri were the areas impacted at all phases. A general linear model (GLM) is used to extract the voxels of the previously mentioned regions. The resting fMRI data for 18 AD patients who had advanced from MCI to stage 3 of the disease were obtained from the ADNI public source database. The subjects include eight women and ten men. The voxel dataset is used to train and test ten machine learning algorithms to categorize the MCI, mild, moderate, and severe stages of Alzheimer's disease. The accuracy, recall, precision, and F1 score were used as conventional scoring measures to evaluate the classification outcomes. AdaBoost fared better than the other algorithms and obtained a phenomenal accuracy of 98.61%, precision of 99.00%, and recall and F1 scores of 98.00% each. [ABSTRACT FROM AUTHOR]

Published

2023

8. Multidrug resistance pattern and molecular epidemiology of pathogens among children with diarrhea in Bangladesh, 2019–2021.

Author

Sharif, Nadim, Ahmed, Shamsun Nahar, Khandaker, Shamim, Monifa, Nuzhat Haque, Abusharha, Ali, Vargas, Debora Libertad Ramírez, Díez, Isabel De la Torre, Castilla, Angel Gabriel Kuc, Talukder, Ali Azam, Parvez, Anowar Khasru, and Dey, Shuvra Kanti

Subjects

*MOLECULAR epidemiology, *MULTIDRUG resistance, *ESCHERICHIA coli, *ROTAVIRUSES, *DIARRHEA, *VIBRIO cholerae, *DRUG resistance in bacteria

Abstract

Antimicrobial and multidrug resistance (MDR) pathogens are becoming one of the major health threats among children. Integrated studies on the molecular epidemiology and prevalence of AMR and MDR diarrheal pathogens are lacking. A total of 404 fecal specimens were collected from children with diarrhea in Bangladesh from January 2019 to December 2021. We used conventional bacteriologic and molecular sequence analysis methods. Phenotypic and genotypic resistance were determined by disk diffusion and molecular sequencing methods. Fisher's exact tests with 95% confidence intervals (CIs) was performed. Prevalence of bacterial infection was 63% (251 of 404) among children with diarrhea. E. coli (29%) was the most prevalent. E. coli, Shigella spp., V. cholerae, and Salmonella spp., showed the highest frequency of resistance against ceftriaxone (75–85%), and erythromycin (70–75%%). About 10–20% isolates of E. coli, V. cholerae and Shigella spp. showed MDR against cephem, macrolides, and quinolones. Significant association (p value < 0.05) was found between the phenotypic and genotypic resistance. The risk of diarrhea was the highest among the patients co-infected with E. coli and rotavirus [OR 3.6 (95% CI 1.1–5.4) (p = 0.001)] followed by Shigella spp. and rotavirus [OR 3.5 (95% CI 0.5–5.3) (p = 0.001)]. This study will provide an integrated insight of molecular epidemiology and antimicrobial resistance profiling of bacterial pathogens among children with diarrhea in Bangladesh. [ABSTRACT FROM AUTHOR]

Published

2023

9. FMDNet: An Efficient System for Face Mask Detection Based on Lightweight Model during COVID-19 Pandemic in Public Areas.

Author

Benifa, J. V. Bibal, Chola, Channabasava, Muaad, Abdullah Y., Hayat, Mohd Ammar Bin, Bin Heyat, Md Belal, Mehrotra, Rajat, Akhtar, Faijan, Hussein, Hany S., Vargas, Debora Libertad Ramírez, Castilla, Ángel Kuc, Díez, Isabel de la Torre, and Khan, Salabat

Subjects

*COVID-19 pandemic, *PUBLIC spaces, *ARTIFICIAL intelligence, *MEDICAL masks, *DEEP learning, *SARS-CoV-2

Abstract

A new artificial intelligence-based approach is proposed by developing a deep learning (DL) model for identifying the people who violate the face mask protocol in public places. To achieve this goal, a private dataset was created, including different face images with and without masks. The proposed model was trained to detect face masks from real-time surveillance videos. The proposed face mask detection (FMDNet) model achieved a promising detection of 99.0% in terms of accuracy for identifying violations (no face mask) in public places. The model presented a better detection capability compared to other recent DL models such as FSA-Net, MobileNet V2, and ResNet by 24.03%, 5.0%, and 24.10%, respectively. Meanwhile, the model is lightweight and had a confidence score of 99.0% in a resource-constrained environment. The model can perform the detection task in real-time environments at 41.72 frames per second (FPS). Thus, the developed model can be applicable and useful for governments to maintain the rules of the SOP protocol. [ABSTRACT FROM AUTHOR]

Published

2023

10. A Comprehensive Review of Recent Advances in Artificial Intelligence for Dentistry E-Health.

Author

Shafi, Imran, Fatima, Anum, Afzal, Hammad, Díez, Isabel de la Torre, Lipari, Vivian, Breñosa, Jose, and Ashraf, Imran

Subjects

*INFRARED imaging, *ARTIFICIAL intelligence, *X-ray imaging, *IMAGING systems, *IMAGE analysis

Abstract

Artificial intelligence has made substantial progress in medicine. Automated dental imaging interpretation is one of the most prolific areas of research using AI. X-ray and infrared imaging systems have enabled dental clinicians to identify dental diseases since the 1950s. However, the manual process of dental disease assessment is tedious and error-prone when diagnosed by inexperienced dentists. Thus, researchers have employed different advanced computer vision techniques, and machine- and deep-learning models for dental disease diagnoses using X-ray and near-infrared imagery. Despite the notable development of AI in dentistry, certain factors affect the performance of the proposed approaches, including limited data availability, imbalanced classes, and lack of transparency and interpretability. Hence, it is of utmost importance for the research community to formulate suitable approaches, considering the existing challenges and leveraging findings from the existing studies. Based on an extensive literature review, this survey provides a brief overview of X-ray and near-infrared imaging systems. Additionally, a comprehensive insight into challenges faced by researchers in the dental domain has been brought forth in this survey. The article further offers an amalgamative assessment of both performances and methods evaluated on public benchmarks and concludes with ethical considerations and future research avenues. [ABSTRACT FROM AUTHOR]

Published

2023

11. Resilience Optimization of Post-Quantum Cryptography Key Encapsulation Algorithms.

Author

Farooq, Sana, Altaf, Ayesha, Iqbal, Faiza, Thompson, Ernesto Bautista, Vargas, Debora Libertad Ramírez, Díez, Isabel de la Torre, and Ashraf, Imran

Subjects

*PUBLIC key cryptography, *QUANTUM cryptography, *CRYPTOGRAPHY, *QUANTUM computing, *QUANTUM computers, *COMPUTER security

Abstract

Recent developments in quantum computing have shed light on the shortcomings of the conventional public cryptosystem. Even while Shor's algorithm cannot yet be implemented on quantum computers, it indicates that asymmetric key encryption will not be practicable or secure in the near future. The National Institute of Standards and Technology (NIST) has started looking for a post-quantum encryption algorithm that is resistant to the development of future quantum computers as a response to this security concern. The current focus is on standardizing asymmetric cryptography that should be impenetrable by a quantum computer. This has become increasingly important in recent years. Currently, the process of standardizing asymmetric cryptography is coming very close to being finished. This study evaluated the performance of two post-quantum cryptography (PQC) algorithms, both of which were selected as NIST fourth-round finalists. The research assessed the key generation, encapsulation, and decapsulation operations, providing insights into their efficiency and suitability for real-world applications. Further research and standardization efforts are required to enable secure and efficient post-quantum encryption. When selecting appropriate post-quantum encryption algorithms for specific applications, factors such as security levels, performance requirements, key sizes, and platform compatibility should be taken into account. This paper provides helpful insight for post-quantum cryptography researchers and practitioners, assisting in the decision-making process for selecting appropriate algorithms to protect confidential data in the age of quantum computing. [ABSTRACT FROM AUTHOR]

Published

2023

12. Blockchain-Modeled Edge-Computing-Based Smart Home Monitoring System with Energy Usage Prediction.

Author

Iqbal, Faiza, Altaf, Ayesha, Waris, Zeest, Aray, Daniel Gavilanes, Flores, Miguel Angel López, Díez, Isabel de la Torre, and Ashraf, Imran

Subjects

*SMART homes, *ENERGY consumption, *ENERGY management, *BOX-Jenkins forecasting, *CYBERTERRORISM, *MACHINE learning, *GRIDS (Cartography)

Abstract

Internet of Things (IoT) has made significant strides in energy management systems recently. Due to the continually increasing cost of energy, supply–demand disparities, and rising carbon footprints, the need for smart homes for monitoring, managing, and conserving energy has increased. In IoT-based systems, device data are delivered to the network edge before being stored in the fog or cloud for further transactions. This raises worries about the data's security, privacy, and veracity. It is vital to monitor who accesses and updates this information to protect IoT end-users linked to IoT devices. Smart meters are installed in smart homes and are susceptible to numerous cyber attacks. Access to IoT devices and related data must be secured to prevent misuse and protect IoT users' privacy. The purpose of this research was to design a blockchain-based edge computing method for securing the smart home system, in conjunction with machine learning techniques, in order to construct a secure smart home system with energy usage prediction and user profiling. The research proposes a blockchain-based smart home system that can continuously monitor IoT-enabled smart home appliances such as smart microwaves, dishwashers, furnaces, and refrigerators, among others. An approach based on machine learning was utilized to train the auto-regressive integrated moving average (ARIMA) model for energy usage prediction, which is provided in the user's wallet, to estimate energy consumption and maintain user profiles. The model was tested using the moving average statistical model, the ARIMA model, and the deep-learning-based long short-term memory (LSTM) model on a dataset of smart-home-based energy usage under changing weather conditions. The findings of the analysis reveal that the LSTM model accurately forecasts the energy usage of smart homes. [ABSTRACT FROM AUTHOR]

Published

2023

13. An Approach to Detect Chronic Obstructive Pulmonary Disease Using UWB Radar-Based Temporal and Spectral Features.

Author

Siddiqui, Hafeez-Ur-Rehman, Raza, Ali, Saleem, Adil Ali, Rustam, Furqan, Díez, Isabel de la Torre, Aray, Daniel Gavilanes, Lipari, Vivian, Ashraf, Imran, and Dudley, Sandra

Subjects

*CHRONIC obstructive pulmonary disease, *ULTRA-wideband radar, *COUGH, *FEATURE extraction, *DEEP learning, *DYSPNEA

Abstract

Chronic obstructive pulmonary disease (COPD) is a severe and chronic ailment that is currently ranked as the third most common cause of mortality across the globe. COPD patients often experience debilitating symptoms such as chronic coughing, shortness of breath, and fatigue. Sadly, the disease frequently goes undiagnosed until it is too late, leaving patients without the care they desperately need. So, COPD detection at an early stage is crucial to prevent further damage to the lungs and improve quality of life. Traditional COPD detection methods often rely on physical examinations and tests such as spirometry, chest radiography, blood gas tests, and genetic tests. However, these methods may not always be accurate or accessible. One of the key vital signs for detecting COPD is the patient's respiration rate. However, it is crucial to consider a patient's medical and demographic characteristics simultaneously for better detection results. To address this issue, this study aims to detect COPD patients using artificial intelligence techniques. To achieve this goal, a novel framework is proposed that utilizes ultra-wideband (UWB) radar-based temporal and spectral features to build machine learning and deep learning models. This new set of temporal and spectral features is extracted from respiration data collected non-invasively from 1.5 m distance using UWB radar. Different machine learning and deep learning models are trained and tested on the collected dataset. The findings are promising, with a high accuracy score of 100% for COPD detection. This means that the proposed framework could potentially save lives by identifying COPD patients at an early stage. The k-fold cross-validation technique and performance comparison with the state-of-the-art studies are applied to validate its performance, ensuring that the results are robust and reliable. The high accuracy score achieved in the study implies that the proposed framework has the potential for the efficient detection of COPD at an early stage. [ABSTRACT FROM AUTHOR]

Published

2023

14. Breast Cancer Prediction Using Fine Needle Aspiration Features and Upsampling with Supervised Machine Learning.

Author

Shafique, Rahman, Rustam, Furqan, Choi, Gyu Sang, Díez, Isabel de la Torre, Mahmood, Arif, Lipari, Vivian, Velasco, Carmen Lili Rodríguez, and Ashraf, Imran

Subjects

*MACHINE learning, *RESEARCH funding, *BREAST tumors, *NEEDLE biopsy

Abstract

Simple Summary: Breast cancer is prevalent in women and the second leading cause of death. Conventional breast cancer detection methods require several laboratory tests and medical experts. Automated breast cancer detection is thus very important for timely treatment. This study explores the influence of various feature selection technique to increase the performance of machine learning methods for breast cancer detection. Experimental results shows that use of appropriate features tend to show highly accurate prediction. Breast cancer is one of the most common invasive cancers in women and it continues to be a worldwide medical problem since the number of cases has significantly increased over the past decade. Breast cancer is the second leading cause of death from cancer in women. The early detection of breast cancer can save human life but the traditional approach for detecting breast cancer disease needs various laboratory tests involving medical experts. To reduce human error and speed up breast cancer detection, an automatic system is required that would perform the diagnosis accurately and timely. Despite the research efforts for automated systems for cancer detection, a wide gap exists between the desired and provided accuracy of current approaches. To overcome this issue, this research proposes an approach for breast cancer prediction by selecting the best fine needle aspiration features. To enhance the prediction accuracy, several feature selection techniques are applied to analyze their efficacy, such as principal component analysis, singular vector decomposition, and chi-square (Chi2). Extensive experiments are performed with different features and different set sizes of features to investigate the optimal feature set. Additionally, the influence of imbalanced and balanced data using the SMOTE approach is investigated. Six classifiers including random forest, support vector machine, gradient boosting machine, logistic regression, multilayer perceptron, and K-nearest neighbors (KNN) are tuned to achieve increased classification accuracy. Results indicate that KNN outperforms all other classifiers on the used dataset with 20 features using SVD and with the 15 most important features using a PCA with a 100% accuracy score. [ABSTRACT FROM AUTHOR]

Published

2023

15. IoT Enabled Intelligent Stick for Visually Impaired People for Obstacle Recognition.

Author

Farooq, Muhammad Siddique, Shafi, Imran, Khan, Harris, Díez, Isabel De La Torre, Breñosa, Jose, Espinosa, Julio César Martínez, and Ashraf, Imran

Subjects

*PEOPLE with visual disabilities, *OBJECT recognition (Computer vision), *GLOBAL Positioning System, *TELECOMMUNICATION systems, *RECOGNITION (Psychology), *HEADPHONES

Abstract

This paper presents the design, development, and testing of an IoT-enabled smart stick for visually impaired people to navigate the outside environment with the ability to detect and warn about obstacles. The proposed design employs ultrasonic sensors for obstacle detection, a water sensor for sensing the puddles and wet surfaces in the user's path, and a high-definition video camera integrated with object recognition. Furthermore, the user is signaled about various hindrances and objects using voice feedback through earphones after accurately detecting and identifying objects. The proposed smart stick has two modes; one uses ultrasonic sensors for detection and feedback through vibration motors to inform about the direction of the obstacle, and the second mode is the detection and recognition of obstacles and providing voice feedback. The proposed system allows for switching between the two modes depending on the environment and personal preference. Moreover, the latitude/longitude values of the user are captured and uploaded to the IoT platform for effective tracking via global positioning system (GPS)/global system for mobile communication (GSM) modules, which enable the live location of the user/stick to be monitored on the IoT dashboard. A panic button is also provided for emergency assistance by generating a request signal in the form of an SMS containing a Google maps link generated with latitude and longitude coordinates and sent through an IoT-enabled environment. The smart stick has been designed to be lightweight, waterproof, size adjustable, and has long battery life. The overall design ensures energy efficiency, portability, stability, ease of access, and robust features. [ABSTRACT FROM AUTHOR]

Published

2022

16. An Effective Method for Lung Cancer Diagnosis from CT Scan Using Deep Learning-Based Support Vector Network.

Author

Shafi, Imran, Din, Sadia, Khan, Asim, Díez, Isabel De La Torre, Casanova, Ramón del Jesús Palí, Pifarre, Kilian Tutusaus, and Ashraf, Imran

Subjects

*DEEP learning, *SUPPORT vector machines, *EXPERIMENTAL design, *SOLITARY pulmonary nodule, *COMPUTER-aided design, *LUNG tumors, *EARLY detection of cancer, *CANCER patients, *COMPARATIVE studies, *DESCRIPTIVE statistics, *COMPUTED tomography, *COMPUTER-aided diagnosis, *SENSITIVITY & specificity (Statistics), *ALGORITHMS, *EVALUATION

Abstract

Simple Summary: This study provides an efficient method for lung cancer diagnosis from computed tomography images and employs deep learning-supported support vector machine. Experimental results indicates that the proposed approach yields a 94% accuracy and performs better than existing models. The diagnosis of early-stage lung cancer is challenging due to its asymptomatic nature, especially given the repeated radiation exposure and high cost of computed tomography(CT). Examining the lung CT images to detect pulmonary nodules, especially the cell lung cancer lesions, is also tedious and prone to errors even by a specialist. This study proposes a cancer diagnostic model based on a deep learning-enabled support vector machine (SVM). The proposed computer-aided design (CAD) model identifies the physiological and pathological changes in the soft tissues of the cross-section in lung cancer lesions. The model is first trained to recognize lung cancer by measuring and comparing the selected profile values in CT images obtained from patients and control patients at their diagnosis. Then, the model is tested and validated using the CT scans of both patients and control patients that are not shown in the training phase. The study investigates 888 annotated CT scans from the publicly available LIDC/IDRI database. The proposed deep learning-assisted SVM-based model yields 94% accuracy for pulmonary nodule detection representing early-stage lung cancer. It is found superior to other existing methods including complex deep learning, simple machine learning, and the hybrid techniques used on lung CT images for nodule detection. Experimental results demonstrate that the proposed approach can greatly assist radiologists in detecting early lung cancer and facilitating the timely management of patients. [ABSTRACT FROM AUTHOR]

Published

2022

17. Building Heating and Cooling Load Prediction Using Ensemble Machine Learning Model.

Author

Chaganti, Rajasekhar, Rustam, Furqan, Daghriri, Talal, Díez, Isabel de la Torre, Mazón, Juan Luis Vidal, Rodríguez, Carmen Lili, and Ashraf, Imran

Subjects

*COOLING loads (Mechanical engineering), *ENERGY consumption forecasting, *HEATING, *MACHINE learning, *ENERGY consumption of buildings, *ECOLOGICAL houses, *WALLS, *HEATING load

Abstract

Building energy consumption prediction has become an important research problem within the context of sustainable homes and smart cities. Data-driven approaches have been regarded as the most suitable for integration into smart houses. With the wide deployment of IoT sensors, the data generated from these sensors can be used for modeling and forecasting energy consumption patterns. Existing studies lag in prediction accuracy and various attributes of buildings are not very well studied. This study follows a data-driven approach in this regard. The novelty of the paper lies in the fact that an ensemble model is proposed, which provides higher performance regarding cooling and heating load prediction. Moreover, the influence of different features on heating and cooling load is investigated. Experiments are performed by considering different features such as glazing area, orientation, height, relative compactness, roof area, surface area, and wall area. Results indicate that relative compactness, surface area, and wall area play a significant role in selecting the appropriate cooling and heating load for a building. The proposed model achieves 0.999 R 2 for heating load prediction and 0.997 R 2 for cooling load prediction, which is superior to existing state-of-the-art models. The precise prediction of heating and cooling load, can help engineers design energy-efficient buildings, especially in the context of future smart homes. [ABSTRACT FROM AUTHOR]

Published

2022

18. Analyzing preventive precautions to limit spread of COVID-19.

Author

Ahmad, Ayaz, Rustam, Furqan, Saad, Eysha, Siddique, Muhammad Abubakar, Lee, Ernesto, Mansilla, Arturo Ortega, Díez, Isabel de la Torre, and Ashraf, Imran

Subjects

*COVID-19, *COVID-19 pandemic, *VIRAL transmission, *PUBLIC opinion, *PUBLIC safety, *SENSORY perception

Abstract

With the global spread of COVID-19, the governments advised the public for adopting safety precautions to limit its spread. The virus spreads from people, contaminated places, and nozzle droplets that necessitate strict precautionary measures. Consequently, different safety precautions have been implemented to fight COVID-19 such as wearing a facemask, restriction of social gatherings, keeping 6 feet distance, etc. Despite the warnings, highlighted need for such measures, and the increasing severity of the pandemic situation, the expected number of people adopting these precautions is low. This study aims at assessing and understanding the public perception of COVID-19 safety precautions, especially the use of facemask. A unified framework of sentiment lexicon with the proposed ensemble EB-DT is devised to analyze sentiments regarding safety precautions. Extensive experiments are performed with a large dataset collected from Twitter. In addition, the factors leading to a negative perception of safety precautions are analyzed by performing topic analysis using the Latent Dirichlet allocation algorithm. The experimental results reveal that 12% of the tweets correspond to negative sentiments towards facemask precaution mainly by its discomfort. Analysis of change in peoples' sentiment over time indicates a gradual increase in the positive sentiments regarding COVID-19 restrictions. [ABSTRACT FROM AUTHOR]

Published

2022

19. Pneumonia Classification from X-ray Images with Inception-V3 and Convolutional Neural Network.

Author

Mujahid, Muhammad, Rustam, Furqan, Álvarez, Roberto, Luis Vidal Mazón, Juan, Díez, Isabel de la Torre, and Ashraf, Imran

Subjects

*CONVOLUTIONAL neural networks, *X-ray imaging, *PNEUMONIA, *DEEP learning, *OLDER people

Abstract

Pneumonia is one of the leading causes of death in both infants and elderly people, with approximately 4 million deaths each year. It may be a virus, bacterial, or fungal, depending on the contagious pathogen that damages the lung's tiny air sacs (alveoli). Patients with underlying disorders such as asthma, a weakened immune system, hospitalized babies, and older persons on ventilators are all at risk, particularly if pneumonia is not detected early. Despite the existing approaches for its diagnosis, low accuracy and efficiency require further research for more accurate systems. This study is a similar endeavor for the detection of pneumonia by the use of X-ray images. The dataset is preprocessed to make it suitable for transfer learning tasks. Different pre-trained convolutional neural network (CNN) variants are utilized, including VGG16, Inception-v3, and ResNet50. Ensembles are made by incorporating CNN with Inception-V3, VGG-16, and ResNet50. Besides the common evaluation metrics, the performance of the pre-trained and ensemble deep learning models is measured with Cohen's kappa as well as the area under the curve (AUC). Experimental results show that Inception-V3 with CNN attained the highest accuracy and recall score of 99.29% and 99.73%, respectively. [ABSTRACT FROM AUTHOR]

Published

2022

20. Impact of COVID-19 on the psychological health of university students in Spain and their attitudes toward Mobile mental health solutions.

Author

Marques, Gonçalo, Drissi, Nidal, Díez, Isabel de la Torre, de Abajo, Beatriz Sainz, and Ouhbi, Sofia

Abstract

Background: The coronavirus disease 2019 (COVID-19) pandemic has had an impact on several aspects of life, including university students' mental health. Mobile mental care applications (apps) comprise a form of online mental care that enables the delivery of remote mental care.Objectives: This study aimed to explore the impact of COVID-19 on the mental health of university students in Spain and to explore their attitudes toward the use of mobile mental care apps.Method: Respondents answered a survey, which comprised two sections. The first included the 12-item General Health Questionnaire (GHQ-12) that was employed to assess the students' mental health. The second section included six questions developed by the authors to explore the students' attitudes toward mental care apps.Results: The results showed that the students suffered from anxiety and depression as well as social dysfunction. Further, 91.3 % of the students had never used a mobile app for mental health, 36.3 % were unaware of such apps, and 79.2 % were willing to use them in the future.Conclusions: The COVID-19 pandemic had a significant impact on the psychological health of university students. Mobile mental care apps may be an effective and efficient way to access mental care, particularly during a pandemic. [ABSTRACT FROM AUTHOR]

Published

2021

21. Correction to: Systematic Review of Telemedicine and eHealth Systems Applied to Vascular Surgery.

Author

Montano, Isabel Herrera, Lafuente, Elena Presencio, Martínez, Jose Breñosa, Mansilla, Arturo Ortega, Díez, Isabel de la Torre, and Río-Solá, María Lourdes Del

Subjects

*VASCULAR surgery, *TELEMEDICINE

Abstract

A correction to the article "Systematic Review of Telemedicine and eHealth Systems Applied to Vascular Surgery" that was published in a 2022 issue is presented.

Published

2023

22. Toward an Automatic Quality Assessment of Voice-Based Telemedicine Consultations: A Deep Learning Approach.

Author

Habib, Maria, Faris, Mohammad, Qaddoura, Raneem, Alomari, Manal, Alomari, Alaa, Faris, Hossam, and Díez, Isabel De la Torre

Subjects

*DEEP learning, *CONVOLUTIONAL neural networks, *DIGITAL technology, *MEDICAL communication, *STATISTICS, *TELEMEDICINE, *EVOKED response audiometry

Abstract

Maintaining a high quality of conversation between doctors and patients is essential in telehealth services, where efficient and competent communication is important to promote patient health. Assessing the quality of medical conversations is often handled based on a human auditory-perceptual evaluation. Typically, trained experts are needed for such tasks, as they follow systematic evaluation criteria. However, the daily rapid increase of consultations makes the evaluation process inefficient and impractical. This paper investigates the automation of the quality assessment process of patient–doctor voice-based conversations in a telehealth service using a deep-learning-based classification model. For this, the data consist of audio recordings obtained from Altibbi. Altibbi is a digital health platform that provides telemedicine and telehealth services in the Middle East and North Africa (MENA). The objective is to assist Altibbi's operations team in the evaluation of the provided consultations in an automated manner. The proposed model is developed using three sets of features: features extracted from the signal level, the transcript level, and the signal and transcript levels. At the signal level, various statistical and spectral information is calculated to characterize the spectral envelope of the speech recordings. At the transcript level, a pre-trained embedding model is utilized to encompass the semantic and contextual features of the textual information. Additionally, the hybrid of the signal and transcript levels is explored and analyzed. The designed classification model relies on stacked layers of deep neural networks and convolutional neural networks. Evaluation results show that the model achieved a higher level of precision when compared with the manual evaluation approach followed by Altibbi's operations team. [ABSTRACT FROM AUTHOR]

Published

2021