Your search keyword '"Sayed, Ali"' showing total 4,870 results

1. Hidden Kondo lattice physics in single-orbital Hubbard models

Author

Werner, Philipp and Ghorashi, Sayed Ali Akbar

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Single-orbital Hubbard models exhibit remarkably nontrivial correlation phenomena, even on nonfrustrated bipartite lattices. Some of these, like non-Fermi-liquid metal states, or the coexistence of heavy and light quasi-particles, are reminiscent of the properties of more complex multi-orbital or Kondo-lattice systems. Here, we use basis transformations to map single-orbital models to effective multi-orbital descriptions and clarify how a ferromagnetic Kondo-lattice-like behavior emerges in prototypical models with flat bands or van Hove singularities in the density of states: the Hubbard model on the diamond chain, square-lattice, Lieb lattice and honeycomb lattice. In particular, this mapping explains the non-Fermi-liquid states and pseudo-gaps found in the correlated metal regime.

Published

2024

2. Multi-agent Off-policy Actor-Critic Reinforcement Learning for Partially Observable Environments

Author

Zhaikhan, Ainur and Sayed, Ali H.

Subjects

Computer Science - Machine Learning, Computer Science - Multiagent Systems

Abstract

This study proposes the use of a social learning method to estimate a global state within a multi-agent off-policy actor-critic algorithm for reinforcement learning (RL) operating in a partially observable environment. We assume that the network of agents operates in a fully-decentralized manner, possessing the capability to exchange variables with their immediate neighbors. The proposed design methodology is supported by an analysis demonstrating that the difference between final outcomes, obtained when the global state is fully observed versus estimated through the social learning method, is $\varepsilon$-bounded when an appropriate number of iterations of social learning updates are implemented. Unlike many existing dec-POMDP-based RL approaches, the proposed algorithm is suitable for model-free multi-agent reinforcement learning as it does not require knowledge of a transition model. Furthermore, experimental results illustrate the efficacy of the algorithm and demonstrate its superiority over the current state-of-the-art methods.

Published

2024

3. On the Trade-off between Flatness and Optimization in Distributed Learning

Author

Cao, Ying, Wu, Zhaoxian, Yuan, Kun, and Sayed, Ali H.

Subjects

Computer Science - Machine Learning

Abstract

This paper proposes a theoretical framework to evaluate and compare the performance of gradient-descent algorithms for distributed learning in relation to their behavior around local minima in nonconvex environments. Previous works have noticed that convergence toward flat local minima tend to enhance the generalization ability of learning algorithms. This work discovers two interesting results. First, it shows that decentralized learning strategies are able to escape faster away from local minimizers and favor convergence toward flatter minima relative to the centralized solution in the large-batch training regime. Second, and importantly, the ultimate classification accuracy is not solely dependent on the flatness of the local minimizer but also on how well a learning algorithm can approach that minimum. In other words, the classification accuracy is a function of both flatness and optimization performance. The paper examines the interplay between the two measures of flatness and optimization error closely. One important conclusion is that decentralized strategies of the diffusion type deliver enhanced classification accuracy because it strikes a more favorable balance between flatness and optimization performance.

Published

2024

4. Differential error feedback for communication-efficient decentralized learning

Author

Nassif, Roula, Vlaski, Stefan, Carpentiero, Marco, Matta, Vincenzo, and Sayed, Ali H.

Subjects

Computer Science - Multiagent Systems, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Signal Processing

Abstract

Communication-constrained algorithms for decentralized learning and optimization rely on local updates coupled with the exchange of compressed signals. In this context, differential quantization is an effective technique to mitigate the negative impact of compression by leveraging correlations between successive iterates. In addition, the use of error feedback, which consists of incorporating the compression error into subsequent steps, is a powerful mechanism to compensate for the bias caused by the compression. Under error feedback, performance guarantees in the literature have so far focused on algorithms employing a fusion center or a special class of contractive compressors that cannot be implemented with a finite number of bits. In this work, we propose a new decentralized communication-efficient learning approach that blends differential quantization with error feedback. The approach is specifically tailored for decentralized learning problems where agents have individual risk functions to minimize subject to subspace constraints that require the minimizers across the network to lie in low-dimensional subspaces. This constrained formulation includes consensus or single-task optimization as special cases, and allows for more general task relatedness models such as multitask smoothness and coupled optimization. We show that, under some general conditions on the compression noise, and for sufficiently small step-sizes $\mu$, the resulting communication-efficient strategy is stable both in terms of mean-square error and average bit rate: by reducing $\mu$, it is possible to keep the estimation errors small (on the order of $\mu$) without increasing indefinitely the bit rate as $\mu\rightarrow 0$. The results establish that, in the small step-size regime and with a finite number of bits, it is possible to attain the performance achievable in the absence of compression., Comment: arXiv admin note: text overlap with arXiv:2209.07821

Published

2024

5. Accelerated Stochastic Min-Max Optimization Based on Bias-corrected Momentum

Author

Cai, Haoyuan, Alghunaim, Sulaiman A., and Sayed, Ali H.

Subjects

Computer Science - Machine Learning, Mathematics - Optimization and Control

Abstract

Lower-bound analyses for nonconvex strongly-concave minimax optimization problems have shown that stochastic first-order algorithms require at least $\mathcal{O}(\varepsilon^{-4})$ oracle complexity to find an $\varepsilon$-stationary point. Some works indicate that this complexity can be improved to $\mathcal{O}(\varepsilon^{-3})$ when the loss gradient is Lipschitz continuous. The question of achieving enhanced convergence rates under distinct conditions, remains unresolved. In this work, we address this question for optimization problems that are nonconvex in the minimization variable and strongly concave or Polyak-Lojasiewicz (PL) in the maximization variable. We introduce novel bias-corrected momentum algorithms utilizing efficient Hessian-vector products. We establish convergence conditions and demonstrate a lower iteration complexity of $\mathcal{O}(\varepsilon^{-3})$ for the proposed algorithms. The effectiveness of the method is validated through applications to robust logistic regression using real-world datasets.

Published

2024

6. Causal Influence in Federated Edge Inference

Author

Kayaalp, Mert, Inan, Yunus, Koivunen, Visa, and Sayed, Ali H.

Subjects

Computer Science - Machine Learning, Computer Science - Multiagent Systems, Electrical Engineering and Systems Science - Signal Processing, Electrical Engineering and Systems Science - Systems and Control

Abstract

In this paper, we consider a setting where heterogeneous agents with connectivity are performing inference using unlabeled streaming data. Observed data are only partially informative about the target variable of interest. In order to overcome the uncertainty, agents cooperate with each other by exchanging their local inferences with and through a fusion center. To evaluate how each agent influences the overall decision, we adopt a causal framework in order to distinguish the actual influence of agents from mere correlations within the decision-making process. Various scenarios reflecting different agent participation patterns and fusion center policies are investigated. We derive expressions to quantify the causal impact of each agent on the joint decision, which could be beneficial for anticipating and addressing atypical scenarios, such as adversarial attacks or system malfunctions. We validate our theoretical results with numerical simulations and a real-world application of multi-camera crowd counting.

Published

2024

7. Charge density-waves with non-trivial orbital textures in rare earth tritellurides

Author

Alekseev, Sergey, Ghorashi, Sayed Ali Akbar, Fernandes, Rafael M., and Cano, Jennifer

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Motivated by recent experiments reporting unconventional collective modes in the charge density-wave (CDW) state of rare-earth tritellurides $R$Te$_3$, we derive from a multi-orbital microscopic model on the square net a CDW Ginzburg-Landau theory that allows for non-trivial orbital order. Our analysis reveals unconventional CDWs where order parameters with distinct orbital character coexist due to an approximate symmetry of the low-energy model, which becomes exact in the limit of nearest-neighbor-only hopping and decoupled $p_x$, $p_y$ orbitals. Because of this coexistence, the resulting CDW pattern displays an orbital texture that generally breaks additional symmetries of the lattice besides those explicitly broken by the CDW wave-vector. In particular, we find two competing phases that differ in whether they break or preserve inversion and vertical mirror symmetries. We explain the mechanisms that favor each outcome, and discuss experimental probes that can distinguish the different phases., Comment: Added references

Published

2024

8. Detection of Malicious Agents in Social Learning

Author

Shumovskaia, Valentina, Kayaalp, Mert, and Sayed, Ali H.

Subjects

Computer Science - Social and Information Networks, Computer Science - Multiagent Systems, Electrical Engineering and Systems Science - Signal Processing

Abstract

Non-Bayesian social learning is a framework for distributed hypothesis testing aimed at learning the true state of the environment. Traditionally, the agents are assumed to receive observations conditioned on the same true state, although it is also possible to examine the case of heterogeneous models across the graph. One important special case is when heterogeneity is caused by the presence of malicious agents whose goal is to move the agents toward a wrong hypothesis. In this work, we propose an algorithm that allows discovering the true state of every individual agent based on the sequence of their beliefs. In so doing, the methodology is also able to locate malicious behavior.

Published

2024

9. Soil–plant Integrative Supplementation with Humic Acid and Antioxidants Improves Growth, Fruit Quality, and Antioxidant Capacity of Cd-stressed Solanum Melongena

Author

Sayed, Ali A. S., Seoudi, Zahra, Osman, Ashraf Sh., Semida, Wael M., Rady, Mostafa M., Elkelish, Amr, and Mahmoud, Amr E. M.

Published

2024

10. Asynchronous Diffusion Learning with Agent Subsampling and Local Updates

Author

Rizk, Elsa, Yuan, Kun, and Sayed, Ali H.

Subjects

Computer Science - Machine Learning, Computer Science - Multiagent Systems

Abstract

In this work, we examine a network of agents operating asynchronously, aiming to discover an ideal global model that suits individual local datasets. Our assumption is that each agent independently chooses when to participate throughout the algorithm and the specific subset of its neighbourhood with which it will cooperate at any given moment. When an agent chooses to take part, it undergoes multiple local updates before conveying its outcomes to the sub-sampled neighbourhood. Under this setup, we prove that the resulting asynchronous diffusion strategy is stable in the mean-square error sense and provide performance guarantees specifically for the federated learning setting. We illustrate the findings with numerical simulations.

Published

2024

11. Diffusion Stochastic Optimization for Min-Max Problems

Author

Cai, Haoyuan, Alghunaim, Sulaiman A., and Sayed, Ali H.

Subjects

Computer Science - Machine Learning, Mathematics - Optimization and Control

Abstract

The optimistic gradient method is useful in addressing minimax optimization problems. Motivated by the observation that the conventional stochastic version suffers from the need for a large batch size on the order of $\mathcal{O}(\varepsilon^{-2})$ to achieve an $\varepsilon$-stationary solution, we introduce and analyze a new formulation termed Diffusion Stochastic Same-Sample Optimistic Gradient (DSS-OG). We prove its convergence and resolve the large batch issue by establishing a tighter upper bound, under the more general setting of nonconvex Polyak-Lojasiewicz (PL) risk functions. We also extend the applicability of the proposed method to the distributed scenario, where agents communicate with their neighbors via a left-stochastic protocol. To implement DSS-OG, we can query the stochastic gradient oracles in parallel with some extra memory overhead, resulting in a complexity comparable to its conventional counterpart. To demonstrate the efficacy of the proposed algorithm, we conduct tests by training generative adversarial networks.

Published

2024

12. Gate-tunable topological phases in superlattice modulated bilayer graphene

Author

Zeng, Yongxin, Wolf, Tobias M. R., Huang, Chunli, Wei, Nemin, Ghorashi, Sayed Ali Akbar, MacDonald, Allan H., and Cano, Jennifer

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Superlattice potential modulation can produce flat minibands in Bernal-stacked bilayer graphene. In this work we study how band topology and interaction-induced symmetry-broken phases in this system are controlled by tuning the displacement field and the shape and strength of the superlattice potential. We use an analytic perturbative analysis to demonstrate that topological flat bands are favored by a honeycomb-lattice-shaped potential, and numerics to show that the robustness of topological bands depends on both the displacement field strength and the periodicity of the superlattice potential. At integer fillings of the topological flat bands, the strength of the displacement field and the superlattice potential tune phase transitions between quantum anomalous Hall insulator, trivial insulator, and metallic states. We present mean-field phase diagrams in a gate voltage parameter space at filling factor $\nu=1$, and discuss the prospects of realizing quantum anomalous Hall insulators and fractional Chern insulators when the superlattice potential modulation is produced by dielectric patterning or adjacent moir\'e materials.

Published

2024

13. Social Learning in Community Structured Graphs

Author

Shumovskaia, Valentina, Kayaalp, Mert, and Sayed, Ali H.

Subjects

Computer Science - Social and Information Networks, Computer Science - Multiagent Systems, Electrical Engineering and Systems Science - Signal Processing

Abstract

Traditional social learning frameworks consider environments with a homogeneous state, where each agent receives observations conditioned on that true state of nature. In this work, we relax this assumption and study the distributed hypothesis testing problem in a heterogeneous environment, where each agent can receive observations conditioned on their own personalized state of nature (or truth). We particularly focus on community structured networks, where each community admits their own true hypothesis. This scenario is common in various contexts, such as when sensors are spatially distributed, or when individuals in a social network have differing views or opinions. We show that the adaptive social learning strategy is a preferred choice for nonstationary environments, and allows each cluster to discover its own truth.

Published

2023

14. Basic Psychological Needs and Psychological Well-being: The Mediating Role of Instagram Addiction

Author

Sharifi Fard, Sayed Ali, Griffiths, Mark D., Mohseni, Farnaz, Nabi Zadeh, Safdar, and Ali Babaei, Golnaz

Published

2024

15. Quantum geometry induced nonlinear transport in altermagnets

Author

Fang, Yuan, Cano, Jennifer, and Ghorashi, Sayed Ali Akbar

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons

Abstract

Quantum geometry plays a pivotal role in the second-order response of $\cal PT$-symmetric antiferromagnets. Here we study the nonlinear response of 2D altermagnets protected by $C_n\cal T$ symmetry and show that their leading nonlinear response is third-order. Furthermore, we show that the contributions from the quantum metric and Berry curvature enter separately: the longitudinal response for all planar altermagnets \emph{only} has a contribution from the quantum metric quadrupole (QMQ), while transverse responses in general have contributions from both the Berry curvature quadrupole (BCQ) and QMQ. We show that for the well-known example of $d$-wave altermagnets the Hall response is dominated by the BCQ. Both longitudinal and transverse responses are strongly dependent on the crystalline anisotropy. While altermagnets are strictly defined in the limit of vanishing SOC, real altermagnets exhibit weak SOC, which is essential to observe this response. Specifically, SOC gaps the spin-group protected nodal line, generating a response peak that is sharpest when SOC is weak. Two Dirac nodes also contribute a divergence to the nonlinear response, whose scaling changes as a function of SOC. Finally, we apply our results to thin films of the 3D altermagnet RuO$_2$. Our work uncovers distinct features of altermagnets in nonlinear transport, providing experimental signatures as well as a guide to disentangling the different components of their quantum geometry., Comment: 4 figures, 6+12, Supplementary materials included

Published

2023

16. Ultralong hydroxyapatite-based forward osmosis membrane for freshwater generation

Author

Gomaa, Mohamed Gamal, Abdel-Ghafar, Hamdy Maamoun, Galiano, Francesco, Russo, Francesca, Figoli, Alberto, Abdel-Aal, El-Sayed Ali, Kandil, Abdel-Hakim Taha, and Salah, Bahaa Ahmed

Published

2024

17. Evaluation of comparative effect between aluminum hydroxide gel and montanide (ISA 70) in potency and protection of locally prepared rabbit hemorrhagic disease virus 2 (RHDV2) vaccines in rabbits

Author

Doha Abd Alrahman Ahmed, Yasmin Sadiek, Mostafa Saif Eldin, Ragab S. Ibrahim, Omar Amen, and Samah El Sayed Ali Abodalal

Subjects

RHDV2, Vaccination, Montanide ISA70, Humoral immune response, Potency, Veterinary medicine, SF600-1100

Abstract

Abstract Background Rabbit hemorrhagic disease (RHD) is an acute infectious disease that damages the rabbit industry by producing significant mortality rates in young and adult rabbits. RHD is better controlled by vaccination. Objective The current study's goal was to prepare and evaluate the immuno-enhancing effect of montanide ISA70 and aluminum hydroxide (Al(OH)3) gel incorporated within the inactivated RHDV2 vaccine and assess the vaccine's protective efficacy against the homologous and heterologous local RHDV2 strains in rabbits. Methods Inactivated RHDV vaccines were prepared using Montanide ISA70 oil or Al(OH)3 gel adjuvants and submitted to sterility, safety, and potency tests. 200 rabbits were equally divided into 4 groups: G1 (control), G2 (vaccinated with gel-incorporated vaccine), G3 (vaccinated with montanide-incorporated vaccine), and G4 (vaccinated with gel- and montanide-incorporated vaccines). Individual blood samples were collected from one week to six months from all groups. The vaccine's potency was measured by the HI test and protection percentage post challenge. Results Data revealed slightly increasing HI titer means reaching the 1st peak at 4 weeks post-vaccination (7.33, 7.67, and 7.33 log2 in the 2nd, 3rd, and 4th groups, respectively), then slightly decreasing and peaked again, giving 9.33 log2 for the2nd group at 3 months post-vaccination (MPV), 10.67 log2 for 3rd the group, and 10.33 log2 for the 4th group at 5 months post-vaccination. Titer gradually decreased but remained protective. The protection rate ranged from 80–100% and 80–90% for homologous and heterologous local RHDV2 vaccines, respectively, within 3 weeks and 6 months post-challenge. The montanide oil RHDV2 vaccine induced better protection than the aluminum gel RHDV2 vaccine. Conclusion The results demonstrated evidence of cross-protection between RHDV2 strains. The oil emulsion vaccine induced higher and longer-lasting antibody titers than those obtained with the RHDV2 aluminum gel vaccine.

Published

2024

18. Exploring the Use of Metacognition in Teaching Writing: A Case Study of the First-Year Composition Instructors in the U.S

Author

Sayed Ali Reza Ahmadi

Abstract

The purpose of this study is to investigate how the US-based First-Year Composition (FYC) instructors understand and facilitate metacognition in their classes and assess students' metacognition through exploratory, mixed methods approaches. I argue that even if we understand the importance of metacognition generally for student populations, we need to understand the FYC instructors' understanding of metacognition and the metacognitive strategies they use in teaching composition. I argue that FYC composition courses are not merely about developing writing but also it is about enabling students to reflect on their writing knowledge, skills, and strategies. Thus, the dissertation examines not only the FYC instructors' understanding of metacognition but also how they meaningfully incorporate metacognitive strategies in teaching composition. As metacognitive is commonly known as thinking for or about thinking, instructors' understanding of metacognitive strategies and the ways those strategies are incorporated into teaching composition not only helps them monitor and evaluate their own teaching practices but also has direct effects on students' metacognitive development in writing. That is, metacognitive teaching of composition enables students to monitor their level of understanding and develops students' reflection on their own writing processes. Therefore, writing to learn functions as a teaching tool to develop students' self-regulated learning. The quantitative analysis of my data from the online survey revealed that there is a significant correlation between the First-Year Composition (FYC) instructors' metacognitive knowledge, skills, experiences, and assessment. This suggests that teaching the FYC based on metacognition requires an objective understanding related to various aspects of metacognition. The quantitative findings are profoundly supported by the qualitative results descended from the analysis of two-open ended questions in the online survey in conjunction with insights received from interviews and analysis of teaching artifacts. In the same vein, after the qualitative analysis of the two open-ended questions, it is revealed that FYC instructors recognize metacognition as integral to their teaching. The results show that the participants identified 11 key premises through which they apply 15 major metacognitive strategies for developing students' metacognitive awareness in composition. Similarly, the interview analysis that includes 98 salient themes confirms that FYC instructors possess all four aspects of metacognition: metacognitive knowledge (N=36), metacognitive skill (N=33), metacognitive experience (N=16), and metacognitive assessment (N=13).In addition, the analysis of teaching artifacts revealed the FYC instructors' metacognitive knowledge, skills, experience, and assessment in teaching composition through five salient themes: preassessments, the muddiest point, retrospective post-assessments, integrating reflection into students' learning goals, and reflective journals. The participants' metacognitive knowledge emerged from the integration of reflective practices into student learning objectives. Also, their metacognitive skills and experience are embodied in providing students with tools to identify confusions and assigning reflective journals. In addition, the FYC instructors' metacognitive assessment was analyzed and observed the use of preassessments and retrospective post-assessments. This dissertation greatly contributes to the field of FYC teaching in five particular ways: First, it discovers and examines 11 metacognitive strategies in teaching writing pertaining to the FYC instructors' metacognitive perceptions and 15 metacognitive strategies in teaching writing pertaining to effective metacognitive pedagogical strategies emerging from the online surveys. Second, it constructs five strategies under each metacognitive component: knowledge, skills, experience, and assessment, which are 20 strategies in general emerging from the interviews of the participants. Third, this study provides theoretical venues for infusing metacognitive strategies through teaching artifacts. In addition, it formulates pedagogical implications through constructing four metacognitive pedagogical approaches for teaching the FYC courses. Lastly, this study highlights a number of possible future directions for metacognitive research in the FYC context. [The dissertation citations contained here are published with the permission of ProQuest LLC. Further reproduction is prohibited without permission. Copies of dissertations may be obtained by Telephone (800) 1-800-521-0600. Web page: http://www.proquest.com/en-US/products/dissertations/individuals.shtml.]

Published

2024

19. Causal Influences over Social Learning Networks

Author

Kayaalp, Mert and Sayed, Ali H.

Subjects

Computer Science - Social and Information Networks, Computer Science - Machine Learning, Computer Science - Multiagent Systems, Electrical Engineering and Systems Science - Signal Processing

Abstract

This paper investigates causal influences between agents linked by a social graph and interacting over time. In particular, the work examines the dynamics of social learning models and distributed decision-making protocols, and derives expressions that reveal the causal relations between pairs of agents and explain the flow of influence over the network. The results turn out to be dependent on the graph topology and the level of information that each agent has about the inference problem they are trying to solve. Using these conclusions, the paper proposes an algorithm to rank the overall influence between agents to discover highly influential agents. It also provides a method to learn the necessary model parameters from raw observational data. The results and the proposed algorithm are illustrated by considering both synthetic data and real Twitter data., Comment: Submitted for publication

Published

2023

20. Non-Asymptotic Performance of Social Machine Learning Under Limited Data

Author

Hu, Ping, Bordignon, Virginia, Kayaalp, Mert, and Sayed, Ali H.

Subjects

Computer Science - Machine Learning, Computer Science - Multiagent Systems, Electrical Engineering and Systems Science - Signal Processing

Abstract

This paper studies the probability of error associated with the social machine learning framework, which involves an independent training phase followed by a cooperative decision-making phase over a graph. This framework addresses the problem of classifying a stream of unlabeled data in a distributed manner. In this work, we examine the classification task with limited observations during the decision-making phase, which requires a non-asymptotic performance analysis. We establish a condition for consistent training and derive an upper bound on the probability of error for classification. The results clarify the dependence on the statistical properties of the data and the combination policy used over the graph. They also establish the exponential decay of the probability of error with respect to the number of unlabeled samples.

Published

2023

21. Altermagnetic Routes to Majorana Modes in Zero Net Magnetization

Author

Ghorashi, Sayed Ali Akbar, Hughes, Taylor L., and Cano, Jennifer

Subjects

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

Abstract

We propose heterostructures that realize first and second order topological superconductivity with vanishing net magnetization by utilizing altermagnetism. Such platforms may offer a significant improvement over conventional platforms with uniform magnetization since the latter suppresses the superconducting gap. We first introduce a 1D semiconductor-superconductor structure in proximity to an altermagnet which realizes end Majorana zero modes (MZMs) with vanishing net magnetization. Additionally, a coexisting Zeeman term provides a tuning knob to distinguish topological and trivial zero modes. We then propose 2D altermagnetic platforms that can realize chiral Majorana fermions or higher order corner MZMs. Our work paves the way towards realizing Majorana boundary states with an alternative source of time-reversal breaking and zero net magnetization., Comment: Submitted to journal, 5 figures

Published

2023

22. Signature of Correlated Insulator in Electric Field Controlled Superlattice

Author

Sun, Jiacheng, Ghorashi, Sayed Ali Akbar, Watanabe, Kenji, Taniguchi, Takashi, Camino, Fernando, Cano, Jennifer, and Du, Xu

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The Bloch electron energy spectrum of a crystalline solid is determined by the underlying lattice structure at the atomic level. In a 2-dimensional (2d) crystal it is possible to impose a superlattice with nanometer-scale periodicity, allowing to tune the fundamental Bloch electron spectrum, and enabling novel physical properties which are not accessible in the original crystal. In recent years, a top-down approach for creating 2d superlattices on monolayer graphene by means of nanopatterned electric gates has been studied, which allows the formation of isolated energy bands and Hofstadter Butterfly physics in quantizing magnetic fields. Within this approach, however, evidence of electron correlations which drive many problems at the forefront of physics research remains to be uncovered. In this work we demonstrate signatures of a correlated insulator phase in Bernal-stacked bilayer graphene (BLG) modulated by a gate-defined superlattice potential, manifested as a set of resistance peaks centered at carrier densities of integer multiples of a single electron per unit cell of the superlattice potential. We associate the correlated insulator phase to the formation of flat energy bands due to the superlattice potential combined with inversion symmetry breaking. Inducing correlated electron phases with nanopatterning defined electric gates paves the way to custom-designed superlattices with arbitrary geometries and symmetries for studying band structure engineering and strongly correlated electrons in 2d materials.

Published

2023

23. Evaluation of comparative effect between aluminum hydroxide gel and montanide (ISA 70) in potency and protection of locally prepared rabbit hemorrhagic disease virus 2 (RHDV2) vaccines in rabbits

Author

Ahmed, Doha Abd Alrahman, Sadiek, Yasmin, Eldin, Mostafa Saif, Ibrahim, Ragab S., Amen, Omar, and Abodalal, Samah El Sayed Ali

Published

2024

24. New vaccination approach using formalin-killed Streptococcus pyogenes vaccine on the liver of Oreochromis niloticus fingerlings

Author

Nasr-Eldahan, Sameh, Attia Shreadah, Mohamed, Maher, Adham M., El-Sayed Ali, Tamer, and Nabil-Adam, Asmaa

Published

2024

25. Diagnostic dilemma of papilledema and pseudopapilledema

Author

El-Gendy, Raghda Shawky, El-Hamid, Ahmad Shehata Abd, Galhom, Ayman El-Sayed Ali, Hassan, Nihal Adel, and Ghoneim, Ehab Mahmoud

Published

2024

26. Alleviating chromium-induced oxidative stress in Vigna radiata through exogenous trehalose application: insights into growth, photosynthetic efficiency, mineral nutrient uptake, and reactive oxygen species scavenging enzyme activity enhancement

Author

Elkelish, Amr, Alhudhaibi, Abdulrahman M., Hossain, ABM Sharif, Haouala, Faouzi, Alharbi, Basmah M., El-Banna, Mostafa F., Rizk, Amira, Badji, Arfang, AlJwaizea, Nada Ibrahim, and Sayed, Ali A. S.

Published

2024

27. Big data resolving using Apache Spark for load forecasting and demand response in smart grid: a case study of Low Carbon London Project

Author

Ali El-Sayed Ali, Hussien, Alham, M. H., and Ibrahim, Doaa Khalil

Published

2024

28. Efficient Detection of Droxidopa in the Presence of Carbidopa Using a Modified Screen-Printed Graphite Electrode

Author

Ahmadi, Sayed Ali and Tajik, Somayeh

Published

2024

29. Graph Exploration for Effective Multi-agent Q-Learning

Author

Zhaikhan, Ainur and Sayed, Ali H.

Subjects

Computer Science - Machine Learning, Computer Science - Multiagent Systems

Abstract

This paper proposes an exploration technique for multi-agent reinforcement learning (MARL) with graph-based communication among agents. We assume the individual rewards received by the agents are independent of the actions by the other agents, while their policies are coupled. In the proposed framework, neighbouring agents collaborate to estimate the uncertainty about the state-action space in order to execute more efficient explorative behaviour. Different from existing works, the proposed algorithm does not require counting mechanisms and can be applied to continuous-state environments without requiring complex conversion techniques. Moreover, the proposed scheme allows agents to communicate in a fully decentralized manner with minimal information exchange. And for continuous-state scenarios, each agent needs to exchange only a single parameter vector. The performance of the algorithm is verified with theoretical results for discrete-state scenarios and with experiments for continuous ones.

Published

2023

30. Compressed Regression over Adaptive Networks

Author

Carpentiero, Marco, Matta, Vincenzo, and Sayed, Ali H.

Subjects

Computer Science - Machine Learning, Computer Science - Multiagent Systems, Electrical Engineering and Systems Science - Signal Processing, Mathematics - Optimization and Control, Statistics - Machine Learning

Abstract

In this work we derive the performance achievable by a network of distributed agents that solve, adaptively and in the presence of communication constraints, a regression problem. Agents employ the recently proposed ACTC (adapt-compress-then-combine) diffusion strategy, where the signals exchanged locally by neighboring agents are encoded with randomized differential compression operators. We provide a detailed characterization of the mean-square estimation error, which is shown to comprise a term related to the error that agents would achieve without communication constraints, plus a term arising from compression. The analysis reveals quantitative relationships between the compression loss and fundamental attributes of the distributed regression problem, in particular, the stochastic approximation error caused by the gradient noise and the network topology (through the Perron eigenvector). We show that knowledge of such relationships is critical to allocate optimally the communication resources across the agents, taking into account their individual attributes, such as the quality of their data or their degree of centrality in the network topology. We devise an optimized allocation strategy where the parameters necessary for the optimization can be learned online by the agents. Illustrative examples show that a significant performance improvement, as compared to a blind (i.e., uniform) resource allocation, can be achieved by optimizing the allocation by means of the provided mean-square-error formulas., Comment: This work has been submitted to the IEEE for possible publication

Published

2023

31. Decentralized Adversarial Training over Graphs

Author

Cao, Ying, Rizk, Elsa, Vlaski, Stefan, and Sayed, Ali H.

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence

Abstract

The vulnerability of machine learning models to adversarial attacks has been attracting considerable attention in recent years. Most existing studies focus on the behavior of stand-alone single-agent learners. In comparison, this work studies adversarial training over graphs, where individual agents are subjected to perturbations of varied strength levels across space. It is expected that interactions by linked agents, and the heterogeneity of the attack models that are possible over the graph, can help enhance robustness in view of the coordination power of the group. Using a min-max formulation of diffusion learning, we develop a decentralized adversarial training framework for multi-agent systems. We analyze the convergence properties of the proposed scheme for both convex and non-convex environments, and illustrate the enhanced robustness to adversarial attacks., Comment: arXiv admin note: text overlap with arXiv:2303.01936

Published

2023

32. On the Fusion Strategies for Federated Decision Making

Author

Kayaalp, Mert, Inan, Yunus, Koivunen, Visa, Telatar, Emre, and Sayed, Ali H.

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Multiagent Systems, Computer Science - Social and Information Networks, Electrical Engineering and Systems Science - Signal Processing

Abstract

We consider the problem of information aggregation in federated decision making, where a group of agents collaborate to infer the underlying state of nature without sharing their private data with the central processor or each other. We analyze the non-Bayesian social learning strategy in which agents incorporate their individual observations into their opinions (i.e., soft-decisions) with Bayes rule, and the central processor aggregates these opinions by arithmetic or geometric averaging. Building on our previous work, we establish that both pooling strategies result in asymptotic normality characterization of the system, which, for instance, can be utilized to derive approximate expressions for the error probability. We verify the theoretical findings with simulations and compare both strategies., Comment: Accepted to IEEE Statistical Signal Processing (SSP) Workshop 2023

Published

2023

33. Multi-Agent Adversarial Training Using Diffusion Learning

Author

Cao, Ying, Rizk, Elsa, Vlaski, Stefan, and Sayed, Ali H.

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Multiagent Systems

Abstract

This work focuses on adversarial learning over graphs. We propose a general adversarial training framework for multi-agent systems using diffusion learning. We analyze the convergence properties of the proposed scheme for convex optimization problems, and illustrate its enhanced robustness to adversarial attacks.

Published

2023

34. Unilateral Papilledema with Bilateral Optic Nerve Sheath Distension: A Case Report

Author

Raghda Shawky El-Gendy, Ahmad Shehata Abd El-Hamid, Ayman El-Sayed Ali Galhom, Nihal Adel Hassan, and Ehab Mahmoud Ghoneim

Subjects

idiopathic intracranial hypertension, optic nerve sheath diameter, unilateral papilledema, Medicine, Ophthalmology, RE1-994

Abstract

Bilateral edematous optic disc swelling from papilledema is caused by elevated intracranial pressure (ICP). Idiopathic intracranial hypertension (IIH), a clinical syndrome with elevated ICP of unclear etiology, is a frequent cause of this condition. IIH typically affects obese middle-aged females. Papilledema usually has a fairly symmetrical bilateral pattern. Unilateral papilledema is a rare disorder that must be detected early to avoid optic nerve damage. However, the etiology of unilateral papilledema remains unclear. Based on bilateral optic nerve sheath diameter measurements, we aimed to find an explanation for the unilaterality in this rare case.

Published

2024

35. New vaccination approach using formalin-killed Streptococcus pyogenes vaccine on the liver of Oreochromis niloticus fingerlings

Author

Sameh Nasr-Eldahan, Mohamed Attia Shreadah, Adham M. Maher, Tamer El-Sayed Ali, and Asmaa Nabil-Adam

Subjects

Vaccine, Liver, Streptococcus pyogenes, Nile tilapia, Fingerlings, Medicine, Science

Abstract

Abstract Newly synthesized vaccines prepared from formalin-killed bacteria Streptococcus pyogenes were investigated in the current study to evaluate the effectiveness of the newly synthesized vaccine as well as their safety by injected intraperitoneal. The study involved several steps 1st step is the preparation of the vaccine followed by the 2nd step: Evaluate the effectiveness and vaccine safety against pathogenic S. pyogenes through 4 different groups including control (Group I). Group II (Bacterial, infected group), Group III (Vaccine), and the Last group was the challenged group after the vaccination (Vacc + Bac). Different Immunological and biochemical parameters were measured in addition to hematological and histopathological examinations. For example, oxidative/antioxidants, inflammatory biomarkers, fragmentation and cell damage, and finally the histopathological study. The current study showed an increase in all oxidative, inflammatory, and cell damage (DNA fragmentation assays), additionally markedly elevation in histopathological cell damage in the infected group (Group II) compared with the control group. The vaccine and challenged after vaccination group (vaccine + Bacteria), showed great improvement in oxidative biomarkers (LPO) and an increase in antioxidants biomarkers (GSH, SOD, GST, DPPH, ABTS, GR and GPx), Also the inflammation and histopathological examination. The newly synthesized vaccine improved the resistance of Oreochromis niloticus and can be used as a preventive therapy agent for pathogenic bacteria S. pyogenes.

Published

2024

36. Development and Validation of Digital Transformation Development Tool in Libraries of Medical Sciences Universities

Author

Hooshang Ali Asghari Jeloudar, Sayed Ali Asghar Razavi, and Safiyeh Tahmasebi Limooni

Subjects

digital transformation, maturity of digital transformation, libraries, university of medical sciences, iran, Medicine, Medicine (General), R5-920

Abstract

Background and purpose: Researches show that limited models have been designed to measure the maturity of digital transformation in libraries, however, no valid and reliable tool has been provided to measure the maturity of digital transformation in academic libraries so far. Identifying the factors affecting the maturity of digital transformation and managing its correct use in the libraries of medical sciences universities is of particular importance in improving the efficiency and effectiveness and as a result, the success and growth of the libraries. Therefore, the purpose of the current research is to compile and validate a suitable tool to determine the factors affecting the maturity of digital transformation in the libraries of medical sciences universities. Materials and methods: The type of qualitative (exploratory) study was based on the plan of developing the tool, which was carried out in two phases: in the first phase, to collect information related to the identification of factors affecting the maturity of digital transformation, the meta-composite method was used under “ Sandelowski and Barroso's model. Then, in the second phase of the Delphi method, the factors were localized and adapted to the topic. The intended community in the met composite section was all related sources from reliable databases, with 82 sources. After extracting, screening, and considering the input and output criteria of the researchers, 41 Persian and Latin sources were selected. The statistical population in the Delphi phase included 15 professors and experts in the field of digital maturity and digital technologies in universities of medical sciences who were selected in a non-probable and purposeful way according to the criteria for entering the research (relevance of work experience and organizational position and field of study of the experts to the subject research, conflict with the discussed issue, having at least 5 years of work experience) as samples. The measurement tool was a structured questionnaire of 69 questions created by the researcher, which was compiled by reviewing the previous findings and then sent to the experts in two stages with the help of the fuzzy Delphi technique, and finally 61 final questions were obtained. Results: In this research, based on the findings of the meta-combination section, 69 primary categories for the maturity of digital transformation were identified first by reviewing the literature and backgrounds. Then, in the next step, a relationship was established between these categories, and they were categorized into 13 items. Then, the identified main categories were divided into 2 general categories (internal and external factors). Then, for quality control, the validity and internal reliability of check methods were used. The size of the Kappa coefficient (0.78) in this research indicated the good internal reliability of the obtained results. Finally, for validation, the developed tool was provided to the members of the Delphi panel, which had 15 members. After two stages of fuzzy Delphi and after making corrections and removing irrelevant items (8 items) and the agreement score of experts in the rest of the factors (61 items), it was observed that the disagreement of experts in the first and second steps did not have a significant difference and the agreement score of experts in all commons was more than 70%; therefore, the survey was stopped in the second stage, and all factors were confirmed. The results of the fuzzy Delphi analysis led to the confirmation of 61 items of the digital transformation maturity questionnaire in the libraries of medical sciences universities in 2 main components (inter-organizational factors and extra-organizational factors) and 13 subcomponents. Conclusion: The developed tool provides researchers with criteria for determining the state of maturity for digital transformation in the libraries of medical sciences universities. The discovered factors include 10 internal organizational factors (digital culture development, digital infrastructure development factor, new technology infrastructure development factor, human resources development factor, management resource development factor, digital strategy development factor, digital support factor, organizational rules and regulations factor, financial resources factor and experience development factor (digital users) and 3 components of extra-organizational factors (collaboration and support of upstream and academic institutions, the factor of development of national culture in the field of digital transformation and the factor of national laws and regulations) which can be used as a suitable tool to measure the maturity of digital transformation in libraries.

Published

2024

37. Policy Evaluation in Decentralized POMDPs with Belief Sharing

Author

Kayaalp, Mert, Ghadieh, Fatima, and Sayed, Ali H.

Subjects

Computer Science - Machine Learning, Computer Science - Multiagent Systems, Electrical Engineering and Systems Science - Signal Processing, Electrical Engineering and Systems Science - Systems and Control

Abstract

Most works on multi-agent reinforcement learning focus on scenarios where the state of the environment is fully observable. In this work, we consider a cooperative policy evaluation task in which agents are not assumed to observe the environment state directly. Instead, agents can only have access to noisy observations and to belief vectors. It is well-known that finding global posterior distributions under multi-agent settings is generally NP-hard. As a remedy, we propose a fully decentralized belief forming strategy that relies on individual updates and on localized interactions over a communication network. In addition to the exchange of the beliefs, agents exploit the communication network by exchanging value function parameter estimates as well. We analytically show that the proposed strategy allows information to diffuse over the network, which in turn allows the agents' parameters to have a bounded difference with a centralized baseline. A multi-sensor target tracking application is considered in the simulations., Comment: Accepted for publication in IEEE Open Journal of Control Systems, Special Section: Intersection of Machine Learning with Control

Published

2023

38. Memory-Aware Social Learning under Partial Information Sharing

Author

Cirillo, Michele, Bordignon, Virginia, Matta, Vincenzo, and Sayed, Ali H.

Subjects

Electrical Engineering and Systems Science - Signal Processing

Abstract

This work examines a social learning problem, where dispersed agents connected through a network topology interact locally to form their opinions (beliefs) as regards certain hypotheses of interest. These opinions evolve over time, since the agents collect observations from the environment, and update their current beliefs by accounting for: their past beliefs, the innovation contained in the new data, and the beliefs received from the neighbors. The distinguishing feature of the present work is that agents are constrained to share opinions regarding only a single hypothesis. We devise a novel learning strategy where each agent forms a valid belief by completing the partial beliefs received from its neighbors. This completion is performed by exploiting the knowledge accumulated in the past beliefs, thanks to a principled memory-aware rule inspired by a Bayesian criterion. The analysis allows us to characterize the role of memory in social learning under partial information sharing, revealing novel and nontrivial learning dynamics. Surprisingly, we establish that the standard classification rule based on selecting the maximum belief is not optimal under partial information sharing, while there exists a consistent threshold-based decision rule that allows each agent to classify correctly the hypothesis of interest. We also show that the proposed strategy outperforms previously considered schemes, highlighting that the introduction of memory in the social learning algorithm is critical to overcome the limitations arising from sharing partial information.

Published

2023

39. Enforcing Privacy in Distributed Learning with Performance Guarantees

Author

Rizk, Elsa, Vlaski, Stefan, and Sayed, Ali H.

Subjects

Computer Science - Machine Learning, Computer Science - Cryptography and Security, Computer Science - Multiagent Systems

Abstract

We study the privatization of distributed learning and optimization strategies. We focus on differential privacy schemes and study their effect on performance. We show that the popular additive random perturbation scheme degrades performance because it is not well-tuned to the graph structure. For this reason, we exploit two alternative graph-homomorphic constructions and show that they improve performance while guaranteeing privacy. Moreover, contrary to most earlier studies, the gradient of the risks is not assumed to be bounded (a condition that rarely holds in practice; e.g., quadratic risk). We avoid this condition and still devise a differentially private scheme with high probability. We examine optimization and learning scenarios and illustrate the theoretical findings through simulations.

Published

2023

40. Multilayer graphene with a superlattice potential

Author

Ghorashi, Sayed Ali Akbar and Cano, Jennifer

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

Bernal stacked bilayer graphene subject to a superlattice potential can realize topological and stacked flat bands [1]. In the present work, we extend the study of a superlattice potential on graphene heterostructures to trilayer and quadrilayer graphene. Comparing Bernal- and chirally-stacked multilayers reveals that the latter are more suitable for realizing stacks of many flat bands. On the other hand, Bernal-stacked graphene heterostructures can realize topological flat bands. Imposing two simultaneous superlattice potentials enhances the viability of both regimes., Comment: 10 Figures

Published

2022

41. Distributed Bayesian Learning of Dynamic States

Author

Kayaalp, Mert, Bordignon, Virginia, Vlaski, Stefan, Matta, Vincenzo, and Sayed, Ali H.

Subjects

Electrical Engineering and Systems Science - Signal Processing, Computer Science - Machine Learning, Computer Science - Multiagent Systems, Computer Science - Social and Information Networks, Electrical Engineering and Systems Science - Systems and Control

Abstract

This work studies networked agents cooperating to track a dynamical state of nature under partial information. The proposed algorithm is a distributed Bayesian filtering algorithm for finite-state hidden Markov models (HMMs). It can be used for sequential state estimation tasks, as well as for modeling opinion formation over social networks under dynamic environments. We show that the disagreement with the optimal centralized solution is asymptotically bounded for the class of geometrically ergodic state transition models, which includes rapidly changing models. We also derive recursions for calculating the probability of error and establish convergence under Gaussian observation models. Simulations are provided to illustrate the theory and to compare against alternative approaches., Comment: Submitted for publication

Published

2022

42. Impact of microRNAs on cardiovascular diseases and aging

Author

Md Sayed Ali Sheikh and Umme Salma

Subjects

Medicine (General), R5-920

Abstract

Cardiovascular disease (CVD) is the leading cause of morbidity and mortality for both men and women among all ethnicities worldwide. Although significant improvements in the management of CVD occurred in the 20th century, non-invasive, universal, early diagnostic biomarkers and newer therapeutic drugs are needed for clinical treatment by physicians. MicroRNAs (miRNAs) are a class of endogenous, non-coding, single-stranded, small RNA molecules that are critically controlled by all human biological processes. Moreover, dysregulated miRNA expression is directly involved in various CVDs, including stable coronary artery disease and acute coronary syndrome. Several miRNAs that are enriched in the plasma of CVD patients have potential as clinical biomarkers, and overexpression or inhibition of specific miRNAs has novel therapeutic significance in the management of CVD. Aging is a multifactorial physiological process that gradually deteriorates tissue and organ function and is considered a non-modifiable major risk factor for CVDs. Recently, several studies established that various miRNAs essentially regulate aging and aging-related disease processes. This narrative review briefly discusses the recently updated molecular involvement of miRNAs in CVDs, their possible diagnostic, prognostic, and therapeutic value, and their relationship to the aging process.

Published

2024

43. A Theory on the Nonlinear Relationship of Sexual Behavior and Aggression

Author

Sayed Ali Marashi

Subjects

Aggression, Medial Preoptic Area, Positive Feedback, Sexual Behavior, Testosterone, Psychiatry, RC435-571

Abstract

Objectives: Claims have been made that more sexual liberalism in society than what generally existed in human history is necessary to promote societal tranquility and reduce violence. This research was conducted to investigate the real relationship between sexual behavior and aggression based on scientific data especially from the perspective of physiological psychology. The present study investigates the hypothesis that unrestrained sexual behavior leads to an escalation of behavior, rather than satiation, and aggression rather than calmness. Methods: This study employed a theoretical review methodology and drew upon previous findings from neuropsychology, psychophysiology, laboratory research, and field studies. Results: The study's results indicate that uncontrolled sexual behavior can lead to an increase in Sexual desire instead of sexual satisfaction. This increase may be due to a positive feedback loop between the nervous and hormonal systems, specifically the Medial Preoptic Area (MPA) and testosterone. Experimental findings suggest that this physiological process may result in aggressive behavior. Conclusion: This paper establishes that the intensification of sexual behaviors leads to increased violence and aggression in society, ultimately elevating levels of public insecurity. Therefore, limiting sexual behavior within the framework of the relationship of married couples may serve as a moderating factor for this phenomenon.

Published

2024

44. Adsorption of Nefazodone on single-wall carbon nanotube as an antidepressant drug delivery: A DFT study

Author

Faegheh Yahyazadeh, Dadkhoda Ghazanfari, Sayed Ali Ahmadi, and Mohammad Reza Akhgar

Subjects

DFT, Nefazodone, Single-wall carbon nanotube, Antidepressant drug, Adsorption, Chemistry, QD1-999

Abstract

Nefazodone, a derivative of triazolones, belongs to a group of heterocyclic aromatic compounds. It is used as an antidepressant for treating depression, including major depressive disorder. Unlike other antidepressant groups such as selective serotonin reuptake inhibitors, tricyclic antidepressants, or monoamine oxidase inhibitors, Nefazodone does not share chemical similarities. Recent research has focused on studying the reactivity and chemical structure influenced by Nefazodone's medicinal features in the drug's adsorption process on single-wall Carbon Nanotube (CNT) as an adsorbent in the gas phase using density functional theory (DFT), Becke, 3-parameter, Lee–Yang–Parr (B3LYP) 6-311+G(d,p) basis set (DFT/B3LYP/6-311+G(d,p)). The effect of electronegative atoms and phenyl groups on the adsorption of Nefazodone on CNT has been studied by calculating the adsorption energy for all active sites. On the other hand, thermodynamic values, such as Gibbs free energy (−4873.09 kJ), Enthalpy (−4872.83 kJ), and Entropy (903.09 J/mol.kelvin), as well as thermodynamic capacity (497.45 J/mol.kelvin), were calculated to show the reactivity of Nefazodone. The stability and reactivity were examined through the energies of the highest occupied molecular orbital (HOMO) (−5.53 eV) and lowest unoccupied molecular orbital (LUMO) (−0.58 eV) of Nefazodone, highlighting ten regions with chemical activity, all of which are thermodynamically stable. Some Electronic parameters such as chemical potential (µ), electronegativity (χ), softness (σ), hardness (η), and electrophilicity index (ω) were calculated. The comparison of chemical potential values between Nefazodone(−3.05 eV) and the more stable complex (−3.81 eV) illustrates the more reactivity for the complex. This suggests that Nefazodone can be transferred to biological systems through such an adsorption mechanism.

Published

2024

45. Precision Agriculture as a Coping Strategy for Climatic Challenges

Author

Ahmad, Maqsood, Butt, Zahid Ali, Sani, Imran Ali, Farhan, Muhammad, Raza, Sayed Ali, Ahmed, Shahjahan Shabbir, Ahmed, Nazeer, Behnassi, Mohamed, editor, Al-Shaikh, Abdulmalek A., editor, Hussain Qureshi, Riaz, editor, Barjees Baig, Mirza, editor, and Faraj, Turki Khalufa A., editor

Published

2024

46. Environmental and Agricultural Applications of Sensors

Author

Ammar, Esraa E., Sayed, Ali A. S., Rabee, Maisara M., Keshta, Amr E., Daher, Malek G., Ali, Gomaa A. M., Ali, Gomaa A. M., editor, Chong, Kwok Feng, editor, and Makhlouf, Abdel Salam H., editor

Published

2024

47. Predicting the Porosity of SCM-Blended Concrete Composites Using Ensemble Machine Learning Models

Author

Ansari, Saad Shamim, Farid, Sayed Ali, Abdullah, Syed Ahmad, Abuzar, Mohammad, Ahmad, Mohammad Swaleh, Ibrahim, Syed Muhammad, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Menon, N. Vinod Chandra, editor, Kolathayar, Sreevalsa, editor, Rodrigues, Hugo, editor, and Sreekeshava, K. S., editor

Published

2024

48. Discovering Influencers in Opinion Formation over Social Graphs

Author

Shumovskaia, Valentina, Kayaalp, Mert, Cemri, Mert, and Sayed, Ali H.

Subjects

Computer Science - Social and Information Networks, Computer Science - Multiagent Systems, Electrical Engineering and Systems Science - Signal Processing

Abstract

The adaptive social learning paradigm helps model how networked agents are able to form opinions on a state of nature and track its drifts in a changing environment. In this framework, the agents repeatedly update their beliefs based on private observations and exchange the beliefs with their neighbors. In this work, it is shown how the sequence of publicly exchanged beliefs over time allows users to discover rich information about the underlying network topology and about the flow of information over the graph. In particular, it is shown that it is possible (i) to identify the influence of each individual agent to the objective of truth learning, (ii) to discover how well-informed each agent is, (iii) to quantify the pairwise influences between agents, and (iv) to learn the underlying network topology. The algorithm derived herein is also able to work under non-stationary environments where either the true state of nature or the graph topology are allowed to drift over time. We apply the proposed algorithm to different subnetworks of Twitter users, and identify the most influential and central agents by using their public tweets (posts).

Published

2022

49. Higher-Order Nodal Hinge States in Doped Superconducting Topological Insulator

Author

Ghorashi, Sayed Ali Akbar, Cano, Jennifer, Rossi, Enrico, and Hughes, Taylor L.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

Doped strong topological insulators are one of the most promising candidates to realize a fully gapped three-dimensional topological superconductor (TSC). In this letter, we revisit this system and reveal a possibility for higher-order topology which was previously missed. We find that over a finite-range of doping, the Fu-Berg superconducting pairing can give rise to both Majorana surface states, and nodal hinge states. Interestingly, we observe the coexistence of surface and hinge modes in the superconducting state only when there are both bulk and surface Fermi-surfaces in the normal state. Also, we find that the hinge modes can appear for normal states consisting of doped strong or weak topological insulators. In summary, this work may allow for the discovery of superconducting hinge modes in a well explored class of materials, i.e., doped strong or weak topological insulators., Comment: 4 figures

Published

2022

50. Local Graph-homomorphic Processing for Privatized Distributed Systems

Author

Rizk, Elsa, Vlaski, Stefan, and Sayed, Ali H.

Subjects

Computer Science - Cryptography and Security, Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Machine Learning

Abstract

We study the generation of dependent random numbers in a distributed fashion in order to enable privatized distributed learning by networked agents. We propose a method that we refer to as local graph-homomorphic processing; it relies on the construction of particular noises over the edges to ensure a certain level of differential privacy. We show that the added noise does not affect the performance of the learned model. This is a significant improvement to previous works on differential privacy for distributed algorithms, where the noise was added in a less structured manner without respecting the graph topology and has often led to performance deterioration. We illustrate the theoretical results by considering a linear regression problem over a network of agents.

Published

2022