Your search keyword '"Khalid, AN"' showing total 334,785 results

1. Women’s Autonomy in Maternal Healthcare Decision-Making in Urban Ghana

Author

Khalid, Andaratu Achuliwor, Avilés Irahola, Dennis Lucy, and Salifu, Adam

Published

2024

2. Macro-Structures Framing Language Policy in Morocco: Which Discourse? Whose Discourse?

Author

Khalid Laanani and Said Fathi

Abstract

Today, the power of discourse is incontestable. Within the field of language policy and planning (LPP), language policy (LP) has been conceptualized in various ways. One paradigmshifting conceptualization is viewing LP as "discourse." The discursive power of language policies is quite real as it can be contested in official state discourses about language and language-related issues. This paper employs corpus-assisted critical discourse analysis to examine the macrodiscourses of crisis, quality, equity, equality, and change in Morocco's language policy. The study scrutinizes these discourses and explores their "manipulative" use in official policy texts. It contends that these macro-discourses are strategically used to rationalize the spread and strengthening of foreign languages to the detriment of national ones. Specifically, the analysis shows that crisis discourse serves as a powerful strategy to legitimize change and create a sense of urgency that often sidelines crucial questions about the nature and beneficiaries of the proposed changes. Furthermore, the discourse of quality ties educational "quality" to the mastery of foreign languages. Likewise, renovation and modernization discourses are found to align systematically with the promotion of these languages. Also, the rhetoric of equity in language-in-education policy appears to justify biased decisions that favour foreign language instruction, risking the perpetuation and exacerbation of existing educational inequities. Consequently, this study implies that more attention should be paid to the intricate dynamics of language policy, especially its discursive power, which could potentially amplify disparities in education systems instead of eliminating them.

Published

2024

3. The Role of Language Models in Modern Healthcare: A Comprehensive Review

Author

Khalid, Amna, Khalid, Ayma, and Khalid, Umar

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Computation and Language

Abstract

The application of large language models (LLMs) in healthcare has gained significant attention due to their ability to process complex medical data and provide insights for clinical decision-making. These models have demonstrated substantial capabilities in understanding and generating natural language, which is crucial for medical documentation, diagnostics, and patient interaction. This review examines the trajectory of language models from their early stages to the current state-of-the-art LLMs, highlighting their strengths in healthcare applications and discussing challenges such as data privacy, bias, and ethical considerations. The potential of LLMs to enhance healthcare delivery is explored, alongside the necessary steps to ensure their ethical and effective integration into medical practice.

Published

2024

4. Factors influencing survival in sphingosine phosphate lyase insufficiency syndrome: a retrospective cross-sectional natural history study of 76 patients

Author

Keller, Nancy, Midgley, Julian, Khalid, Ehtesham, Lesmana, Harry, Mathew, Georgie, Mincham, Christine, Teig, Norbert, Khan, Zubair, Khosla, Indu, Mehr, Sam, Guran, Tulay, Buder, Kathrin, Xu, Hong, Alhasan, Khalid, Buyukyilmaz, Gonul, Weaver, Nicole, and Saba, Julie D

Subjects

Biological Sciences, Biomedical and Clinical Sciences, Clinical Sciences, Organ Transplantation, Transplantation, Kidney Disease, Genetics, Rare Diseases, Clinical Research, Pediatric, Renal and urogenital, Humans, Retrospective Studies, Male, Female, Child, Preschool, Aldehyde-Lyases, Child, Infant, Cross-Sectional Studies, Adolescent, Kidney Transplantation, Mutation, Nephrotic Syndrome, SGPL1, Adrenal insufficiency, Gene therapy, Inborn error of metabolism, Kidney transplantation, Nephrotic syndrome, Pyridoxal 5′-phosphate, SPLIS, Vitamin B6, Other Medical and Health Sciences, Genetics & Heredity, Clinical sciences

Abstract

BackgroundSphingosine-1-phosphate lyase insufficiency syndrome (SPLIS) is a recently recognized inborn error of metabolism associated with steroid-resistant nephrotic syndrome as well as adrenal insufficiency and immunological, neurological, and skin manifestations. SPLIS is caused by inactivating mutations in SGPL1, encoding the pyridoxal 5'phosphate-dependent enzyme sphingosine-1-phosphate lyase, which catalyzes the final step of sphingolipid metabolism. Some SPLIS patients have undergone kidney transplantation, and others have been treated with vitamin B6 supplementation. In addition, targeted therapies including gene therapy are in preclinical development. In anticipation of clinical trials, it will be essential to characterize the full spectrum and natural history of SPLIS. We performed a retrospective analysis of 76 patients in whom the diagnosis of SPLIS was established in a proband with at least one suggestive finding and biallelic SGPL1 variants identified by molecular genetic testing. The main objective of the study was to identify factors influencing survival in SPLIS subjects.ResultsOverall survival at last report was 50%. Major influences on survival included: (1) age and organ involvement at first presentation; (2) receiving a kidney transplant, and (3) SGPL1 genotype. Among 48 SPLIS patients with nephropathy who had not received a kidney transplant, two clinical subgroups were distinguished. Of children diagnosed with SPLIS nephropathy before age one (n = 30), less than 30% were alive 2 years after diagnosis, and 17% were living at last report. Among those diagnosed at or after age one (n = 18), ~ 70% were alive 2 years after diagnosis, and 72% were living at time of last report. SPLIS patients homozygous for the SPL R222Q variant survived longer compared to patients with other genotypes. Kidney transplantation significantly extended survival outcomes.ConclusionOur results demonstrate that SPLIS is a phenotypically heterogeneous condition. We find that patients diagnosed with SPLIS nephropathy in the first year of life and patients presenting with prenatal findings represent two high-risk subgroups, whereas patients harboring the R222Q SGPL1 variant fare better than the rest. Time to progression from onset of proteinuria to end stage kidney disease varies from less than one month to five years, and kidney transplantation may be lifesaving.

Published

2024

5. Optimizing Multi-level Magic State Factories for Fault-Tolerant Quantum Architectures

Author

Silva, Allyson, Scherer, Artur, Webb, Zak, Khalid, Abdullah, Kulchytskyy, Bohdan, Kramer, Mia, Nguyen, Kevin, Kong, Xiangzhou, Dagnew, Gebremedhin A., Wang, Yumeng, Nguyen, Huy Anh, Olfert, Katiemarie, and Ronagh, Pooya

Subjects

Quantum Physics, Computer Science - Hardware Architecture, Mathematics - Optimization and Control

Abstract

We propose a novel technique for optimizing a modular fault-tolerant quantum computing architecture, taking into account any desired space-time trade--offs between the number of physical qubits and the fault-tolerant execution time of a quantum algorithm. We consider a concept architecture comprising a dedicated zone as a multi-level magic state factory and a core processor for efficient logical operations, forming a supply chain network for production and consumption of magic states. Using a heuristic algorithm, we solve the multi-objective optimization problem of minimizing space and time subject to a user-defined error budget for the success of the computation, taking the performance of various fault-tolerant protocols such as quantum memory, state preparation, magic state distillation, code growth, and logical operations into account. As an application, we show that physical quantum resource estimation reduces to a simple model involving a small number of key parameters, namely, the circuit volume, the error prefactors ($\mu$) and error suppression rates ($\Lambda$) of the fault-tolerant protocols, and an allowed slowdown factor ($\beta$). We show that, in the proposed architecture, $10^5$--$10^8$ physical qubits are required for quantum algorithms with $T$-counts in the range $10^6$--$10^{15}$ and logical qubit counts in the range $10^2$--$10^4$, when run on quantum computers with quantum memory $\Lambda$ in the range 3--10, for all slowdown factors $\beta \geq 0.2$., Comment: 21 pages, 6 figures

Published

2024

6. Leveraging Transformer-Based Models for Predicting Inflection Classes of Words in an Endangered Sami Language

Author

Alnajjar, Khalid, Hämäläinen, Mika, and Rueter, Jack

Subjects

Computer Science - Computation and Language

Abstract

This paper presents a methodology for training a transformer-based model to classify lexical and morphosyntactic features of Skolt Sami, an endangered Uralic language characterized by complex morphology. The goal of our approach is to create an effective system for understanding and analyzing Skolt Sami, given the limited data availability and linguistic intricacies inherent to the language. Our end-to-end pipeline includes data extraction, augmentation, and training a transformer-based model capable of predicting inflection classes. The motivation behind this work is to support language preservation and revitalization efforts for minority languages like Skolt Sami. Accurate classification not only helps improve the state of Finite-State Transducers (FSTs) by providing greater lexical coverage but also contributes to systematic linguistic documentation for researchers working with newly discovered words from literature and native speakers. Our model achieves an average weighted F1 score of 1.00 for POS classification and 0.81 for inflection class classification. The trained model and code will be released publicly to facilitate future research in endangered NLP., Comment: IWCLUL 2024

Published

2024

7. Exploring New Physics in transition $b\to s\,\ell^+\ell^-$ through different $B_c\to D_s^{(\ast)} \,\ell^+\ell^-$ observables

Author

Salam, Qazi Maaz Us, Ahmed, Ishtiaq, Khalid, Rizwan, and Rehman, Ibad Ur

Subjects

High Energy Physics - Phenomenology

Abstract

Inspired by the intriguing discrepancies observed in the $b\to s\ell^+\ell^-$ neutral current decays, we study the decay channel $B_c\to D_s^{(\ast)} \,\ell^+\ell^-$ ($\ell=\mu,\tau$), which is also the same flavor changing neutral current (FCNC) transition at the quark level. In this context, looking for the potential of physics beyond the standard model (SM) can offer compelling results to the decay $B_c\to D_s^{(\ast)} \,\ell^+\ell^-$. For this purpose, we use the helicity formalism for this decay by employing the effective theory approach where the vector and axial vector new physics (NP) operators are present. In this study, we have calculated several observables, such as the branching ratio $B_r$, the $D^\ast$ helicity fraction $f_L$, the lepton forward-backward asymmetry $A_{FB}$, and the lepton flavor universality ratio (LFU) $R^{\tau\mu}_{D_s^*}$. In addition, to a complimentary check on the LFU, we also calculate the ratio of different observables $R_{i}^{\tau\mu}$ where $i=A_{FB}$, $f_L$. We assume that the NP universal coupling is present for both muons and tauons, while the non-universal coupling is only present for muons. Regarding these couplings, we imply the latest global fit to the $b\to s\ell^+\ell^-$ data, which is recently computed in \cite{Alguero:2023jeh}. We give predictions of some of the mentioned observables within the SM and the various NP scenarios. We found that the considered observables are not only sensitive to the NP but also helpful in distinguishing among the different NP scenarios. These results can be tested at LHCb, HL-LHC, and FCC-ee, and therefore, the precise measurements of these observables not only deepen our understanding of the $b\to s\ell^+\ell^-$ process but also provide a complementary check of the status of different NP scenarios., Comment: 27 pages, 11 figures

Published

2024

8. Outlier-Oriented Poisoning Attack: A Grey-box Approach to Disturb Decision Boundaries by Perturbing Outliers in Multiclass Learning

Author

Paracha, Anum, Arshad, Junaid, Farah, Mohamed Ben, and Ismail, Khalid

Subjects

Computer Science - Machine Learning

Abstract

Poisoning attacks are a primary threat to machine learning models, aiming to compromise their performance and reliability by manipulating training datasets. This paper introduces a novel attack - Outlier-Oriented Poisoning (OOP) attack, which manipulates labels of most distanced samples from the decision boundaries. The paper also investigates the adverse impact of such attacks on different machine learning algorithms within a multiclass classification scenario, analyzing their variance and correlation between different poisoning levels and performance degradation. To ascertain the severity of the OOP attack for different degrees (5% - 25%) of poisoning, we analyzed variance, accuracy, precision, recall, f1-score, and false positive rate for chosen ML models.Benchmarking our OOP attack, we have analyzed key characteristics of multiclass machine learning algorithms and their sensitivity to poisoning attacks. Our experimentation used three publicly available datasets: IRIS, MNIST, and ISIC. Our analysis shows that KNN and GNB are the most affected algorithms with a decrease in accuracy of 22.81% and 56.07% while increasing false positive rate to 17.14% and 40.45% for IRIS dataset with 15% poisoning. Further, Decision Trees and Random Forest are the most resilient algorithms with the least accuracy disruption of 12.28% and 17.52% with 15% poisoning of the IRIS dataset. We have also analyzed the correlation between number of dataset classes and the performance degradation of models. Our analysis highlighted that number of classes are inversely proportional to the performance degradation, specifically the decrease in accuracy of the models, which is normalized with increasing number of classes. Further, our analysis identified that imbalanced dataset distribution can aggravate the impact of poisoning for machine learning models

Published

2024

9. Enhancing Thrust in Flapping Airfoils Through Wake Interactions with Oscillating Cylinder

Author

Khan, Amir, Akhtar, Imran, and Khalid, Muhammad Saif Ullah

Subjects

Physics - Fluid Dynamics

Abstract

Inspired by the natural motion of insects, fish, and other animals, flapping airfoils have gained significant importance due to their applications in fields such as ship propulsion, micro aerial vehicles, and autonomous underwater vehicles. Over the past two decades, extensive research has focused on understanding the dynamics of these airfoils, their thrust production capabilities, and methods to enhance this thrust in unsteady flows. This study investigates how the presence of a cylinder oscillating due to incoming flow affects the thrust performance of the flapping airfoil. The results indicate that the flapping airfoil generates increased thrust when placed in the wake of the oscillating cylinder compared to a scenario without the cylinder's wake. A direct relationship has been found between the strouhal number ($St$) of the flapping airfoil and its pitching amplitude, which significantly influences the airfoil's performance. This analysis highlights the potential for optimizing flapping airfoil efficiency through strategic selection of flapping parameters and the placement of an oscillating cylinder.

Published

2024

10. PDSR: Efficient UAV Deployment for Swift and Accurate Post-Disaster Search and Rescue

Author

Abdellatif, Alaa Awad, Elmancy, Ali, Mohamed, Amr, Massoud, Ahmed, Lebda, Wadha, and Naji, Khalid K.

Subjects

Computer Science - Robotics, Computer Science - Artificial Intelligence, Electrical Engineering and Systems Science - Systems and Control

Abstract

This paper introduces a comprehensive framework for Post-Disaster Search and Rescue (PDSR), aiming to optimize search and rescue operations leveraging Unmanned Aerial Vehicles (UAVs). The primary goal is to improve the precision and availability of sensing capabilities, particularly in various catastrophic scenarios. Central to this concept is the rapid deployment of UAV swarms equipped with diverse sensing, communication, and intelligence capabilities, functioning as an integrated system that incorporates multiple technologies and approaches for efficient detection of individuals buried beneath rubble or debris following a disaster. Within this framework, we propose architectural solution and address associated challenges to ensure optimal performance in real-world disaster scenarios. The proposed framework aims to achieve complete coverage of damaged areas significantly faster than traditional methods using a multi-tier swarm architecture. Furthermore, integrating multi-modal sensing data with machine learning for data fusion could enhance detection accuracy, ensuring precise identification of survivors., Comment: This paper is currently under review at IEEE IoT Magazine

Published

2024

11. Workflows Community Summit 2024: Future Trends and Challenges in Scientific Workflows

Author

da Silva, Rafael Ferreira, Bard, Deborah, Chard, Kyle, de Witt, Shaun, Foster, Ian T., Gibbs, Tom, Goble, Carole, Godoy, William, Gustafsson, Johan, Haus, Utz-Uwe, Hudson, Stephen, Jha, Shantenu, Los, Laila, Paine, Drew, Suter, Frédéric, Ward, Logan, Wilkinson, Sean, Amaris, Marcos, Babuji, Yadu, Bader, Jonathan, Balin, Riccardo, Balouek, Daniel, Beecroft, Sarah, Belhajjame, Khalid, Bhattarai, Rajat, Brewer, Wes, Brunk, Paul, Caino-Lores, Silvina, Casanova, Henri, Cassol, Daniela, Coleman, Jared, Coleman, Taina, Colonnelli, Iacopo, Da Silva, Anderson Andrei, de Oliveira, Daniel, Elahi, Pascal, Elfaramawy, Nour, Elwasif, Wael, Etz, Brian, Fahringer, Thomas, Ferreira, Wesley, Filgueira, Rosa, Tande, Jacob Fosso, Gadelha, Luiz, Gallo, Andy, Garijo, Daniel, Georgiou, Yiannis, Gritsch, Philipp, Grubel, Patricia, Gueroudji, Amal, Guilloteau, Quentin, Hamalainen, Carlo, Enriquez, Rolando Hong, Huet, Lauren, Kesling, Kevin Hunter, Iborra, Paula, Jahangiri, Shiva, Janssen, Jan, Jordan, Joe, Kanwal, Sehrish, Kunstmann, Liliane, Lehmann, Fabian, Leser, Ulf, Li, Chen, Liu, Peini, Luettgau, Jakob, Lupat, Richard, Fernandez, Jose M., Maheshwari, Ketan, Malik, Tanu, Marquez, Jack, Matsuda, Motohiko, Medic, Doriana, Mohammadi, Somayeh, Mulone, Alberto, Navarro, John-Luke, Ng, Kin Wai, Noelp, Klaus, Kinoshita, Bruno P., Prout, Ryan, Crusoe, Michael R., Ristov, Sashko, Robila, Stefan, Rosendo, Daniel, Rowell, Billy, Rybicki, Jedrzej, Sanchez, Hector, Saurabh, Nishant, Saurav, Sumit Kumar, Scogland, Tom, Senanayake, Dinindu, Shin, Woong, Sirvent, Raul, Skluzacek, Tyler, Sly-Delgado, Barry, Soiland-Reyes, Stian, Souza, Abel, Souza, Renan, Talia, Domenico, Tallent, Nathan, Thamsen, Lauritz, Titov, Mikhail, Tovar, Benjamin, Vahi, Karan, Vardar-Irrgang, Eric, Vartina, Edite, Wang, Yuandou, Wouters, Merridee, Yu, Qi, Bkhetan, Ziad Al, and Zulfiqar, Mahnoor

Subjects

Computer Science - Distributed, Parallel, and Cluster Computing

Abstract

The Workflows Community Summit gathered 111 participants from 18 countries to discuss emerging trends and challenges in scientific workflows, focusing on six key areas: time-sensitive workflows, AI-HPC convergence, multi-facility workflows, heterogeneous HPC environments, user experience, and FAIR computational workflows. The integration of AI and exascale computing has revolutionized scientific workflows, enabling higher-fidelity models and complex, time-sensitive processes, while introducing challenges in managing heterogeneous environments and multi-facility data dependencies. The rise of large language models is driving computational demands to zettaflop scales, necessitating modular, adaptable systems and cloud-service models to optimize resource utilization and ensure reproducibility. Multi-facility workflows present challenges in data movement, curation, and overcoming institutional silos, while diverse hardware architectures require integrating workflow considerations into early system design and developing standardized resource management tools. The summit emphasized improving user experience in workflow systems and ensuring FAIR workflows to enhance collaboration and accelerate scientific discovery. Key recommendations include developing standardized metrics for time-sensitive workflows, creating frameworks for cloud-HPC integration, implementing distributed-by-design workflow modeling, establishing multi-facility authentication protocols, and accelerating AI integration in HPC workflow management. The summit also called for comprehensive workflow benchmarks, workflow-specific UX principles, and a FAIR workflow maturity model, highlighting the need for continued collaboration in addressing the complex challenges posed by the convergence of AI, HPC, and multi-facility research environments.

Published

2024

12. Using Intermittent Chaotic Clocks to Secure Cryptographic Chips

Author

Darya, Abdollah Masoud, Majzoub, Sohaib, El-Moursy, Ali A., Eladham, Mohamed Wed, Javeed, Khalid, and Elwakil, Ahmed S.

Subjects

Nonlinear Sciences - Chaotic Dynamics, Electrical Engineering and Systems Science - Systems and Control

Abstract

This letter proposes using intermittent chaotic clocks, generated from chaotic maps, to drive cryptographic chips running the Advanced Encryption Standard as a countermeasure against Correlation Power Analysis attacks. Five different chaotic maps -- namely: the Logistic map, the Bernoulli shift map, the Henon map, the Tent map, and the Ikeda map -- are used in this work to generate chaotic clocks. The performance of these chaotic clocks is evaluated in terms of timing overhead and the resilience of the driven chip against Correlation Power Analysis attacks. All proposed chaotic clocking schemes successfully protect the driven chip against attacks, with the clocks produced by the optimized Ikeda, Henon, and Logistic maps achieving the lowest timing overhead. These optimized maps, due to their intermittent chaotic behavior, exhibit lower timing overhead compared to previous work. Notably, the chaotic clock generated by the optimized Ikeda map approaches the theoretical limit of timing overhead, i.e., half the execution time of a reference periodic clock.

Published

2024

13. TESS Hunt for Young and Maturing Exoplanets (THYME) XII: A Young Mini-Neptune on the Upper Edge of the Radius Valley in the Hyades Cluster

Author

Distler, Adam, Soares-Furtado, Melinda, Vanderburg, Andrew, Schulte, Jack, Becker, Juliette, Mann, Andrew W., Howell, Steve B., Kraus, Adam L., Barkaoui, Khalid, Briceño, César, Collins, Karen A., Conti, Dennis, Jenkins, Jon M., Limbach, Mary Anne, Quinn, Samuel N., Turner, Jake D., Twicken, Joseph D., Schwarz, Richard P., Seager, Sara, Winn, Joshua N., and Ziegler, Carl

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We present the discovery and characterization of TOI-4364\,b, a young mini-Neptune in the tidal tails of the Hyades cluster, identified through TESS transit observations and ground-based follow-up photometry. The planet orbits a bright M dwarf ($K=9.1$\,mag) at a distance of 44\,pc, with an orbital period of 5.42\,days and an equilibrium temperature of $488^{+4}_{-4}$\,K. The host star's well-constrained age of 710\,Myr makes TOI-4364\,b an exceptional target for studying early planetary evolution around low-mass stars. We determined a planetary radius of $2.01^{+0.1}_{-0.08}$\,Earth radii, indicating that this planet is situated near the upper edge of the radius valley. This suggests that the planet retains a modest H/He envelope. As a result, TOI-4364\,b provides a unique opportunity to explore the transition between rocky super-Earths and gas-rich mini-Neptunes at the early stages of evolution. Its radius, which may still evolve as a result of ongoing atmospheric cooling, contraction, and photoevaporation, further enhances its significance for understanding planetary development. Furthermore, TOI-4364\,b possesses a moderately high Transmission Spectroscopy Metric of 44.2, positioning it as a viable candidate for atmospheric characterization with instruments such as JWST. This target has the potential to offer crucial insights into atmospheric retention and loss in young planetary systems., Comment: 18 pages, 9 figures

Published

2024

14. Unified Interpretation of 95 GeV Excesses in the Two Higgs Doublet type II Seesaw Model

Author

Ait-Ouazghour, Brahim, Chabab, Mohamed, and Goure, Khalid

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment

Abstract

In the search for a light Higgs boson, the ATLAS and CMS experiments have observed excesses in both the diphoton ($\gamma\gamma$) and di-tau-pair ($\tau^+\tau^-$) decay channels at about $95$ GeV. The LEP collaboration has also previously reported an excess in the $b\bar{b}$ channel at a comparable Higgs mass. In this paper, we explore whether these excesses can be accommodated within the framework of the Two Higgs Doublet type II Seesaw Model (2HDMcT). By implementing various theoretical constraints and experimental limits on the parameter space, we first demonstrate that a light CP-even Higgs boson, $h_1$, with a mass around 95 GeV can simultaneously account for the excesses observed in the $\gamma\gamma$ and $b\bar{b}$ channels, provided a Type I Yukawa texture is employed. More interestingly, our analysis shows that the three excesses in $\gamma\gamma$, $b\bar{b}$ and $\tau^+\tau^-$ channels can well be accommodated simultaneously, reaching a $0.64 \sigma$ C.L. if the CP-odd Higgs boson $A_1$ is nearly mass degenerate and superposed to the light CP-even Higgs $h_1$., Comment: 20 pages, 8 figures, 4 Tables, Latex

Published

2024

15. Online stochastic generators using Slepian bases for regional bivariate wind speed ensembles from ERA5

Author

Song, Yan, Khalid, Zubair, and Genton, Marc G.

Subjects

Statistics - Applications

Abstract

Reanalysis data, such as ERA5, provide a comprehensive and detailed representation of the Earth's system by assimilating observations into climate models. While crucial for climate research, they pose significant challenges in terms of generation, storage, and management. For 3-hourly bivariate wind speed ensembles from ERA5, which face these challenges, this paper proposes an online stochastic generator (OSG) applicable to any global region, offering fast stochastic approximations while storing only model parameters. A key innovation is the incorporation of the online updating, which allows data to sequentially enter the model in blocks of time and contribute to parameter updates. This approach reduces storage demands during modeling by eliminating the need to store and analyze the entire dataset, and enables near real-time emulations that complement the generation of reanalysis data. The Slepian concentration technique supports the efficiency of the proposed OSG by representing the data in a lower-dimensional space spanned by data-independent Slepian bases optimally concentrated within the specified region. We demonstrate the flexibility and efficiency of the OSG through two case studies requiring long and short blocks, specified for the Arabian-Peninsula region (ARP). For both cases, the OSG performs well across several statistical metrics and is comparable to the SG trained on the full dataset.

Published

2024

16. Guidelines for Fine-grained Sentence-level Arabic Readability Annotation

Author

Habash, Nizar, Taha-Thomure, Hanada, Elmadani, Khalid N., Zeino, Zeina, and Abushmaes, Abdallah

Subjects

Computer Science - Computation and Language

Abstract

This paper presents the foundational framework and initial findings of the Balanced Arabic Readability Evaluation Corpus (BAREC) project, designed to address the need for comprehensive Arabic language resources aligned with diverse readability levels. Inspired by the Taha/Arabi21 readability reference, BAREC aims to provide a standardized reference for assessing sentence-level Arabic text readability across 19 distinct levels, ranging in targets from kindergarten to postgraduate comprehension. Our ultimate goal with BAREC is to create a comprehensive and balanced corpus that represents a wide range of genres, topics, and regional variations through a multifaceted approach combining manual annotation with AI-driven tools. This paper focuses on our meticulous annotation guidelines, demonstrated through the analysis of 10,631 sentences/phrases (113,651 words). The average pairwise inter-annotator agreement, measured by Quadratic Weighted Kappa, is 79.9%, reflecting a high level of substantial agreement. We also report competitive results for benchmarking automatic readability assessment. We will make the BAREC corpus and guidelines openly accessible to support Arabic language research and education., Comment: 16 pages, 3 figures

Published

2024

17. Investigation of Nuclear Structure and $\beta$-decay Properties of As Isotopes

Author

Nabi, Jameel-Un, Kabir, Abdul, Khalid, Wajeeha, Rida, Syeda Anmol, and Anwaar, Izzah

Subjects

Nuclear Theory, Astrophysics - Solar and Stellar Astrophysics

Abstract

The nuclear ground state properties of 67 80As nuclei have been investigated within the framework of relativistic mean field (RMF) approach. The RMF model with density dependent (DDME2) interaction is utilized for the calculation of potential energy curves and the nuclear ground state deformation parameters $\beta_2$ of selected As isotopes. Later, the $\beta$ decay properties of As isotopes were studied using the proton neutron quasi particle random phase approximation pnQRPA model. These include Gamow Tellar (GT) strength distributions, log ft values, $\beta$ decay half lives, stellar $\beta$ plus minus decays and stellar electron positron capture rates. The $\beta_2$ values computed from RMF model were employed in the on QRPA model as an input parameter for the calculations of $\beta$-decay properties for 67 80As. The calculated log ft values were in decent agreement with the measured data. The predicted $\beta$-decay half lives matched the experimental values within a factor of 10. The stellar rates were compared with the shell model results. Only at high temperature and density values, the sum of $\beta$ plus and electron capture rates had a finite contribution. On the other hand, the sum of $\beta$ negative and positron capture rates were sizeable only at low density and high temperature values. For all such cases, the pn QRPA rates were found to be bigger than the shell model rates up to a factor of 33 or more. The findings reported in the current investigation could prove valuable for simulating the late stage stellar evolution of massive stars., Comment: 16 pages 6 figures 5 tables, Chinese Journal of Physics (2024)

Published

2024

18. BlockMEDC: Blockchain Smart Contracts for Securing Moroccan Higher Education Digital Certificates

Author

Fartitchou, Mohamed, Lamaakal, Ismail, Makkaoui, Khalid El, Allali, Zakaria El, and Maleh, Yassine

Subjects

Computer Science - Cryptography and Security

Abstract

Morocco's Vision 2030, known as Maroc Digital 2030, aims to position the country as a regional leader in digital technology by boosting digital infrastructure, fostering innovation, and advancing digital skills. Complementing this initiative, the Pacte ESRI 2030 strategy, launched in 2023, seeks to transform the higher education, research, and innovation sectors by integrating state-of-the-art digital technologies. In alignment with these national strategies, this paper introduces BlockMEDC, a blockchain-based system for securing and managing Moroccan educational digital certificates. Leveraging Ethereum smart contracts and the InterPlanetary File System, BlockMEDC automates the issuance, management, and verification of academic credentials across Moroccan universities. The proposed system addresses key issues such as document authenticity, manual verification, and lack of interoperability, delivering a secure, transparent, and cost-effective solution that aligns with Morocco's digital transformation goals for the education sector.

Published

2024

19. Applying the FAIR Principles to Computational Workflows

Author

Wilkinson, Sean R., Aloqalaa, Meznah, Belhajjame, Khalid, Crusoe, Michael R., Kinoshita, Bruno de Paula, Gadelha, Luiz, Garijo, Daniel, Gustafsson, Ove Johan Ragnar, Juty, Nick, Kanwal, Sehrish, Khan, Farah Zaib, Köster, Johannes, Gehlen, Karsten Peters-von, Pouchard, Line, Rannow, Randy K., Soiland-Reyes, Stian, Soranzo, Nicola, Sufi, Shoaib, Sun, Ziheng, Vilne, Baiba, Wouters, Merridee A., Yuen, Denis, and Goble, Carole

Subjects

Computer Science - Digital Libraries, Computer Science - Software Engineering

Abstract

Recent trends within computational and data sciences show an increasing recognition and adoption of computational workflows as tools for productivity, reproducibility, and democratized access to platforms and processing know-how. As digital objects to be shared, discovered, and reused, computational workflows benefit from the FAIR principles, which stand for Findable, Accessible, Interoperable, and Reusable. The Workflows Community Initiative's FAIR Workflows Working Group (WCI-FW), a global and open community of researchers and developers working with computational workflows across disciplines and domains, has systematically addressed the application of both FAIR data and software principles to computational workflows. We present our recommendations with commentary that reflects our discussions and justifies our choices and adaptations. Like the software and data principles on which they are based, these are offered to workflow users and authors, workflow management system developers, and providers of workflow services as guide rails for adoption and fodder for discussion. Workflows are becoming more prevalent as documented, automated instruments for data analysis, data collection, AI-based predictions, and simulations. The FAIR recommendations for workflows that we propose in this paper will maximize their value as research assets and facilitate their adoption by the wider community., Comment: 17 pages, 1 figure, 1 table

Published

2024

20. A Fourth Planet in the Kepler-51 System Revealed by Transit Timing Variations

Author

Masuda, Kento, Libby-Roberts, Jessica E., Livingston, John H., Stevenson, Kevin B., Gao, Peter, Vissapragada, Shreyas, Fu, Guangwei, Han, Te, Greklek-McKeon, Michael, Mahadevan, Suvrath, Agol, Eric, Bello-Arufe, Aaron, Berta-Thompson, Zachory, Canas, Caleb I., Chachan, Yayaati, Hebb, Leslie, Hu, Renyu, Kawashima, Yui, Knutson, Heather A., Morley, Caroline V., Murray, Catriona A., Ohno, Kazumasa, Tokadjian, Armen, Zhang, Xi, Welbanks, Luis, Nixon, Matthew C., Freedman, Richard, Narita, Norio, Fukui, Akihiko, de Leon, Jerome P., Mori, Mayuko, Palle, Enric, Murgas, Felipe, Parviainen, Hannu, Esparza-Borges, Emma, Jontof-Hutter, Daniel, Collins, Karen A., Benni, Paul, Barkaoui, Khalid, Pozuelos, Francisco J., Gillon, Michael, Jehin, Emmanuel, Benkhaldoun, Zouhair, Hawley, Suzanne, Lin, Andrea S. J., Stefansson, Gudmundur, Bieryla, Allyson, Yilmaz, Mesut, Senavci, Hakan Volkan, Girardin, Eric, Marino, Giuseppe, and Wang, Gavin

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Kepler-51 is a $\lesssim 1\,\mathrm{Gyr}$-old Sun-like star hosting three transiting planets with radii $\approx 6$-$9\,R_\oplus$ and orbital periods $\approx 45$-$130\,\mathrm{days}$. Transit timing variations (TTVs) measured with past Kepler and Hubble Space Telescope (HST) observations have been successfully modeled by considering gravitational interactions between the three transiting planets, yielding low masses and low mean densities ($\lesssim 0.1\,\mathrm{g/cm^3}$) for all three planets. However, the transit time of the outermost transiting planet Kepler-51d recently measured by the James Webb Space Telescope (JWST) 10 years after the Kepler observations is significantly discrepant from the prediction made by the three-planet TTV model, which we confirmed with ground-based and follow-up HST observations. We show that the departure from the three-planet model is explained by including a fourth outer planet, Kepler-51e, in the TTV model. A wide range of masses ($\lesssim M_\mathrm{Jup}$) and orbital periods ($\lesssim 10\,\mathrm{yr}$) are possible for Kepler-51e. Nevertheless, all the coplanar solutions found from our brute-force search imply masses $\lesssim 10\,M_\oplus$ for the inner transiting planets. Thus their densities remain low, though with larger uncertainties than previously estimated. Unlike other possible solutions, the one in which Kepler-51e is around the $2:1$ mean motion resonance with Kepler-51d implies low orbital eccentricities ($\lesssim 0.05$) and comparable masses ($\sim 5\,M_\oplus$) for all four planets, as is seen in other compact multi-planet systems. This work demonstrates the importance of long-term follow-up of TTV systems for probing longer period planets in a system., Comment: 48 pages, 26 figures, accepted for publication in AJ

Published

2024

21. Evaluating the Impact of Convolutional Neural Network Layer Depth on the Enhancement of Inertial Navigation System Solutions

Author

Aftatah, Mohammed and Zebbara, Khalid

Subjects

Computer Science - Robotics

Abstract

Secure navigation is pivotal for several applications including autonomous vehicles, robotics, and aviation. The inertial navigation system estimates position, velocity, and attitude through dead reckoning especially when external references like GPS are unavailable. However, the three accelerometers and three gyroscopes that compose the system are exposed to various types of errors including bias errors, scale factor errors, and noise, which can significantly degrade the accuracy of navigation constituting also a key vulnerability of this system. This work aims to adopt a supervised convolutional neural network (ConvNet) to address this vulnerability inherent in inertial navigation systems. In addition to this, this paper evaluates the impact of the ConvNet layer's depth on the accuracy of these corrections. This evaluation aims to determine the optimal layer configuration maximizing the effectiveness of error correction in INS (Inertial Navigation System) leading to precise navigation solutions.

Published

2024

22. Robot Navigation Using Physically Grounded Vision-Language Models in Outdoor Environments

Author

Elnoor, Mohamed, Weerakoon, Kasun, Seneviratne, Gershom, Xian, Ruiqi, Guan, Tianrui, Jaffar, Mohamed Khalid M, Rajagopal, Vignesh, and Manocha, Dinesh

Subjects

Computer Science - Robotics

Abstract

We present a novel autonomous robot navigation algorithm for outdoor environments that is capable of handling diverse terrain traversability conditions. Our approach, VLM-GroNav, uses vision-language models (VLMs) and integrates them with physical grounding that is used to assess intrinsic terrain properties such as deformability and slipperiness. We use proprioceptive-based sensing, which provides direct measurements of these physical properties, and enhances the overall semantic understanding of the terrains. Our formulation uses in-context learning to ground the VLM's semantic understanding with proprioceptive data to allow dynamic updates of traversability estimates based on the robot's real-time physical interactions with the environment. We use the updated traversability estimations to inform both the local and global planners for real-time trajectory replanning. We validate our method on a legged robot (Ghost Vision 60) and a wheeled robot (Clearpath Husky), in diverse real-world outdoor environments with different deformable and slippery terrains. In practice, we observe significant improvements over state-of-the-art methods by up to 50% increase in navigation success rate.

Published

2024

23. CROSS-GAiT: Cross-Attention-Based Multimodal Representation Fusion for Parametric Gait Adaptation in Complex Terrains

Author

Seneviratne, Gershom, Weerakoon, Kasun, Elnoor, Mohamed, Rajgopal, Vignesh, Varatharajan, Harshavarthan, Jaffar, Mohamed Khalid M, Pusey, Jason, and Manocha, Dinesh

Subjects

Computer Science - Robotics

Abstract

We present CROSS-GAiT, a novel algorithm for quadruped robots that uses Cross Attention to fuse terrain representations derived from visual and time-series inputs, including linear accelerations, angular velocities, and joint efforts. These fused representations are used to adjust the robot's step height and hip splay, enabling adaptive gaits that respond dynamically to varying terrain conditions. We generate these terrain representations by processing visual inputs through a masked Vision Transformer (ViT) encoder and time-series data through a dilated causal convolutional encoder. The cross-attention mechanism then selects and integrates the most relevant features from each modality, combining terrain characteristics with robot dynamics for better-informed gait adjustments. CROSS-GAiT uses the combined representation to dynamically adjust gait parameters in response to varying and unpredictable terrains. We train CROSS-GAiT on data from diverse terrains, including asphalt, concrete, brick pavements, grass, dense vegetation, pebbles, gravel, and sand. Our algorithm generalizes well and adapts to unseen environmental conditions, enhancing real-time navigation performance. CROSS-GAiT was implemented on a Ghost Robotics Vision 60 robot and extensively tested in complex terrains with high vegetation density, uneven/unstable surfaces, sand banks, deformable substrates, etc. We observe at least a 7.04% reduction in IMU energy density and a 27.3% reduction in total joint effort, which directly correlates with increased stability and reduced energy usage when compared to state-of-the-art methods. Furthermore, CROSS-GAiT demonstrates at least a 64.5% increase in success rate and a 4.91% reduction in time to reach the goal in four complex scenarios. Additionally, the learned representations perform 4.48% better than the state-of-the-art on a terrain classification task.

Published

2024

24. BehAV: Behavioral Rule Guided Autonomy Using VLMs for Robot Navigation in Outdoor Scenes

Author

Weerakoon, Kasun, Elnoor, Mohamed, Seneviratne, Gershom, Rajagopal, Vignesh, Arul, Senthil Hariharan, Liang, Jing, Jaffar, Mohamed Khalid M, and Manocha, Dinesh

Subjects

Computer Science - Robotics

Abstract

We present BehAV, a novel approach for autonomous robot navigation in outdoor scenes guided by human instructions and leveraging Vision Language Models (VLMs). Our method interprets human commands using a Large Language Model (LLM) and categorizes the instructions into navigation and behavioral guidelines. Navigation guidelines consist of directional commands (e.g., "move forward until") and associated landmarks (e.g., "the building with blue windows"), while behavioral guidelines encompass regulatory actions (e.g., "stay on") and their corresponding objects (e.g., "pavements"). We use VLMs for their zero-shot scene understanding capabilities to estimate landmark locations from RGB images for robot navigation. Further, we introduce a novel scene representation that utilizes VLMs to ground behavioral rules into a behavioral cost map. This cost map encodes the presence of behavioral objects within the scene and assigns costs based on their regulatory actions. The behavioral cost map is integrated with a LiDAR-based occupancy map for navigation. To navigate outdoor scenes while adhering to the instructed behaviors, we present an unconstrained Model Predictive Control (MPC)-based planner that prioritizes both reaching landmarks and following behavioral guidelines. We evaluate the performance of BehAV on a quadruped robot across diverse real-world scenarios, demonstrating a 22.49% improvement in alignment with human-teleoperated actions, as measured by Frechet distance, and achieving a 40% higher navigation success rate compared to state-of-the-art methods.

Published

2024

25. Computational Pathology for Accurate Prediction of Breast Cancer Recurrence: Development and Validation of a Deep Learning-based Tool

Author

Su, Ziyu, Guo, Yongxin, Wesolowski, Robert, Tozbikian, Gary, O'Connell, Nathaniel S., Niazi, M. Khalid Khan, and Gurcan, Metin N.

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Artificial Intelligence, Quantitative Biology - Quantitative Methods

Abstract

Accurate recurrence risk stratification is crucial for optimizing treatment plans for breast cancer patients. Current prognostic tools like Oncotype DX (ODX) offer valuable genomic insights for HR+/HER2- patients but are limited by cost and accessibility, particularly in underserved populations. In this study, we present Deep-BCR-Auto, a deep learning-based computational pathology approach that predicts breast cancer recurrence risk from routine H&E-stained whole slide images (WSIs). Our methodology was validated on two independent cohorts: the TCGA-BRCA dataset and an in-house dataset from The Ohio State University (OSU). Deep-BCR-Auto demonstrated robust performance in stratifying patients into low- and high-recurrence risk categories. On the TCGA-BRCA dataset, the model achieved an area under the receiver operating characteristic curve (AUROC) of 0.827, significantly outperforming existing weakly supervised models (p=0.041). In the independent OSU dataset, Deep-BCR-Auto maintained strong generalizability, achieving an AUROC of 0.832, along with 82.0% accuracy, 85.0% specificity, and 67.7% sensitivity. These findings highlight the potential of computational pathology as a cost-effective alternative for recurrence risk assessment, broadening access to personalized treatment strategies. This study underscores the clinical utility of integrating deep learning-based computational pathology into routine pathological assessment for breast cancer prognosis across diverse clinical settings.

Published

2024

26. Usage of Virtual Reality in Combating Social Anxiety Disorders in Non-native English Speakers: A Survey

Author

Zhang, Siyi and Khalid, Ayesha

Subjects

Computer Science - Human-Computer Interaction

Abstract

Social Anxiety Disorder (SAD) is a common yet underestimated mental health disorder. While non-native English speaker (NNES) students face public speaking, they are more likely to suffer some public speaking anxiety (PSA) due to linguistic and sociocultural differences \cite{cite1}. Virtual Reality (VR) technology has already benefitted social-emotional training. The core objective is to summarise the benefits and limitations of using VR technology to help NNES students practice and improve their public speaking skills. This is not a comprehensive survey of the literature. Instead, the selected papers are intended to reflect the current knowledge across various broad topics. Virtual Reality, Social Anxiety Disorder, Public Speaking Anxiety, English as a Second Language, and Non native English speakers are the keywords used for searching mainly in the Academic Search Complete (ASC) database. Compared with native English speaker (NES) students, NNES students have the potential to achieve better results when using VR technology for PSA social-emotional training.

Published

2024

27. FGR-Net:Interpretable fundus imagegradeability classification based on deepreconstruction learning

Author

Khalid, Saif, Rashwan, Hatem A., Abdulwahab, Saddam, Abdel-Nasser, Mohamed, Quiroga, Facundo Manuel, and Puig, Domenec

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition

Abstract

The performance of diagnostic Computer-Aided Design (CAD) systems for retinal diseases depends on the quality of the retinal images being screened. Thus, many studies have been developed to evaluate and assess the quality of such retinal images. However, most of them did not investigate the relationship between the accuracy of the developed models and the quality of the visualization of interpretability methods for distinguishing between gradable and non-gradable retinal images. Consequently, this paper presents a novel framework called FGR-Net to automatically assess and interpret underlying fundus image quality by merging an autoencoder network with a classifier network. The FGR-Net model also provides an interpretable quality assessment through visualizations. In particular, FGR-Net uses a deep autoencoder to reconstruct the input image in order to extract the visual characteristics of the input fundus images based on self-supervised learning. The extracted features by the autoencoder are then fed into a deep classifier network to distinguish between gradable and ungradable fundus images. FGR-Net is evaluated with different interpretability methods, which indicates that the autoencoder is a key factor in forcing the classifier to focus on the relevant structures of the fundus images, such as the fovea, optic disk, and prominent blood vessels. Additionally, the interpretability methods can provide visual feedback for ophthalmologists to understand how our model evaluates the quality of fundus images. The experimental results showed the superiority of FGR-Net over the state-of-the-art quality assessment methods, with an accuracy of 89% and an F1-score of 87%.

Published

2024

28. Active RIS-Aided Terahertz Communications with Phase Error and Beam Misalignment

Author

Khalid, Waqas, Yu, Heejung, Ali, Farman, and Huang, Huiping

Subjects

Computer Science - Networking and Internet Architecture

Abstract

Terahertz (THz) communications will be pivotal in sixth-generation (6G) wireless networks, offering significantly wider bandwidths and higher data rates. However, the unique propagation characteristics of the THz frequency band, such as high path loss and sensitivity to blockages, pose substantial challenges. Reconfigurable intelligent surfaces (RISs) present a promising solution for enhancing THz communications by dynamically shaping the propagation environment to address these issues. Active RISs, in particular, can amplify reflected signals, effectively mitigating the multiplicative fading effects in RIS-aided links. Given the highly directional nature of THz signals, beam misalignment is a significant concern, while discrete phase shifting is more practical for real-world RIS deployment compared to continuous adjustments. This paper investigates the performance of active-RIS-aided THz communication systems, focusing on discrete phase shifts and beam misalignment. An expression for the ergodic capacity is derived, incorporating critical system parameters to assess performance. Numerical results offer insights into optimizing active-RIS-aided THz communication systems., Comment: Accepted for ICTC 2024 (16-18 October 2024, Jeju, South Korea)

Published

2024

29. Optimal Operation of Active RIS-Aided Wireless Powered Communications in IoT Networks

Author

Khalid, Waqas, Boulogeorgos, A. -A. A., Van Chien, Trinh, Lee, Junse, Lee, Howon, and Yu, Heejung

Subjects

Computer Science - Networking and Internet Architecture

Abstract

Wireless-powered communications (WPCs) are increasingly crucial for extending the lifespan of low-power Internet of Things (IoT) devices. Furthermore, reconfigurable intelligent surfaces (RISs) can create favorable electromagnetic environments by providing alternative signal paths to counteract blockages. The strategic integration of WPC and RIS technologies can significantly enhance energy transfer and data transmission efficiency. However, passive RISs suffer from double-fading attenuation over RIS-aided cascaded links. In this article, we propose the application of an active RIS within WPC-enabled IoT networks. The enhanced flexibility of the active RIS in terms of energy transfer and information transmission is investigated using adjustable parameters. We derive novel closed-form expressions for the ergodic rate and outage probability by incorporating key parameters, including signal amplification, active noise, power consumption, and phase quantization errors. Additionally, we explore the optimization of WPC scenarios, focusing on the time-switching factor and power consumption of the active RIS. The results validate our analysis, demonstrating that an active RIS significantly enhances WPC performance compared to a passive RIS., Comment: Accepted for IEEE Internet of Things Journal

Published

2024

30. Constraining atmospheric composition from the outflow: helium observations reveal the fundamental properties of two planets straddling the radius gap

Author

Zhang, Michael, Bean, Jacob L., Wilson, David, Duvvuri, Girish, Schneider, Christian, Knutson, Heather A., Dai, Fei, Collins, Karen A., Watkins, Cristilyn N., Schwarz, Richard P., Barkaoui, Khalid, Shporer, Avi, Horne, Keith, Sefako, Ramotholo, Murgas, Felipe, and Palle, Enric

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

TOI-836 is a $\sim2-3$ Gyr K dwarf with an inner super Earth ($R=1.7\,R_\oplus$, $P=3.8\,d$) and an outer mini Neptune ($R=2.6\,R_\oplus$, $P=8.6\,d$). Recent JWST/NIRSpec 2.8--5.2 $\mu$m observations have revealed flat transmission spectra for both planets. We present Keck/NIRSPEC observations of escaping helium from this system. While planet b shows no absorption in the 1083 nm line to deep limits ($<0.2$\%), 836c shows strong (0.7\%) absorption in both visits. These results demonstrate that the inner super-Earth has lost its primordial atmosphere while the outer mini-Neptune has not. Self-consistent 1D radiative-hydrodynamic models of c using pyTPCI, an updated version of The PLUTO-CLOUDY Interface, reveal that the helium signal is highly sensitive to metallicity: its equivalent width collapses by a factor of 13 as metallicity increases from 10x to 100x solar, and by a further factor of 12 as it increases to 200x solar. The observed equivalent width is 88\% of the model prediction for 100x metallicity, suggesting that c may have an atmospheric metallicity close to 100x solar. This is similar to K2-18b and TOI-270d, the first two mini-Neptunes with detected absorption features in JWST transmission spectra. We highlight the helium triplet as a potentially powerful probe of atmospheric composition, with complementary strengths and weaknesses to atmospheric retrievals. The main strength is its extreme sensitivity to metallicity in the scientifically significant range of 10--200x solar, and the main weakness is the enormous model uncertainties in outflow suppression and confinement mechanisms, such as magnetic fields and stellar winds., Comment: Submitted to AJ

Published

2024

31. Machine Anomalous Sound Detection Using Spectral-temporal Modulation Representations Derived from Machine-specific Filterbanks

Author

Li, Kai, Zaman, Khalid, Li, Xingfeng, Akagi, Masato, and Unoki, Masashi

Subjects

Computer Science - Sound, Computer Science - Artificial Intelligence

Abstract

Early detection of factory machinery malfunctions is crucial in industrial applications. In machine anomalous sound detection (ASD), different machines exhibit unique vibration-frequency ranges based on their physical properties. Meanwhile, the human auditory system is adept at tracking both temporal and spectral dynamics of machine sounds. Consequently, integrating the computational auditory models of the human auditory system with machine-specific properties can be an effective approach to machine ASD. We first quantified the frequency importances of four types of machines using the Fisher ratio (F-ratio). The quantified frequency importances were then used to design machine-specific non-uniform filterbanks (NUFBs), which extract the log non-uniform spectrum (LNS) feature. The designed NUFBs have a narrower bandwidth and higher filter distribution density in frequency regions with relatively high F-ratios. Finally, spectral and temporal modulation representations derived from the LNS feature were proposed. These proposed LNS feature and modulation representations are input into an autoencoder neural-network-based detector for ASD. The quantification results from the training set of the Malfunctioning Industrial Machine Investigation and Inspection dataset with a signal-to-noise (SNR) of 6 dB reveal that the distinguishing information between normal and anomalous sounds of different machines is encoded non-uniformly in the frequency domain. By highlighting these important frequency regions using NUFBs, the LNS feature can significantly enhance performance using the metric of AUC (area under the receiver operating characteristic curve) under various SNR conditions. Furthermore, modulation representations can further improve performance. Specifically, temporal modulation is effective for fans, pumps, and sliders, while spectral modulation is particularly effective for valves.

Published

2024

32. Asymptotics for smooth numbers in short intervals

Author

Younis, Khalid

Subjects

Mathematics - Number Theory

Abstract

A number is said to be $y$-smooth if all of its prime factors are less than or equal to $y.$ For all $17/30<\theta\leq 1,$ we show that the density of $y$-smooth numbers in the short interval $[x,x+x^{\theta}]$ is asymptotically equal to the density of $y$-smooth numbers in the long interval $[1,x],$ for all $y \geq \exp((\log x)^{2/3+\varepsilon}).$ Assuming the Riemann Hypothesis, we also prove that for all $1/2<\theta\leq 1$ there exists a large constant $K$ such that the expected asymptotic result holds for $y\geq (\log x)^{K}.$ Our approach is to count smooth numbers using a Perron integral, shift this to a particular contour left of the saddle point, and employ a zero-density estimate of the Riemann zeta function., Comment: 30 pages

Published

2024

33. iText2KG: Incremental Knowledge Graphs Construction Using Large Language Models

Author

Lairgi, Yassir, Moncla, Ludovic, Cazabet, Rémy, Benabdeslem, Khalid, and Cléau, Pierre

Subjects

Computer Science - Artificial Intelligence, Computer Science - Computation and Language, Computer Science - Information Retrieval

Abstract

Most available data is unstructured, making it challenging to access valuable information. Automatically building Knowledge Graphs (KGs) is crucial for structuring data and making it accessible, allowing users to search for information effectively. KGs also facilitate insights, inference, and reasoning. Traditional NLP methods, such as named entity recognition and relation extraction, are key in information retrieval but face limitations, including the use of predefined entity types and the need for supervised learning. Current research leverages large language models' capabilities, such as zero- or few-shot learning. However, unresolved and semantically duplicated entities and relations still pose challenges, leading to inconsistent graphs and requiring extensive post-processing. Additionally, most approaches are topic-dependent. In this paper, we propose iText2KG, a method for incremental, topic-independent KG construction without post-processing. This plug-and-play, zero-shot method is applicable across a wide range of KG construction scenarios and comprises four modules: Document Distiller, Incremental Entity Extractor, Incremental Relation Extractor, and Graph Integrator and Visualization. Our method demonstrates superior performance compared to baseline methods across three scenarios: converting scientific papers to graphs, websites to graphs, and CVs to graphs., Comment: Accepted at The International Web Information Systems Engineering conference (the WISE conference) 2024

Published

2024

34. Language is Scary when Over-Analyzed: Unpacking Implied Misogynistic Reasoning with Argumentation Theory-Driven Prompts

Author

Muti, Arianna, Ruggeri, Federico, Al-Khatib, Khalid, Barrón-Cedeño, Alberto, and Caselli, Tommaso

Subjects

Computer Science - Computation and Language, Computer Science - Social and Information Networks

Abstract

We propose misogyny detection as an Argumentative Reasoning task and we investigate the capacity of large language models (LLMs) to understand the implicit reasoning used to convey misogyny in both Italian and English. The central aim is to generate the missing reasoning link between a message and the implied meanings encoding the misogyny. Our study uses argumentation theory as a foundation to form a collection of prompts in both zero-shot and few-shot settings. These prompts integrate different techniques, including chain-of-thought reasoning and augmented knowledge. Our findings show that LLMs fall short on reasoning capabilities about misogynistic comments and that they mostly rely on their implicit knowledge derived from internalized common stereotypes about women to generate implied assumptions, rather than on inductive reasoning.

Published

2024

35. Defect Landscape Engineering to Tune Skyrmion-Antiskyrmion Systems in FeGe

Author

Liu, Jiangteng, Schoell, Ryan, Zhang, Xiyue S., Yang, Hongbin, Venuti, M. B., Paik, Hanjong, Muller, David A., Lu, Tzu-Ming, Hattar, Khalid, and Eley, Serena

Subjects

Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

A promising architecture for next-generation, low energy spintronic devices uses skyrmions -- nanoscale whirlpools of magnetic moment -- as information carriers. Notably, schemes for racetrack memory have been proposed in which skyrmions and antiskyrmions, their antiparticle, serve as the logical bits 1 and 0. However, major challenges exist to designing skyrmion-antiskyrmion based computing. The presence of both particles in one material is often mutually exclusive such that few systems have been identified in which they coexist, and in these systems their appearance is stochastic rather than deterministic. Here, we create a tunable skyrmion-antiskyrmion system in FeGe films through ion-irradiation and annealing, and detail the structural properties of the films under these various conditions. Specifically, we irradiate epitaxial B20-phase FeGe films with 2.8 MeV Au$^{4+}$ ions, showing evidence that the amorphized regions preferentially host antiskyrmions at densities controlled by the irradiation fluence. In this work, we focus on a subsequent, systematic electron diffraction study with in-situ annealing, demonstrating the ability to recrystallize controllable fractions of the material at temperatures ranging from approximately 150$^{\circ}$ C to 250$^{\circ}$ C, enabling further tunability of skyrmion/antiskyrmion populations. We describe the crystallization kinetics using the Johnson-Mehl-Avrami-Kolmogorov model, finding that growth of crystalline grains is consistent with diffusion-controlled one-to-two dimensional growth with a decreasing nucleation rate. The procedures developed here can be applied towards creation of skyrmion-antiskyrmion systems for energy-efficient, high-density data storage, spin wave emission produced by skyrmion-antiskyrmion pair annihilation, and more generally testbeds for research on skyrmion-antiskyrmion liquids and crystals.

Published

2024

36. TOI-2379 b and TOI-2384 b: two super-Jupiter mass planets transiting low-mass host stars

Author

Bryant, Edward M., Bayliss, Daniel, Hartman, Joel D., Sedaghati, Elyar, Hobson, Melissa J., Jordán, Andrés, Brahm, Rafael, Bakos, Gaspar Á., Almenara, Jose Manuel, Barkaoui, Khalid, Bonfils, Xavier, Cointepas, Marion, Collins, Karen A., Dransfield, Georgina, Evans, Phil, Gillon, Michaël, Jehin, Emmanuël, Murgas, Felipe, Pozuelos, Francisco J., Schwarz, Richard P., Timmermans, Mathilde, Watkins, Cristilyn N., Wünsche, Anaël, Butler, R. Paul, Crane, Jeffrey D., Shectman, Steve, Teske, Johanna K., Charbonneau, David, Essack, Zahra, Jenkins, Jon M., Lewis, Hannah M., Seager, Sara, Ting, Eric B., and Winn, Joshua N.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Short-period gas giant planets have been shown to be significantly rarer for host stars less massive than the Sun. We report the discovery of two transiting giant planets - TOI-2379 b and TOI-2384 b - with low-mass (early M) host stars. Both planets were detected using TESS photometry and for both the transit signal was validated using ground based photometric facilities. We confirm the planetary nature of these companions and measure their masses using radial velocity observations. We find that TOI-2379 b has an orbital period of 5.469 d and a mass and radius of $5.76\pm0.20$ M$_{J}$ and $1.046\pm0.023$ R$_{J}$ and TOI-2384 b has an orbital period of 2.136 d and a mass and radius of $1.966\pm0.059$ M$_{J}$ and $1.025\pm0.021$ R$_{J}$. TOI-2379 b and TOI-2384 b have the highest and third highest planet-to-star mass ratios respectively out of all transiting exoplanets with a low-mass host star, placing them uniquely among the population of known exoplanets and making them highly important pieces of the puzzle for understanding the extremes of giant planet formation., Comment: Accepted for publication in MNRAS. 15 pages, 12 figures

Published

2024

37. Teachers' Perspectives on Applying Online Learning Tools through Learning Management System: The Need for an Online Malay Language Teaching Module

Author

M. Badrul Hisyam Sulong, M. Khalid M. Nasir, and Wan Muna Ruzanna Wan Mohamad

Abstract

This study examines Malay language teachers' perceptions of using Google tools in their online teaching in primary schools. It uses a basic interpretative research methodology to investigate the perspectives of six primary school Malay language teachers from Terengganu, Malaysia. Interviews with semi-structured questions were used to collect data and analyzed thematically. All the themes and sub-themes were organized using NVivo 12 software. The data show that the predominant topic in teachers' thoughts on the importance of Google tools was the reasons for their absence of use. There were two essential sub-themes: a lack of skills and proficiency and a need for more awareness of how to use Google tools. Furthermore, this study highlighted personal support of module development as a secondary theme which included two sub-themes: agreement with the need for modules and the importance of providing them. This study also underlined the importance of module preparation which was reinforced by two sub-themes: facilitating teachers' implementation of online teaching and serving as a significant reference for teachers. This study shows that effective online education requires competency, skills and knowledge of Google Tools. It suggests creating a Google Tools module to guide and serve as a resource for Malay language teachers.

Published

2024

38. Mathematics Lecturer's Adaption to Online Teaching in Response to COVID-19

Author

Mathematics Education Research Group of Australasia (MERGA), Khalid Saddiq, and Helen Chick

Abstract

Prior to the COVID-19 pandemic, the university educational system in Nigeria largely employed traditional, face-to-face classroom approaches for teaching. This study examines how mathematics lecturers adapted to online teaching in response to COVID-19 restrictions. A mixed methods approach was used to obtain both qualitative and quantitative data from ten mathematics and mathematics education lecturers, using questionnaires and semi-structured interviews. The results highlight mathematics and mathematics education lecturers' use of virtual boards, writing pads, and WhatsApp to improve interactions while teaching online via Zoom.

Published

2024

39. Effect of Smart Classroom's Online Quiz on Academic Achievement: An Empirical Evidence from the High School of Pakistan

Author

Sher Muhammad Awan, Rashid Hussain, and Khalid Saleem

Abstract

The objective of this study was to find effect of Jazz smart classroom's online quiz on academic achievement of students at secondary school level. Experimental design was used in which two groups were selected one was control and other was experimental group. Experimental group was given a treatment of six weeks by using Jazz Smart Classroom's Online Quiz. A sample of 30 students of class 10 was selected. Convenience sampling technique was used. Instrument used for collection of data was pre-test and post-test. Twenty lessons were delivered by using Jazz Smart Classroom's Online Quiz. Same pre-test and post-test used. The test was validated by the experts from University of Okara. The reliability of test was determined by reliability analysis with SPSS. The t-test was used for the comparison of data of control and experimental group. The results of experiment showed that the mean scores of students in post-test which were taught by using Jazz Smart Classroom's Online Quiz scored significantly higher than those taught by using traditional method. Some recommendations were made for teachers and students to use online quiz for better teaching and learning. Government should take an initiative to use Jazz Smart Classroom's Online Quiz in high schools.

Published

2024

40. The Impact of Artificial Intelligence on Research and Higher Education in Morocco

Author

Ghizlane Moukhliss, Khalid Lahyani, and Ghizlane Diab

Abstract

Artificial intelligence (AI) has revolutionized various fields, including research and higher education. Thanks to its innovative applications, it has changed traditional teaching methods. This article aims to explore the impact of AI on these domains in Moroccan universities, focusing on its transformative influence, benefits, challenges, and future prospects. By analyzing current literature, case studies, and expert opinions, we elucidate how AI has enhanced research methodologies, empowered educators and students, and fostered innovation in academia. In addition, we discuss ethical considerations and potential concerns associated with the increasing integration of AI. Finally, we highlight the future prospects and opportunities offered by AI for research and higher education in Morocco.

Published

2024

41. Floods and Children's Education in Rural India

Author

Nazar Khalid, Jere Behrman, Emily Hannum, and Amrit Thapa

Abstract

Floods cause extensive damage in high-income countries, including the United States, but problems are more severe in low- and middle-income countries (LMICs) that lack preventative and mitigating infrastructure. Marginalized children's education in LMICs might be particularly vulnerable. Using the Indian Human Development Survey, we investigate flood exposure implications for the education of school-age rural children, paying particular attention to children from marginalized groups. Results show that lower-caste Hindu, Muslim, and poorer children with less-educated parents in agricultural households are more likely to experience flooding. Interactions between flooding and marginalization characteristics indicate that flood exposure is associated with disproportionately negative learning outcomes for girls and that economic resources may mitigate flood exposure effects on delayed school progress. While greater exposures for marginalized groups are concerning, the limited number and modest magnitudes of documented negative effect heterogeneities for marginalized children are somewhat better news.

Published

2024

42. Effectiveness of Use PEAK Program in Developing Language Skills with Autism Spectrum Disorder Children in Oman

Author

Khalid AlMaqrashi and Alia Al-Oweidi

Abstract

The study aimed to reveal the effectiveness of the promoting emergence of advanced knowledge programs in developing language skills among a sample of children with an autism spectrum disorder in Oman. The study adopted the pre-experimental approach of the single experimental group with two pre- and post-measurements. 10 children with autism spectrum disorder (speakers) from (5-8) years and good mental ability were used and selected to achieve the objectives of the study. PEAK program was used and a scale for language skills was developed that consisted of (34) items distributed over two dimensions (receptive and expressive language). The validity and stability of the study tool was verified. The results of the current study showed that there were significant differences at ([alpha] = 0.05) level in favor of the post and follow-up application in the average performance of autism spectrum disorder children on the scale of language skills (receptive and expressive) attributable to the promoting emergence of advanced knowledge. The study recommended the preparation of periodic meetings and workshops for workers in the field of special education and autism spectrum disorder children in the Sultanate of Oman to learn how to employ the PEAK program in dealing with this group of children in Oman.

Published

2024

43. Cognitive Aspects of Persuasion in Marketing Discourse a Cognitive Linguistic Study

Author

Othman Khalid Al-Shboul, Nisreen Naji Al-Khawaldeh, Asim Ayed Alkhawaldeh, Hady J.Hamdan, and Ahmed Sulieman Al-Oliemat

Abstract

The use of language in digital discourse for marketing has rapidly developed through mass media. This paper elucidates how advertisers employ various pragmatic strategies to persuade the recipient to act (behavior) by purchasing specific products. This study utilized different theoretical and conceptual frameworks (Theory of Reasoned Action and Aristotle's Models of Persuasion) to address the shortcomings of the social cognitive approach in studying persuasion, to investigate how language of advertisements can influence the recipient's thinking of a product from a psychological perspective. Guided by the principles of TRA, the present study argues that persuasion in advertisements is structured by three dimensions: attraction (through language features and appeals), evaluation (through beliefs, attitudes, and intention), and behavior (social acceptance or reluctance). This study revealed eight persuasion techniques employed by advertisers including demonstrating distinction, honoring commitment, expressing authority, hyperbolizing, glorification, providing proofs, expressing solidarity, and proving success. Showing distinction and Honoring commitment were the most frequently used strategies. Additionally, the study found that strategies of persuasion involved ethical, logical, and emotional appeals for their large effect on the recipient as they contribute to the recipient's positive evaluations. Appealing to reasoning (logic) is the most common one in slogans.

Published

2024

44. Identifying Issues of Video Conferencing Tools for Teaching and Learning Using the PACT Framework

Author

Siew Eng Ling, Margaret Kit Yok Chan, Md Saifuddin Khalid, Siew Ching Ling, and Adeline Engkamat

Abstract

The usage of video conferencing tools in teaching and learning has become a norm in today's higher educational institutions, recognized across various academic settings. The experience gained by most educators in using video conferencing tools for teaching during the COVID-19 pandemic could be leveraged to enhance these tools. The study aims to capture the current practices and explore the issues of using video conferencing for teaching and learning in Malaysian higher educational institutions. It focuses on three target groups with hands-on experience: academicians, students, and e-learning consultants or information technology (IT) support staff. Interview and focus group protocols were developed based on the four elements of the PACT framework: People (P), Activities (A), Contexts (C), and Technologies (T). Data were gathered through focus group discussions and in-depth interviews with the target groups. There were 24 participants involved in three focus group discussions and 28 participants in individual in-depth interviews. The PACT framework was employed to analyze the data, aiding in understanding the current situation, identifying areas for improvement, and envisioning future scenarios. Qualitative data were transcribed and categorized based on the four PACT elements. The study identified differences in the People element with four scenarios/practices on physical differences, six on psychological differences, three on mental models, and five on social differences. A total of twenty differences were identified under the Activities element, with six on temporal aspects, four each on cooperation, complexity, and safety-critical aspects, and two on the nature of the content. Under the Context element, one scenario/practice was identified for organizational circumstances, five for social circumstances, and three for physical circumstances. In the Technology element, five scenarios/practices were identified: two related to the input part of technologies and one each for the output, communication, and content parts of technologies. From the scenarios/practices of the responses, a total of fifty-two issues related to using video conferencing for teaching and learning were identified. These findings will serve as the basis for ideation in developing innovative video conferencing toolkits for teaching and learning.

Published

2024

45. How to Maintain Education during Wars? An Integrative Approach to Ensure the Right to Education

Author

Soheil Salha, Ahmed Tlili, Boulus Shehata, Xiangling Zhang, Awol Endris, Khalid Arar, Sanjaya Mishra, and Mohamed Jemni

Abstract

It is widely acknowledged that the relationship between education, security, and stability is bidirectional. In times of war, access to quality education becomes compromised, and conversely, the absence of proper education constrains individuals to a life under constant threat, disrupting education provision. War, viewed as a "lifetime and life-wide status," evolves into a self-fulfilling prophecy, both at an individual and collective level, making it challenging to break free from, particularly within the broader context of education provision. Although, scant information exists about how education is maintained during wars, hindering the right to education in such contexts. This study therefore addresses this gap by synthesizing the literature to identify and present 14 educational scenarios and teaching strategies on how education was maintained from different war contexts over time. The findings reveal that education during wars can be digital-based (i.e., facilitated by technology) and non-digital based (without technology). Additionally, various teaching strategies are applied during wars, including inspirational, hands-on and practical, fun-based, among others. Finally, teaching during wars is not limited to teachers only, but it could also involve parents, neighbors, etc. The findings of the literature can help to ensure the right to education in crises like wars and reveal the importance of open education in such crises. They can also contribute to enriching the ongoing theoretical and practical debate on how to maintain education in crises like wars. This can help to better be prepared for future education in crises, which is the focus of several international organizations.

Published

2024

46. Assessing Online Faculty Satisfaction at Traditional Higher Education Institutions: The FSOTS and its Psychometric Properties

Author

Mary L. Newsome, Mohammad Mollazehi, Anthony A. Piña, and Khalid Al-Ali

Abstract

Drawing from existing literature, we constructed the Faculty Satisfaction with Online Teaching Survey (FSOTS) and administered it to 320 faculty teaching online in Qatar during the first 18 months of the COVID-19 pandemic. Descriptive statistics, including mean, standard deviation, Cronbach's alpha, composite reliability, exploratory factor analysis, and confirmatory factor analysis (CFA), were calculated to evaluate the structure and reliability of the instrument. The suitability of the CFA model was assessed by several fit indexes. Statistical analyses were performed using SAS 9.4. The results indicate that the FSOTS is a valid and reliable instrument for measuring online faculty satisfaction at traditional institutions.

Published

2024

47. Malaysian Teachers' Views on Robot-Mediated Intervention to Train Autism Spectrum Disorder (ASD) Children on Emotional Regulation

Author

Faizanah Abdul Alim Sidique, Aishah Hanim Abd Karim, Madihah Khalid, Siti Rafiah Abd Hamid, Mastura Badzis, Shahrul Naim Sidek, Hazlina Md Yusof, Ahmad Aidil Arafat Dzulkarnain, and Ariff Rashidan

Abstract

This qualitative study explored the views of teachers and an occupational therapist about the potential use of humanoid robots as an assistive tool in educating autism spectrum disorder (ASD) children. Seven participants with extensive experience handling early intervention programs for ASD children were selected via purposive sampling. Semi-structured interviews and focus group discussion (FGD) were applied as data collection method. Data gained were analyzed using thematic analysis. Four main themes were identified from the study, they are: (1) Teachers' knowledge about robots, (2) Robots increase children's engagement, (3) Roles of robots in intervention, and (4) advantages and disadvantages of using robots. All participants had observed a robot-mediated intervention involving interactions between ASD children and a humanoid robot. It was observed that most of the children at the center liked interacting with the robot, suggesting that the use of robots could benefit ASD children. However, these interactions must be monitored and limited to a certain period to avoid over-dependence on robot use. This study provides a novel perspective on robotics and a practical example of how to use robots to enhance learning outcomes for ASD children.

Published

2024

48. The Degree of Satisfaction of Multicultural Non-Native Speakers of Arabic with a Training Program: A Case of Faculty Members

Author

Khalid M. A. Sheirah, Ahmad Tawalbeh, and Rula Abu-Elrob

Abstract

This study aimed to identify the effectiveness of training on non-native speakers of Arabic at a university in Saudi Arabia from their point of view by determining the degree of their satisfaction in terms of four aspects: benefits of the offered training, trainers' performance, organizational effectiveness of the training program and the difficulties encountered by the trainees during training. The study examined whether there are differences in the averages of the trainees' responses according to the number of their previous training courses. The surveyed sample consisted of 29 trainees chosen by the intentional method. To pursue the aim of the study, both quantitative and qualitative designs were used. A questionnaire consisting of 24 items was developed and the descriptive analytical method was used.? The results showed that the average responses of the trainees in the areas of the scale as a whole were high according to the statistical standards followed in the study with an arithmetic average of (3.88). The benefit and the organization aspects of the training course received an arithmetic average of (4.63), the trainer's performance came next with an average of (4.61). In the last place is the aspect of difficulties with an average of 1.67, which is at a weak level. The study also found that there are no significant differences between the trainees' responses to the first three aspects according to the number of previous training courses the trainees attended. ?However, there are statistically significant differences for the fourth aspect 'difficulties encountered by the trainees', as the value of (f) is (5.34). The study offers insights into the usefulness of holding such a training program for refining the skills of the trainees and enhancing their teaching strategies to create a better classroom environment.

Published

2024

49. Employee Silence Predicted by Abusive Leadership and Workplace Ostracism: Role of Employee Power Distance

Author

Subham Khalid, Najma Malik, and Mohsin Atta

Abstract

The proposed research aimed to examine abusive leadership and workplace ostracism as predictors of employee silence among school teachers in Sargodha, Pakistan. Studies further tend to examine the moderating role of power distance. Purposive sampling was employed to acquire the data. The research variables were quantified using the Abusive Supervision Scale (Mitchell & Ambrose, 2007), Workplace Exclusion Scale (Hitlan & Noel, 2009), Silence Scale (Van Dyne et al., 2003) and Power Distance Scale (Dorfman & Howell, 1988). Pearson correlation analysis revealed a significant relationship between abusive leadership, workplace ostracism, employee silence, and power distance. Results showed that abusive leadership, ostracism, silence, and power distance have a positive relationship with each other. The findings of linear regression revealed that abusive leadership, ostracism and power distance positively predicted employee silence. Moderation analysis revealed that power distance significantly moderated the relationship of abusive leadership and workplace ostracism with employee silence. The proposed research provides some recommendations and conclusions for future researchers who may be interested in examining the abuse that teachers experience in a high-power-distance culture that compels them to act silently.

Published

2024

50. MOLHEM: An Innovative Android Application with an Interactive Avatar-Based Chatbot for Arab Children with ASD

Author

Saadeh Z. Sweidan, Shyam K. Almawajdeh, Ayah M. Khawaldeh, and Khalid A. Darabkh

Abstract

The teaching of children with Autism spectrum disorder (ASD) in Arabic-speaking countries depends mainly on the traditional techniques which are limited and outdated. On the other hand, smartphone applications (apps) have become an essential part of the current life style. They are literally used to accomplish thousands of different tasks related to almost every possible aspect of daily life. However, the available apps related to the children with ASD in Arabic countries are extremely rare and limited in their features and services. Motivated by that, this work tries to fill the shortage in this area by presenting MOLHEM as a helping app for Arab children with ASD that comes with an interactive avatar based chatbot. The proposed system aims mainly to improve the child's different social skills in addition to enhance the linguistic and mathematical abilities. In fact, MOLHEM has a variety of interactive teaching tools including stories, music, videos, and others. Moreover, the chatbot allows the child to have real conversations in both Arabic or English languages with a chatbot represented by a cartoon character avatar. On the other hand, the parent will have the privileges to supervise the child's usage of the app, get regular performance and activity reports, in addition to control the sessions' length. In fact, MOLHEM was practically tested by a group of specialists and parents of autistics and the feedback we got was very promising. As a future work, we plan to create an IOS version, add new learning categories, allow shared playing for a group of users, and include artificial intelligence techniques.

Published

2024