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10,371 results on '"Ali, J"'

1. Explainable AI for Enhancing Efficiency of DL-based Channel Estimation

Author

Gizzini, Abdul Karim, Medjahdi, Yahia, Ghandour, Ali J., and Clavier, Laurent

Subjects
Computer Science - Artificial Intelligence, Electrical Engineering and Systems Science - Signal Processing
Abstract

The support of artificial intelligence (AI) based decision-making is a key element in future 6G networks, where the concept of native AI will be introduced. Moreover, AI is widely employed in different critical applications such as autonomous driving and medical diagnosis. In such applications, using AI as black-box models is risky and challenging. Hence, it is crucial to understand and trust the decisions taken by these models. Tackling this issue can be achieved by developing explainable AI (XAI) schemes that aim to explain the logic behind the black-box model behavior, and thus, ensure its efficient and safe deployment. Recently, we proposed a novel perturbation-based XAI-CHEST framework that is oriented toward channel estimation in wireless communications. The core idea of the XAI-CHEST framework is to identify the relevant model inputs by inducing high noise on the irrelevant ones. This manuscript provides the detailed theoretical foundations of the XAI-CHEST framework. In particular, we derive the analytical expressions of the XAI-CHEST loss functions and the noise threshold fine-tuning optimization problem. Hence the designed XAI-CHEST delivers a smart input feature selection methodology that can further improve the overall performance while optimizing the architecture of the employed model. Simulation results show that the XAI-CHEST framework provides valid interpretations, where it offers an improved bit error rate performance while reducing the required computational complexity in comparison to the classical DL-based channel estimation., Comment: This paper has been submitted to the IEEE Transactions on Vehicular Technology (TVT) as a regular paper on 27 June 2024

Published
2024

2. Automated National Urban Map Extraction

Author

Nasrallah, Hasan, Samhat, Abed Ellatif, Nattero, Cristiano, and Ghandour, Ali J.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Developing countries usually lack the proper governance means to generate and regularly update a national rooftop map. Using traditional photogrammetry and surveying methods to produce a building map at the federal level is costly and time consuming. Using earth observation and deep learning methods, we can bridge this gap and propose an automated pipeline to fetch such national urban maps. This paper aims to exploit the power of fully convolutional neural networks for multi-class buildings' instance segmentation to leverage high object-wise accuracy results. Buildings' instance segmentation from sub-meter high-resolution satellite images can be achieved with relatively high pixel-wise metric scores. We detail all engineering steps to replicate this work and ensure highly accurate results in dense and slum areas witnessed in regions that lack proper urban planning in the Global South. We applied a case study of the proposed pipeline to Lebanon and successfully produced the first comprehensive national building footprint map with approximately 1 Million units with an 84% accuracy. The proposed architecture relies on advanced augmentation techniques to overcome dataset scarcity, which is often the case in developing countries.

Published
2024

13. Zero-Shot Refinement of Buildings' Segmentation Models using SAM

Author

Mayladan, Ali, Nasrallah, Hasan, Moughnieh, Hasan, Shukor, Mustafa, and Ghandour, Ali J.

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

Foundation models have excelled in various tasks but are often evaluated on general benchmarks. The adaptation of these models for specific domains, such as remote sensing imagery, remains an underexplored area. In remote sensing, precise building instance segmentation is vital for applications like urban planning. While Convolutional Neural Networks (CNNs) perform well, their generalization can be limited. For this aim, we present a novel approach to adapt foundation models to address existing models' generalization dropback. Among several models, our focus centers on the Segment Anything Model (SAM), a potent foundation model renowned for its prowess in class-agnostic image segmentation capabilities. We start by identifying the limitations of SAM, revealing its suboptimal performance when applied to remote sensing imagery. Moreover, SAM does not offer recognition abilities and thus fails to classify and tag localized objects. To address these limitations, we introduce different prompting strategies, including integrating a pre-trained CNN as a prompt generator. This novel approach augments SAM with recognition abilities, a first of its kind. We evaluated our method on three remote sensing datasets, including the WHU Buildings dataset, the Massachusetts Buildings dataset, and the AICrowd Mapping Challenge. For out-of-distribution performance on the WHU dataset, we achieve a 5.47\% increase in IoU and a 4.81\% improvement in F1-score. For in-distribution performance on the WHU dataset, we observe a 2.72\% and 1.58\% increase in True-Positive-IoU and True-Positive-F1 score, respectively. Our code is publicly available at this Repo (https://github.com/geoaigroup/GEOAI-ECRS2023), hoping to inspire further exploration of foundation models for domain-specific tasks within the remote sensing community.

Published
2023

14. Extending CAM-based XAI methods for Remote Sensing Imagery Segmentation

Author

Gizzini, Abdul Karim, Shukor, Mustafa, and Ghandour, Ali J.

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

Current AI-based methods do not provide comprehensible physical interpretations of the utilized data, extracted features, and predictions/inference operations. As a result, deep learning models trained using high-resolution satellite imagery lack transparency and explainability and can be merely seen as a black box, which limits their wide-level adoption. Experts need help understanding the complex behavior of AI models and the underlying decision-making process. The explainable artificial intelligence (XAI) field is an emerging field providing means for robust, practical, and trustworthy deployment of AI models. Several XAI techniques have been proposed for image classification tasks, whereas the interpretation of image segmentation remains largely unexplored. This paper offers to bridge this gap by adapting the recent XAI classification algorithms and making them usable for muti-class image segmentation, where we mainly focus on buildings' segmentation from high-resolution satellite images. To benchmark and compare the performance of the proposed approaches, we introduce a new XAI evaluation methodology and metric based on "Entropy" to measure the model uncertainty. Conventional XAI evaluation methods rely mainly on feeding area-of-interest regions from the image back to the pre-trained (utility) model and then calculating the average change in the probability of the target class. Those evaluation metrics lack the needed robustness, and we show that using Entropy to monitor the model uncertainty in segmenting the pixels within the target class is more suitable. We hope this work will pave the way for additional XAI research for image segmentation and applications in the remote sensing discipline.

Published
2023

15. Trainable Noise Model as an XAI evaluation method: application on Sobol for remote sensing image segmentation

Author

Shreim, Hossein, Gizzini, Abdul Karim, and Ghandour, Ali J.

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

eXplainable Artificial Intelligence (XAI) has emerged as an essential requirement when dealing with mission-critical applications, ensuring transparency and interpretability of the employed black box AI models. The significance of XAI spans various domains, from healthcare to finance, where understanding the decision-making process of deep learning algorithms is essential. Most AI-based computer vision models are often black boxes; hence, providing explainability of deep neural networks in image processing is crucial for their wide adoption and deployment in medical image analysis, autonomous driving, and remote sensing applications. Recently, several XAI methods for image classification tasks have been introduced. On the contrary, image segmentation has received comparatively less attention in the context of explainability, although it is a fundamental task in computer vision applications, especially in remote sensing. Only some research proposes gradient-based XAI algorithms for image segmentation. This paper adapts the recent gradient-free Sobol XAI method for semantic segmentation. To measure the performance of the Sobol method for segmentation, we propose a quantitative XAI evaluation method based on a learnable noise model. The main objective of this model is to induce noise on the explanation maps, where higher induced noise signifies low accuracy and vice versa. A benchmark analysis is conducted to evaluate and compare performance of three XAI methods, including Seg-Grad-CAM, Seg-Grad-CAM++ and Seg-Sobol using the proposed noise-based evaluation technique. This constitutes the first attempt to run and evaluate XAI methods using high-resolution satellite images.

Published
2023

16. Empirical Study of PEFT techniques for Winter Wheat Segmentation

Author

Zahweh, Mohamad Hasan, Nasrallah, Hasan, Shukor, Mustafa, Faour, Ghaleb, and Ghandour, Ali J.

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

Parameter Efficient Fine Tuning (PEFT) techniques have recently experienced significant growth and have been extensively employed to adapt large vision and language models to various domains, enabling satisfactory model performance with minimal computational needs. Despite these advances, more research has yet to delve into potential PEFT applications in real-life scenarios, particularly in the critical domains of remote sensing and crop monitoring. The diversity of climates across different regions and the need for comprehensive large-scale datasets have posed significant obstacles to accurately identify crop types across varying geographic locations and changing growing seasons. This study seeks to bridge this gap by comprehensively exploring the feasibility of cross-area and cross-year out-of-distribution generalization using the State-of-the-Art (SOTA) wheat crop monitoring model. The aim of this work is to explore PEFT approaches for crop monitoring. Specifically, we focus on adapting the SOTA TSViT model to address winter wheat field segmentation, a critical task for crop monitoring and food security. This adaptation process involves integrating different PEFT techniques, including BigFit, LoRA, Adaptformer, and prompt tuning. Using PEFT techniques, we achieved notable results comparable to those achieved using full fine-tuning methods while training only a mere 0.7% parameters of the whole TSViT architecture. The in-house labeled data-set, referred to as the Beqaa-Lebanon dataset, comprises high-quality annotated polygons for wheat and non-wheat classes with a total surface of 170 kmsq, over five consecutive years. Using Sentinel-2 images, our model achieved a 84% F1-score. We intend to publicly release the Lebanese winter wheat data set, code repository, and model weights.

Published
2023

18. The association between smartphone addiction and thumb/wrist pain among medical students of Jazan University, Saudi Arabia, A cross-sectional study

Author

Zenat Ahmed Khired, Sultan M. Alhazmi, Bandar I. Mokli, Asma H. Alhazmi, Khalid A. Muafa, Nawaf E. Bakri, Ali J. Hakami, Fatmah O. Alshekh, Amani A. Mosleh, Rawdah A. Baeshen, and Feras I. Alhazmi

Subjects
addiction, medial student, saudi arabia, smartphone, thumb/wrist pain, Medicine
Abstract

Background: The past decade has witnessed a revolution in smartphones owing to their growing importance and various applications. However, excessive usage can lead to addiction and joint pain in the wrist/thumb area. Despite these negative effects, smartphones offer medical students access to the resources they need. OBJECTIVE: To determine the association between smartphone addiction and thumb/wrist pain among undergraduate students of Jazan University. Methods: A cross-sectional self-administrated, online survey and online convenience sample technique was used. The collected data were analyzed using SPSS Software. Results: This survey included 337 participants, of which two-thirds were female (66.8%) and the rest male (33.2%); 32.6% of the respondents were studying in the College of Medicine. Of the 337 participants, 32% reported experiencing pain in their wrists or at the back of their neck while using a smartphone. The study found an average Smartphone Addition Scale-Short Version (SAS-SV) score of 32.5 ± 8.0 out of 50 and a total Patient-Rated Wrist Evaluation score of 48.8 ± 14.7, with a pain score of 13.3 ± 11.0 and a function score of 35.5 ± 11.7. The study also revealed a significant association between smartphone addiction and thumb/wrist pain (P value = 0.029), with females and students of the College of Applied Medical Science associated with higher SAS-SV scores, thereby indicating higher smartphone addiction. Conclusion: Significant correlation exists between smartphone addiction and thumb/wirst pain among medical students of Jazan University.

Published
2024
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19. First They Came for Us All: Responding to Anti-Transgender Structural Violence with Collective, Community-Engaged, and Intersectional Health Equity Research and Advocacy

Author

Hale M. Thompson, Timothy M. Wang, Ali J. Talan, Kellan E. Baker, and Arjee J. Restar

Abstract

This article is a call for collective action across health equity researchers and advocates to build a more just world. We attempt to make sense of senseless structural and interpersonal brutality in the context of the current political climate across the United States, whereby the spectrum of gender nonconformity has been and continues to be stigmatized. From drag performance to transgender identities to gender-affirming health care, extremists have instrumentalized primary levers of democracy--the courts, legislatures, and social media--to attempt to outlaw and eradicate gender expansiveness and those who provide forms of support and care, including gender-affirming medical care, to transgender, nonbinary, and gender-expansive (TNBGE) individuals.

Published
2024
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20. Towards Explainable AI for Channel Estimation in Wireless Communications

Author

Gizzini, Abdul Karim, Medjahdi, Yahia, Ghandour, Ali J., and Clavier, Laurent

Subjects
Computer Science - Artificial Intelligence, Computer Science - Information Theory
Abstract

Research into 6G networks has been initiated to support a variety of critical artificial intelligence (AI) assisted applications such as autonomous driving. In such applications, AI-based decisions should be performed in a real-time manner. These decisions include resource allocation, localization, channel estimation, etc. Considering the black-box nature of existing AI-based models, it is highly challenging to understand and trust the decision-making behavior of such models. Therefore, explaining the logic behind those models through explainable AI (XAI) techniques is essential for their employment in critical applications. This manuscript proposes a novel XAI-based channel estimation (XAI-CHEST) scheme that provides detailed reasonable interpretability of the deep learning (DL) models that are employed in doubly-selective channel estimation. The aim of the proposed XAI-CHEST scheme is to identify the relevant model inputs by inducing high noise on the irrelevant ones. As a result, the behavior of the studied DL-based channel estimators can be further analyzed and evaluated based on the generated interpretations. Simulation results show that the proposed XAI-CHEST scheme provides valid interpretations of the DL-based channel estimators for different scenarios., Comment: This paper has been accepted for publication in the IEEE Transactions on Vehicular Technology (TVT) as a correspondence paper

Published
2023

26. The MIMO-OTFS Technique in the Next 6G Communications

Author

Ali J. Ramadhan and Ali Taei Zadeh

Subjects
otfs, 6g, mimo, superimposed sequence pilot, delay-doppler, high mobility, Technology
Abstract

The orthogonal time-frequency space (OTFS) technique is a promising method of waveform modulation that encodes data in the delay-doppler (DD) domain. OTFS distinguishes itself from conventional multiplexing methods by employing two-dimensional modulation to alternate between the time-frequency (TF) domain and the delay-Doppler domain. This feature enables the management of Doppler shifts induced by high-speed objects, which is not possible with conventional modulation schemes such as orthogonal frequency division multiplexing (OFDM). The main objective of this work is to provide a concise and comprehensive introduction of this emerging subject, emphasizing its system concept. In addition, we analyze crucial elements of OTFS modulation, including techniques for data detection, channel estimation, MIMO, and multiuser systems.

Published
2024
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27. A review of hyperbranched polymers: their history, synthesis methodology and general applications

Author

Nabeel H. Al-Mutairi, Ali Al-Zubiedy, Ali J. Al-Zuhairi, and Magdalena Mazur

Subjects
hyperbranched polymers, polycondensation, smm, dmm, sensors, construction polymers, Technology, Ecology, QH540-549.5
Abstract

Over the past two decades, hyperbranched polymers (HBPs) have been an interesting material for many researchers due to their unique physical and chemical properties. The purpose of this article is to review hyperbranched polymers, their history, their synthesis methodologies and their main applications. It was found that the first hyperbranched polymer was synthesized in the 19th century by Berzelius and since then several researchers have prepared other hyper-branched polymers. In addition, there are many methods for the synthesis of hyperbranched polymers, both simple and complex. There are also several applications of these polymers, ranging from construction and building materials to biomaterials. The structure of polymers is responsible for a wide range of material properties. These properties allow the use of polymer materials in the design of building and industrial structures.

Published
2024
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30. Invariant Target Detection in Images through the Normalized 2-D Correlation Technique

Author

Al-Obaidi, Fatin E. M., Al-Saleh, Anwar H., Kafi, Shaymaa H., Karam, Ali J., and Al-Zuky, Ali A. D.

Subjects
Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

The normalized 2-D correlation technique is a robust method for detecting targets in images due to its ability to remain invariant under rotation, translation, and scaling. This paper examines the impact of translation, and scaling on target identification in images. The results indicate a high level of accuracy in detecting targets, even when they are exhibit variations in location and size. The results indicate that the similarity between the image and the two used targets improves as the resize ratio increases. All statistical estimators demonstrate a strong similarity between the original and extracted targets. The elapsed time for all scenarios falls within the range (44.75-44.85), (37.48-37.73) seconds for bird and children targets respectively, and the correlation coefficient displays stable relationships with values that fall within the range of (0.90-0.98) and (0.87-0.93) for bird and children targets respectively., Comment: The paper in its uploaded format contained errors in analysis as in Abstract-4th and 5th line. In section 4 ; results and discussion and in conclusion section. So, in order not to adopt the research as a source by other researchers I wish to withdraw it completely

Published
2023

31. Chatbots in Classrooms

Author

Abdallah, Asma Khaleel, primary, Alkaabi, Ahmed M., additional, Mehiar, Duaa Abdel Fattah, additional, and Aradat, Zainab Ali J., additional

Published
2024
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32. Influence of space conjugate temperature varying non-uniform heat sink/source on hydromagnetic slip water-EG (50:50) nanofluid

Author

Yaqun Niu, M.K. Nayak, S. Yashodha, S. Nazari, A.K Abdul Hakeem, Rifaqat Ali, Syed Zaheer Abbas, and Ali J. Chamkha

Subjects
MHD, Source/sink, Vertical cone, Heat transfer, Engineering (General). Civil engineering (General), TA1-2040
Abstract

Significant cooling is an essential requirement in the field of aeronautical and bio-medical engineering, nuclear reactor system, solar collectors, and in development of electronic chips etc. Involving rotating conical geometries. In view of this, flow and heat transfer over conical geometries subject to different constraints of motion are highly needed. Implementation of magnetic field subject to flow pattern controls the fluid motion thereby imparting better cooling. Consideration of nanofluid instead of regular fluid yields prominent cooling of the associated surface. Such relevance has motivated the authors to work on magnetohydrodynamics and heat transfer investigation of water-EG (50:50) mixture based Al2O3 and Fe3O4 past heated and rotating down-pointing upright cone subject to impact of space and temperature varying non-uniform heat source or sink. Numerical solution of dimensionless governing equations is accomplished by implementing Runge-Kutta method. The findings indicate that swirl and axial velocities peter out with rise in magnetic parameter while both exhibit opposite impact in response to slip parameter. Temperature profiles upgrade due to amplification of space and temperature dependent parameters. Skin friction and heat transportation upsurge with growth of solid volume fraction of nanoparticle.

Published
2024
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33. A Web-Based Antiretroviral Therapy Adherence Intervention (Thrive With Me) in a Community-Recruited Sample of Sexual Minority Men Living With HIV: Results of a Randomized Controlled Study

Author

Keith J Horvath, Sara Lammert, Darin Erickson, K Rivet Amico, Ali J Talan, Ore Shalhav, Christina J Sun, and H Jonathon Rendina

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Public aspects of medicine, RA1-1270
Abstract

BackgroundMost new HIV infections are attributed to male-to-male sexual contact in the United States. However, only two-thirds of sexual minority men living with HIV achieve an undetectable viral load (UVL). We tested a web-based antiretroviral therapy adherence intervention called Thrive with Me (TWM) with core features that included medication self-monitoring and feedback, HIV and antiretroviral therapy information, and a peer-to-peer exchange. ObjectiveWe assessed the efficacy of TWM on HIV UVL among adult (aged ≥18 years) sexual minority men. Moreover, we assessed the impact of overall engagement and engagement with specific intervention features on HIV UVL. MethodsIn total, 401 sexual minority men (mean age 39.1, SD 10.8 y; 230/384, 59.9% African American) in New York City were recruited between October 2016 and December 2019 and randomized to receive TWM (intervention) or a weekly email newsletter (control) for 5 months. Computerized assessments occurred at baseline and months 5, 11, and 17. The primary outcome was a dichotomous measure of HIV UVL (≤20 copies/μL). Generalized estimating equations with robust SEs were used to assess the effect of the TWM intervention on HIV UVL over the follow-up period in an unadjusted model and a model adjusted for baseline differences and then stratified by baseline recent drug use urinalysis. In secondary analyses, generalized linear models were used to estimate risk differences in the association of overall engagement with TWM (the sum of the number of days participants accessed ≥1 screen of the TWM intervention out of a possible 150 days) and engagement with specific TWM components on HIV UVL throughout the 17-month intervention period. ResultsParticipant retention was 88.5% (355/401; month 5), 81.8% (328/401; month 11), and 80.3% (322/401; month 17). No consistent differences in HIV UVL were found between those randomized to receive TWM or the control at the 5- (difference-in-differences [DD]=–7.8, 95% CI –21.1 to 5.5), 11- (DD=–13.9, 95% CI –27.7 to 0.04), or 17-month (DD=–8.2, 95% CI –22.0 to 5.7) time points, or when stratified by baseline recent drug use. However, those TWM-assigned participants with high overall levels of engagement (in the upper 25th percentile) were more likely to have an HIV UVL at the end of the 5-month active intervention period compared to those with low engagement (below the 75th percentile; risk difference=17.8, 95% CI 2.5-33.0) or no engagement (risk difference=19.4, 95% CI 3.3-35.5) in the intervention. Moreover, high engagement with the peer-to-peer exchange was associated with HIV UVL over time in unadjusted models. ConclusionsTWM did not have overall impacts on HIV UVL; however, it may assist some sexual minority men who are highly engaged with this web-based intervention in achieving HIV viral suppression. Trial RegistrationClinicalTrials.gov NCT02704208; https://clinicaltrials.gov/study/NCT02704208

Published
2024
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34. Thermal dynamics of nanoparticle aggregation in MHD dissipative nanofluid flow within a wavy channel: Entropy generation minimization

Author

Muhammad Idrees Afridi, Abid Hussanan, Muhammad Qasim, and Ali J. Chamkha

Subjects
Nanoparticles aggregation, Viscous dissipation, Heat transfer, Entropy generation, Numerical simulation, Joule heating, Engineering (General). Civil engineering (General), TA1-2040
Abstract

This paper examines how nanoparticle aggregation and a consistent magnetic field influence the peristaltic movement of a dissipative nanofluid, which is caused by the sinusoidal deformation of the boundary. The viscosity of TiO2/H2O nanofluids is accurately determined by the Krieger-Dougherty model with nanoparticle aggregation, while thermal conductivity (TC) is estimated through the Bruggeman model. The set of governing equations are modeled in a fixed frame by utilizing the conservation laws of energy, mass and momentum. Galilean transformation is utilized to transform the system of equations into a wave frame, which is then converted into a dimensionless form. The assumption of a small Reynolds number and long wavelength serve to further simplify the set of equations, which are subsequently addressed through the implementation of the differential quadrature method (DQM), a highly effective numerical technique. Quantities of interest, namely velocity, pressure gradient, temperature, trapping phenomena, heat transfer, and volumetric entropy generation are analyzed across a range of physical parameters, including the solid volume fraction (Φ=0.01−0.04), Eckert number (Ec=0.0−0.1), Hartman number (Mh=0.2−2.2), Grashof number (Gr=1.0−3.0) and temperature ratio parameter (θd=0.5−2.5). A comparative analysis is conducted between the scenario involving aggregation and the one without aggregation. It is observed that nanoparticle aggregation significantly alters these quantities.

Published
2024
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35. CFD-aided enhancement of propylene oxide decomposition in a tubular reactor with a corrugated cooling jacket

Author

Djelloul Bendaho, Noureddine Kaid, Sultan Alqahtani, Badr M. Alshammari, Younes Menni, Ali J. Chamkha, and Lioua Kolsi

Subjects
Propylene oxide, Decomposition kinetics, Reactor design, CFD, Activation energy, Heat transfer, Engineering (General). Civil engineering (General), TA1-2040
Abstract

_This research delves into the decomposition kinetics of propylene oxide within a novel reactor design characterized by a corrugated inner wall for enhanced cooling. By applying Computational Fluid Dynamics (CFD), this study aims to optimize the reactor's heat transfer capabilities to achieve precise control over the exothermic decomposition process. This approach addresses a previously unexplored area in CFD application, proposing a model that fine-tunes the decomposition efficiency of propylene oxide by considering the interplay of key parameters such as inlet mixture temperature, activation energy, flow rate, and the resulting thermal profile. The primary goal is to advance the development of more efficient and environmentally friendly chemical processing techniques in the propylene oxide industry. The study highlights the critical relationship between activation energy (74–76 kJ/mol), process temperature (29–37 °C), and cooling efficiency in optimizing the decomposition process. Significant findings indicate that higher inlet temperatures (37 °C) and lower activation energies (74 kJ/mol) lead to superior conversion rates. The study presents a clear correlation between temperature elevation, reduced activation energy, and enhanced conversion rates, demonstrating that optimizing these parameters can lead to significantly improved conversion efficiencies, potentially approaching 100 % under ideal conditions.

Published
2024
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36. A comprehensive review on the Dynamical behavior of heat and fluid flow mechanism: Thermal performance across different geometries

Author

Hossam A. Nabwey, Muhammad Ashraf, Zia Ullah, A.M. Rashad, and Ali J. Chamkha

Subjects
Dynamic behavior, Heat transfer, Transient fluid flow, Amplitude, Mass transfer, Reduced gravity, Applied mathematics. Quantitative methods, T57-57.97
Abstract

The prominent novelty of current review is to exhibit the fluctuating and oscillatory convective heat transfer properties along various geometries with magnetic force, variable density, Prandtl number, buoyancy force and magnetic Prandtl number effects. The significance of present work is to illustrate a comprehensive review on transient convective heat transfer. Transient convective heat transfer plays an essential role in various technological and environmental applications, including climate control, structure safety, engines, thermal control, computer heating and cooling, and energy safety. The literature primarily focuses on steady temperature and velocity domains, with few studies exploring time-varying fluid flow in forced, natural, or mixed convective mechanisms with different methods. In current review, justification of results was performed by using oscillating stokes conditions directly in partial differential models. The similarity variables and stream functions are used in literature but in current review, the primitive variable transformation is used with implicit form of finite difference method and Gaussian elimination technique through FORTRAN and Tecplot-360 programming tools. The governing model is reduced into steady, real and imaginary form to explore steady and oscillating convective heat transmission. Transient flows have gained significance due to their ability to achieve large oscillating convective heat transfer rates. Compared with steady movement, oscillating flows exhibit higher velocity variations along the heated surface. Periodic flow produces an improved transient surface heat transmission rate than steady flow. Predicting and controlling transients in thermal exchangers requires a concept of transient forced convection heat transport. Transient convective thermal transmission solutions are important for ensuring the effectiveness and reliability of electrical components, nuclear and thermal power stations, heat-generating engines, steam turbines, condensation systems, catalytic converters, heat shielding for spacecraft, electrical devices, internal combustion engines, air conditioning and refrigerator components, cooling networks for batteries, generators, and transformers. It is found that the frequency of convective heat transport enhances through periodic and oscillating stokes variables. It was depicted that the higher amplitude in convective heat transfer was displayed for each choice of magnetic force parameter around two angles π/4 and π of circular magnetized surface. It was depicted that the maximum transient convective heat transmission was reported along vertical angle π/2 with buoyancy force, Prandtl and magnetic Prandtl values.

Published
2024
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37. Recent advances on supercapacitor electrode materials from biowastes- a review

Author

M.K. Nayak, B.B. Sahoo, D.N. Thatoi, S. Nazari, Rifaqat Ali, and Ali J. Chamkha

Subjects
Bio-waste, Activated carbon, RAMAN, Supercapacitors, Energy storage, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

As witnessed worldwide, there has been rapid growth in research and the creation of energy storage devices such as supercapacitor electrodes that can store and deliver energy at a speedy rate, and provide high currents in a short duration. This article deals with a review on how supercapacitor (SC) electrode materials get developed from bio-waste like cooked chicken bone waste (CCBW), chicken egg shells, fish gills, fishbone waste, and biodegradable and non-biodegradable marine wastes such as plastics, mangroves, chitosans, and mussel shells, which provide economic benefit for the substantiality of supercapacitor technology. The synthesis and preparation involved in the study include one step activation and colloidal blending processes. The characterization of the as-prepared materials is carried out by implementing XRD, FESEM, EDS, FT-IR, TGA, TEM, and RAMAN spectroscopy. It is visualized that electrode materials possess high carbon content with porosity leading to a greater specific surface area, which is essential for high conductance SC electrodes. Researche on electrochemical analysis of prepared electrodes from such marine waste materials using CV, GCD, and EIS techniques has been analyzed.

Published
2024
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47. An in vitro assessment of the residual dentin after using three minimally invasive caries removal techniques

Author

Rand Mohammed Al-Sagheer, Ali J. Addie, and Lamis A. Al-Taee

Subjects
Medicine, Science
Abstract

Abstract To evaluate the efficiency and effectiveness of three minimally invasive (MI) techniques in removing deep dentin carious lesions. Forty extracted carious molars were treated by conventional rotary excavation (control), chemomechanical caries removal agent (Brix 3000), ultrasonic abrasion (WOODPECKER, GUILIN, China); and Er, Cr: YSGG laser ablation (BIOLASE San Clemente, CA, USA). The assessments include; the excavation time, DIAGNOdent pen, Raman spectroscopy, Vickers microhardness, and scanning electron microscope combined with energy dispersive X-ray spectroscopy (SEM–EDX). The rotary method recorded the shortest excavation time (p

Published
2024
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48. Engaging sexual minority adolescents in nationwide at-home HIV prevention research in the U.S

Author

Ali J. Talan, Carly Wolfer, Nicola Tavella, Cynthia Cabral, Ricardo Despradel, and H. Jonathon Rendina

Subjects
HIV, LGBTQ+, Intersectionality, Remote research, Adolescents, Medicine
Abstract

Objectives: This study examined research-related privacy and confidentiality concerns among adolescent sexual minority males (ASMM) and provides lessons learned to inform recruitment and enrollment strategies for this population. Methods: Participants were a 2017–2018 internet-based U.S. national sample of sexual minority adolescents who responded to self-report measures of privacy and confidentiality concerns. Results: Bivariate chi-square tests were used to identify participants’ mean differences in worry and likelihood of privacy breach occurrences. Many participants reported privacy-related concerns within remote HIV prevention research. Conclusions: Study protocols were designed to ensure participants felt safe participating in online HIV prevention research. However, there are challenges to enroll participants with rigorous protocols for ensuring safety and privacy.

Published
2024
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