Your search keyword '"directed acyclic graph"' showing total 7,170 results

1. LATA: learning automata-based task assignment on heterogeneous cloud computing platform.

Author

Gheisari, Soulmaz and ShokrZadeh, Hamid

Subjects

*WIDE area networks, *VIRTUAL machine systems, *DIRECTED acyclic graphs, *CLOUD computing, *HETEROGENEOUS computing

Abstract

A cloud computing environment is a distributed system where idle resources are accessible across a wide area network, such as the Internet. Due to the diverse specifications of these resources, computational clouds exhibit high heterogeneity. Task scheduling, the process of dispatching cloud applications onto processing nodes, becomes a critical challenge in such environments. Ensuring high utilization in this heterogeneous environment entails identifying suitable machines or virtual machines capable of efficiently executing jobs, constituting a multi-objective optimization problem. This paper proposes a dynamic Learning Automata-based Task Assignment algorithm, named LATA, to address this challenge. In the algorithm, each application is represented as a Directed Acyclic Graph, with tasks as nodes and data dependencies as edges. Initially, tasks are grouped based on their data dependencies to consolidate independent tasks into one group. Subsequently, a variable-structure learning automaton is assigned to each group of tasks to identify appropriate task-machine combinations. The primary objectives of LATA include minimizing makespan and energy consumption by facilitating efficient task placement to achieve load balance and maximize resource utilization. Additionally, an enhancement is proposed, involving the use of a different grouping policy prior to task assignment to further improve performance. Computer simulation results demonstrate the superior performance of the proposed algorithms in highly heterogeneous environments compared to state-of-the-art algorithms. Notably, total execution time and energy consumption decrease by up to 50% and 37%, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

2. Mapping the Pathways Between Posttraumatic Stress Disorder, Depression, and Alcohol and Cannabis Use: A Network Analysis.

Author

Williamson, Rachel E., Macia, Kathryn S., Burton, Joshua, and Wickham, Robert E.

Subjects

*SUBSTANCE abuse risk factors, *COMPLICATIONS of alcoholism, *POST-traumatic stress disorder, *RISK assessment, *RISK-taking behavior, *QUESTIONNAIRES, *PROBABILITY theory, *CANNABIS (Genus), *MENTAL depression

Abstract

Objective: The present study examines the network structure and, using Bayesian network analysis, estimates the directional pathways among symptoms of posttraumatic stress disorder (PTSD), major depressive disorder (MDD), and levels of alcohol and cannabis use. Method: A sample of 1471 adults in the United States, who reported at least one potentially traumatic event, completed the PTSD Checklist (PCL-5), Patient Health Questionnaire (PHQ-9), and the Alcohol/Cannabis Use Disorders Identification Test (AUDIT/CUDIT). A regularized partial correlation network provided estimates of symptoms clusters and connections. Directional pathways within the network were then estimated using a directed acyclic graph (DAG). Results: Symptoms clustered in theoretically consistent ways. Risky behavior demonstrated the highest strength centrality and bridge strength. Neither alcohol nor cannabis use appeared central in the network, and DAG results suggested that MDD and PTSD symptoms are more likely to lead to substance use than the other way around. Conclusions: Results suggest that cannabis use is largely connected to alcohol use. Consistent with prior research, risky behavior appeared to be the primary bridge between substance use and PTSD. The direction of associations between substance use and psychological symptoms requires further attention. [ABSTRACT FROM AUTHOR]

Published

2024

3. Several properties of antiadjacency matrices of directed graphs.

Author

Sugeng, Kiki A., Firmansah, Fery, Wildan, Handari, Bevina D., Hariadi, Nora, and Imran, Muhammad

Abstract

Let G be a directed graph with o r d e r n. The adjacency matrix of the directed graph G is a matrix A = [ a i j ] of order n × n , such that for i ≠ j , if there is an arc from i to j , then a i j = 1 , otherwise a i j = 0. Matrix B = J − A is called the antiadjacency matrix of the directed graph G , where J is the matrix of order n × n with all of those entries are one. In this paper, we provided several properties of the adjacency matrices of directed graphs, such as a determinant of a directed graphs, the characteristic polynomial of acyclic directed graphs, and regular directed graphs. Moreover, we discuss antiadjacency energy of acyclic directed graphs and give some examples of antiadjacency energy for several families of graphs. [ABSTRACT FROM AUTHOR]

Published

2024

4. A novel bayesian network-based ensemble classifier chains for multi-label classification.

Author

Wang, Zhenwu, Zhang, Shiqi, Chen, Yang, Han, Mengjie, Zhou, Yang, and Wan, Benting

Subjects

DIRECTED acyclic graphs, BAYESIAN analysis, CLASSIFICATION, ALGORITHMS

Abstract

In this paper, we address the challenges of random label ordering and limited interpretability associated with Ensemble Classifier Chains (ECC) by introducing a novel ECC method, ECC-MOO&BN, which integrates Bayesian Networks (BN) and Multi-Objective Optimization (MOO). This approach is designed to concurrently overcome these ECC limitations. The ECC-MOO&BN method focuses on extracting diverse and interpretable label orderings for the ECC classifier. We initiated this process by employing mutual information to investigate label relationships and establish the initial structures of the BN. Subsequently, an enhanced NSGA-II algorithm was applied to develop a series of Directed Acyclic Graphs (DAGs) that effectively balance the likelihood and complexity of the BN structure. The rationale behind using the MOO method lies in its ability to optimize both complexity and likelihood simultaneously, which not only diversifies DAG generation but also helps avoid overfitting during the production of label orderings. The DAGs, once sorted topologically, yielded a series of label orderings, which were then seamlessly integrated into the ECC framework for addressing multi-label classification (MLC) problems. Experimental results show that when benchmarked against eleven leading-edge MLC algorithms, our proposed method achieves the highest average ranking across seven evaluation criteria on nine out of thirteen MLC datasets. The results of the Friedman test and Nemenyi test also indicate that the performance of the proposed method has a significant advantage compared to other algorithms. [ABSTRACT FROM AUTHOR]

Published

2024

5. How to develop causal directed acyclic graphs for observational health research: a scoping review.

Author

Poppe, Louise, Steen, Johan, Loh, Wen Wei, Crombez, Geert, De Block, Fien, Jacobs, Noortje, Tennant, Peter W. G., Cauwenberg, Jelle Van, and Paepe, Annick L. De

Subjects

*DIRECTED acyclic graphs, *CLINICAL health psychology, *CAUSAL inference, *CONFOUNDING variables, *STATISTICS

Abstract

Causal directed acyclic graphs (DAGs) serve as intuitive tools to visually represent causal relationships between variables. While they find widespread use in guiding study design, data collection and statistical analysis, their adoption remains relatively rare in the domain of psychology. In this paper we describe the relevance of DAGs for health psychology, review guidelines for developing causal DAGs, and offer recommendations for their development. A scoping review searching for papers and resources describing guidelines for DAG development was conducted. Information extracted from the eligible papers and resources (n = 11) was categorised, and results were used to formulate recommendations. Most records focused on DAG development for data analysis, with similar steps outlined. However, we found notable variations on how to implement confounding variables (i.e., sequential inclusion versus exclusion). Also, how domain knowledge should be integrated in the development process was scarcely addressed. Only one paper described how to perform a literature search for DAG development. Key recommendations for causal DAG development are provided and discussed using an illustrative example. [ABSTRACT FROM AUTHOR]

Published

2024

6. Joint structure learning and causal effect estimation for categorical graphical models.

Author

Castelletti, Federico, Consonni, Guido, and Della Vedova, Marco L

Subjects

*MARKOV chain Monte Carlo, *DIRECTED acyclic graphs, *CAUSAL inference, *BAYESIAN field theory, *UNDERGRADUATES

Abstract

The scope of this paper is a multivariate setting involving categorical variables. Following an external manipulation of one variable, the goal is to evaluate the causal effect on an outcome of interest. A typical scenario involves a system of variables representing lifestyle, physical and mental features, symptoms, and risk factors, with the outcome being the presence or absence of a disease. These variables are interconnected in complex ways, allowing the effect of an intervention to propagate through multiple paths. A distinctive feature of our approach is the estimation of causal effects while accounting for uncertainty in both the dependence structure, which we represent through a directed acyclic graph (DAG), and the DAG-model parameters. Specifically, we propose a Markov chain Monte Carlo algorithm that targets the joint posterior over DAGs and parameters, based on an efficient reversible-jump proposal scheme. We validate our method through extensive simulation studies and demonstrate that it outperforms current state-of-the-art procedures in terms of estimation accuracy. Finally, we apply our methodology to analyze a dataset on depression and anxiety in undergraduate students. [ABSTRACT FROM AUTHOR]

Published

2024

7. Understanding the Emergence of Comorbidity between Problematic Online Gaming and Gambling: A Network Analysis Approach.

Author

Błoch, Marta and Misiak, Błażej

Subjects

*INTERNET gambling, *COMPULSIVE gambling, *GAMBLING, *COMPULSIVE behavior, *SOCIAL impact

Abstract

Background/Objectives: Problematic online gaming and gambling tend to co-occur. The exact mechanisms underlying this phenomenon and the potential effects of gender differences remain unknown. This study aimed to identify the early clustering patterns of problematic online gaming and gambling in a community sample of young adults without a lifetime history of psychiatric treatment. Methods: Data were collected through an online survey and analyzed using partial correlations and Bayesian networks. Results: Altogether, 1441 individuals (aged 18–40 years, 51.4% females) participated in the survey. Both problematic online behaviors were weakly interrelated, suggesting that they serve as distinct constructs. Men's networks appeared to be more complex and had significantly higher global connectivity. Moreover, men and women differed with respect to the specific nodes that bridged both constructs. In men, the bridge nodes were "being criticized because of betting or being told about gambling problems", "loss of previous interests due to gaming", "deceiving other people because of gaming", and "health consequences of gambling". Among women, the bridge nodes were "feeling guilty because of gambling", "loss of previous interests because of gaming", "social consequences of gaming", and "continued gaming problems with other people". In men, the strongest edge was found between "borrowing money/selling anything to gamble" and "financial problems because of gambling", while in women, the strongest edge appeared between "betting more than afforded to be lost" and "tolerance symptoms of gambling". Conclusions: The findings indicate that problematic online gaming and gambling tend to emerge in different ways among men and women. Therapeutic interventions should be planned considering gender differences. [ABSTRACT FROM AUTHOR]

Published

2024

8. Testing Directed Acyclic Graph via Structural, Supervised and Generative Adversarial Learning.

Author

Shi, Chengchun, Zhou, Yunzhe, and Li, Lexin

Subjects

*GENERATIVE adversarial networks, *RANDOM variables, *TEST methods, *HYPOTHESIS

Abstract

In this article, we propose a new hypothesis testing method for directed acyclic graph (DAG). While there is a rich class of DAG estimation methods, there is a relative paucity of DAG inference solutions. Moreover, the existing methods often impose some specific model structures such as linear models or additive models, and assume independent data observations. Our proposed test instead allows the associations among the random variables to be nonlinear and the data to be time-dependent. We build the test based on some highly flexible neural networks learners. We establish the asymptotic guarantees of the test, while allowing either the number of subjects or the number of time points for each subject to diverge to infinity. We demonstrate the efficacy of the test through simulations and a brain connectivity network analysis. for this article are available online. [ABSTRACT FROM AUTHOR]

Published

2024

9. BAYESIAN HIERARCHICAL MODELING AND ANALYSIS FOR ACTIGRAPH DATA FROM WEARABLE DEVICES.

Author

Di Loro, Pierfrancesco Alaimo, Mingione, Marco, Lipsitt, Jonah, Batteate, Christina M, Jerrett, Michael, and Banerjee, Sudipto

Subjects

Mathematical Sciences, Statistics, Cardiovascular, Prevention, Bioengineering, Metabolic and endocrine, Bayesian hierarchical models, directed acyclic graph, Gaussian processes, physical activity, sparsity, spatial-temporal statistics, Directed acyclic graph, Physical activity, Sparsity, Spatial-temporal statistics, Econometrics, Statistics & Probability

Abstract

The majority of Americans fail to achieve recommended levels of physical activity, which leads to numerous preventable health problems such as diabetes, hypertension, and heart diseases. This has generated substantial interest in monitoring human activity to gear interventions toward environmental features that may relate to higher physical activity. Wearable devices, such as wrist-worn sensors that monitor gross motor activity (actigraph units) continuously record the activity levels of a subject, producing massive amounts of high-resolution measurements. Analyzing actigraph data needs to account for spatial and temporal information on trajectories or paths traversed by subjects wearing such devices. Inferential objectives include estimating a subject's physical activity levels along a given trajectory; identifying trajectories that are more likely to produce higher levels of physical activity for a given subject; and predicting expected levels of physical activity in any proposed new trajectory for a given set of health attributes. Here, we devise a Bayesian hierarchical modeling framework for spatial-temporal actigraphy data to deliver fully model-based inference on trajectories while accounting for subject-level health attributes and spatial-temporal dependencies. We undertake a comprehensive analysis of an original dataset from the Physical Activity through Sustainable Transport Approaches in Los Angeles (PASTA-LA) study to ascertain spatial zones and trajectories exhibiting significantly higher levels of physical activity while accounting for various sources of heterogeneity.

Published

2023

10. Construction Specification of Directed Acyclic Graphs: An Introduction to the ESC-DAGs Method and Case Interpretation in Cerebrovascular Disease Research

Author

HAO Yunyi1, XIA Xue2,3, XU Qin2,3, ZHAO Xingquan1,3, WANG Anxin2

Subjects

directed acyclic graph, confounding bias, causal inference, ischemic stroke, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract: Directed acyclic graph (DAG) is a visualization tool to construct causal hypotheses in causal inference, which can be used to control confounding bias in observational studies by screening the minimal adjustment subsets that need to be adjusted through the backdoor criterion. However, existing studies lack standardization in drawing DAGs and the quality of DAGs used in the literature varies, which causes application dilemmas. The emergence of the ESC-DAGs method provides a standardized process for constructing DAGs. Based on the basic idea of systematic review, ESC-DAGs extensively searches relevant literature and divides the construction process into three phases: mapping, translation, and integration. Firstly, a saturated DAG is constructed based on each retrieved study. The directed edges are screened in the graph according to the Hill criterion and the potential outcome framework, and finally, all the retained directed edges are integrated into one DAG. The ESC-DAGs method makes full use of the literature information and the expertise of researchers. It provides a reasonable and feasible criterion for applying DAGs, which has important guiding significance. This article presents the content of the ESC-DAGs method and elucidates the specific process of constructing a DAG using an example from a clinical study on stroke.

Published

2024

11. Several properties of antiadjacency matrices of directed graphs

Author

Kiki A. Sugeng, Fery Firmansah, Wildan, Bevina D. Handari, Nora Hariadi, and Muhammad Imran

Subjects

antiadjacency matrix, characteristic polynomial, directed acyclic graph, energy of directed graph, spectrum, Mathematics, QA1-939

Abstract

Let $ G $ be a directed graph with $ \mathrm{o}\mathrm{r}\mathrm{d}\mathrm{e}\mathrm{r}\; n. $ The adjacency matrix of the directed graph $ G $ is a matrix $ A = \left[{a}_{ij}\right] $ of order $ n\times n, $ such that for $ i\ne j $, if there is an arc from $ i $ to $ j, $ then $ {a}_{ij} = 1 $, otherwise $ {a}_{ij} = 0 $. Matrix $ B = J-A $ is called the antiadjacency matrix of the directed graph $ G, $ where $ J $ is the matrix of order $ n\times n $ with all of those entries are one. In this paper, we provided several properties of the adjacency matrices of directed graphs, such as a determinant of a directed graphs, the characteristic polynomial of acyclic directed graphs, and regular directed graphs. Moreover, we discuss antiadjacency energy of acyclic directed graphs and give some examples of antiadjacency energy for several families of graphs.

Published

2024

12. Augmented access pattern-based I/O performance prediction using directed acyclic graph regression.

Author

Kumar, Manish and Kim, Sunggon

Abstract

With the rise of big data processing is creating a new challenge i.e., keeping pace with the flow of information and efficient I/O performance is the key here. However, analyzing I/O performance is a complex task due to the many layers involved, from applications and libraries to the operating system, storage devices, and everything in between. In this paper, we propose a convolutional neural networks (CNN)-based directed acyclic graph regression (DAGR) network to predict the I/O performance of applications. The system first gathers I/O request information directly from the storage layer (block storage). This information is then converted into a visual representation (graph image) and augmented using various techniques to create additional training data. The core of the system is a CNN-based prediction model designed to identify potential I/O performance patterns by analyzing the generated graph images. Evaluations using real-world application benchmarks demonstrate that the proposed method can accurately predict the performance of various applications, including file servers, databases, mail servers, and video servers, with an accuracy of up to 99.73%. [ABSTRACT FROM AUTHOR]

Published

2025

13. A novel bayesian network-based ensemble classifier chains for multi-label classification

Author

Zhenwu Wang, Shiqi Zhang, Yang Chen, Mengjie Han, Yang Zhou, and Benting Wan

Subjects

Multi-label classification, Ensembles of classifier chains, Bayesian network, Multi-objective optimization, Directed acyclic graph, Electronic computers. Computer science, QA75.5-76.95, Information technology, T58.5-58.64

Abstract

Abstract In this paper, we address the challenges of random label ordering and limited interpretability associated with Ensemble Classifier Chains (ECC) by introducing a novel ECC method, ECC-MOO&BN, which integrates Bayesian Networks (BN) and Multi-Objective Optimization (MOO). This approach is designed to concurrently overcome these ECC limitations. The ECC-MOO&BN method focuses on extracting diverse and interpretable label orderings for the ECC classifier. We initiated this process by employing mutual information to investigate label relationships and establish the initial structures of the BN. Subsequently, an enhanced NSGA-II algorithm was applied to develop a series of Directed Acyclic Graphs (DAGs) that effectively balance the likelihood and complexity of the BN structure. The rationale behind using the MOO method lies in its ability to optimize both complexity and likelihood simultaneously, which not only diversifies DAG generation but also helps avoid overfitting during the production of label orderings. The DAGs, once sorted topologically, yielded a series of label orderings, which were then seamlessly integrated into the ECC framework for addressing multi-label classification (MLC) problems. Experimental results show that when benchmarked against eleven leading-edge MLC algorithms, our proposed method achieves the highest average ranking across seven evaluation criteria on nine out of thirteen MLC datasets. The results of the Friedman test and Nemenyi test also indicate that the performance of the proposed method has a significant advantage compared to other algorithms.

Published

2024

14. Comparative analysis of course prerequisite networks for five Midwestern public institutions

Author

Bonan Yang, Mahdi Gharebhaygloo, Hannah Rachel Rondi, Efrosini Hortis, Emilia Zeledon Lostalo, Xiaolan Huang, and Gunes Ercal

Subjects

Course prerequisite network, Curriculum graph, Directed acyclic graph, Applied mathematics. Quantitative methods, T57-57.97

Abstract

Abstract We present the first formal network analysis of curricular networks for public institutions, focusing around five midwestern universities. As a first such study of public institutions, our analyses are primarily macroscopic in nature, observing patterns in the overall course prerequisite networks (CPNs) and Curriculum Graphs (CGs). An overarching objective is to better understand CPN variability and patterns across different institutions and how these patterns relate to curricular outcomes. In addition to computing well known network centrality measures to capture courses of importance in the CPNs studied, we have also formulated some newer methods with specific relevance to the curricular domains and corresponding graph types at hand. We have discovered that a new graph theoretic measure of node importance which we call reach, based on the well-known concept of reachability, is needed to more accurately express the critical nature of some introductory courses in a university. Another analytical novelty that we introduce and apply to the subject of CPNs is the Longest Paths Induced sub-Graph (LPIG) of the CPN, which yields information on relatively constrained programs and pathways. Finally, we have established a new connection between clustering of the CG and meta-majors at Southern Illinois University Edwardsville (SIUE), providing clusterings of the other public institution CGs as useful heuristics of major groupings as well. This work is borne from collaboration between academic units and academic advising with hopes of practical benefits towards aiding student advising.

Published

2024

15. Bayesian Networks for the Diagnosis and Prognosis of Diseases: A Scoping Review

Author

Kristina Polotskaya, Carlos S. Muñoz-Valencia, Alejandro Rabasa, Jose A. Quesada-Rico, Domingo Orozco-Beltrán, and Xavier Barber

Subjects

Bayesian networks, disease diagnosis, disease prognosis, directed acyclic graph, Bayesian classifier, scoping review, Computer engineering. Computer hardware, TK7885-7895

Abstract

Bayesian networks (BNs) are probabilistic graphical models that leverage Bayes’ theorem to portray dependencies and cause-and-effect relationships between variables. These networks have gained prominence in the field of health sciences, particularly in diagnostic processes, by allowing the integration of medical knowledge into models and addressing uncertainty in a probabilistic manner. Objectives: This review aims to provide an exhaustive overview of the current state of Bayesian networks in disease diagnosis and prognosis. Additionally, it seeks to introduce readers to the fundamental methodology of BNs, emphasising their versatility and applicability across varied medical domains. Employing a meticulous search strategy with MeSH descriptors in diverse scientific databases, we identified 190 relevant references. These were subjected to a rigorous analysis, resulting in the retention of 60 papers for in-depth review. The robustness of our approach minimised the risk of selection bias. Results: The selected studies encompass a wide range of medical areas, providing insights into the statistical methodology, implementation feasibility, and predictive accuracy of BNs, as evidenced by an average area under the curve (AUC) exceeding 75%. The comprehensive analysis underscores the adaptability and efficacy of Bayesian networks in diverse clinical scenarios. The majority of the examined studies demonstrate the potential of BNs as reliable adjuncts to clinical decision-making. The findings of this review affirm the role of Bayesian networks as accessible and versatile artificial intelligence tools in healthcare. They offer a viable solution to address complex medical challenges, facilitating timely and informed decision-making under conditions of uncertainty. The extensive exploration of Bayesian networks presented in this review highlights their significance and growing impact in the realm of disease diagnosis and prognosis. It underscores the need for further research and development to optimise their capabilities and broaden their applicability in addressing diverse and intricate healthcare challenges.

Published

2024

16. 基于有向无环图的通风管道消声设计算法.

Author

徐彦喆, 刘斌, 李楠, 苏想, and 王祉涵

Abstract

Traditional acoustic design of heating, ventilation and air conditioning (HVAC) system mostly relies on the experience of designers, with significant repetition and minimal automation. To achieve the goal of intelligent design, methods such as directed acyclic graph, weighted directed adjacency matrix, and visualization were applied in the acoustic design of ventilation duct system. An algorithm was proposed to automatically calculate the noise levels at any place, whether in the duct or a specific room. The key components such as building 3D models, designing noise attenuation diagram, determining acoustic path, solving acoustic unit, and visualizing acoustic results were included in this system. The results show that this system is robust, accurate and quick to respond. The deviation between results from traditional methods and the proposed algorithm is no more than ± 2%, and the computation time is less than 0.2s, whereas the running time for some small and medium ventilation systems is within 0. 1s. The results based on this algorithm can be combined with 3D models to visualize the change of noise values and provide a reference in the design process of HVAC systems. [ABSTRACT FROM AUTHOR]

Published

2024

17. Directed acyclic graph for epidemiological studies in childhood food allergy: Construction, user's guide, and application.

Author

Peng, Zhuoxin, Apfelbacher, Christian, Brandstetter, Susanne, Eils, Roland, Kabesch, Michael, Lehmann, Irina, Trump, Saskia, Wellmann, Sven, Genuneit, Jon, Steffens, Britta, Naveed, Ishaque, Thierfelder‐Matuszak, Jasmin, Dekena, Johanna, Weigt, Julia, Gerhardinger, Katharina, Matzner, Laura, Hoerold, Madlen, König, Mara, Messingschlager, Marey, and Häberle, Marvin

Subjects

*DIRECTED acyclic graphs, *FOOD allergy, *CAUSAL inference, *CLINICAL trials, *RESEARCH personnel

Abstract

Understanding modifiable prenatal and early life causal determinants of food allergy is important for the prevention of the disease. Randomized clinical trials studying environmental and dietary determinants of food allergy may not always be feasible. Identifying risk/protective factors for early‐life food allergy often relies on observational studies, which may be affected by confounding bias. The directed acyclic graph (DAG) is a causal diagram useful to guide causal inference from observational epidemiological research. To date, research on food allergy has made little use of this promising method. We performed a literature review of existing evidence with a systematic search, synthesized 32 known risk/protective factors, and constructed a comprehensive DAG for early‐life food allergy development. We present an easy‐to‐use online tool for researchers to re‐construct, amend, and modify the DAG along with a user's guide to minimize confounding bias. We estimated that adjustment strategies in 57% of previous observational studies on modifiable factors of childhood food allergy could be improved if the researchers determined their adjustment sets by DAG. Future researchers who are interested in the causal inference of food allergy development in early life can apply the DAG to identify covariates that should and should not be controlled in observational studies. [ABSTRACT FROM AUTHOR]

Published

2024

18. Dependency-aware task offloading based on deep reinforcement learning in mobile edge computing networks.

Author

Li, Junnan, Yang, Zhengyi, Chen, Kai, Ming, Zhao, Li, Xiuhua, Fan, Qilin, Hao, Jinlong, and Cheng, Luxi

Subjects

*REINFORCEMENT learning, *ARTIFICIAL neural networks, *DEEP reinforcement learning, *MOBILE computing, *DIRECTED acyclic graphs, *MOBILE learning

Abstract

With the rapid development of innovative applications, lots of computation-intensive and delay-sensitive tasks are emerging. Task offloading, which is regarded as a key technology in the emerging mobile edge computing paradigm, aims at offloading the tasks from mobile devices (MDs) to edge servers or the remote cloud to reduce system delay and energy consumption of MDs. However, most existing task offloading studies either didn't consider the dependencies among tasks or simply designed heuristic schemes to solve dependent task offloading problems. Different from these studies, we propose a deep reinforcement learning (DRL) based task offloading scheme to jointly offload tasks with dependencies. Specifically, we model the dependencies among tasks by directed acyclic graphs and formulate the task offloading problem as minimizing the average cost of energy and time (CET) of users. To solve this NP-hard problem, we propose a deep Q-network learning-based framework that creatively utilizes deep neural networks to extract system features. Simulation results show that our proposed scheme outperforms the existing DRL scheme and heuristic scheme in reducing the average CET of all users and can obtain near-optimal solutions. [ABSTRACT FROM AUTHOR]

Published

2024

19. HQIOTA: 基于IOTA的高质量共识机制.

Author

胡 倩 and 陈杨杨

Subjects

DIRECTED acyclic graphs, DISTRIBUTION (Probability theory), ADAPTIVE control systems, INTERNET of things, INTERNAL auditing

Abstract

Copyright of Control Theory & Applications / Kongzhi Lilun Yu Yinyong is the property of Editorial Department of Control Theory & Applications and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

20. Comparing CNN-based Architectures for Dysgraphia Handwriting Classification Performance.

Author

Ramlan, Siti Azura, Isa, Iza Sazanita, Osman, Muhammad Khusairi, Ismail, Ahmad Puad, and Che Soh, Zainal Hisham

Subjects

CONVOLUTIONAL neural networks, MACHINE learning, DIRECTED acyclic graphs, IMAGE recognition (Computer vision), FEATURE extraction, DEEP learning

Abstract

Deep learning algorithms are increasingly being used to diagnose dysgraphia by concentrating on the issue of uneven handwriting characteristics, which is common among children in the early stage of basic learning of reading and writing skills. Convolutional Neural Network (CNN) is a deep learning model popular for classification tasks, including the dysgraphia detection process in assisting traditional diagnosis procedures. The CNN-based model is usually constructed by combining layers in the extraction network to capture the features of offline handwriting images before the classification network. However, concerns have been expressed regarding the limited study comparing the performance of the Directed Acyclic Graph (DAG) and Sequential Networks in handwriting-related studies in identifying dysgraphia. The proposed method was employed in this study to compare the two network structures utilized for feature extraction in classifying dysgraphia handwriting To eliminate this gap. Therefore, a new layer structure design in the Sequential and DAG networks was proposed to compare the performance of two feature extraction layers. The findings demonstrated that the DAG network outperforms the Sequential network with 1.75% higher accuracy in classification testing based on confusion matrix analysis. The study provides valuable insights into the efficiency of various network structures in recognizing inconsistencies identified in dysgraphia handwriting, underlining the need for additional research and improvement in this field. Subsequently, these findings highlight the necessity of deep learning approaches to advance dysgraphia identification and establish the framework for future research. [ABSTRACT FROM AUTHOR]

Published

2024

21. Optimization of uncertain dependent task mapping on heterogeneous computing platforms.

Author

Zhang, Jing and Han, Zhanwei

Subjects

*COMPUTING platforms, *DIRECTED acyclic graphs, *HETEROGENEOUS computing, *HEURISTIC algorithms, *PRODUCTION scheduling, *MONTE Carlo method, *DETERMINISTIC algorithms

Abstract

Dependent tasks are typically modeled using directed acyclic graphs (DAGs), and scheduling algorithms based on DAGs have been extensively researched. Most of the existing algorithms assume that the task or communication duration is deterministic. Nevertheless, any delays in task execution or communication can significantly affect the scheduling results. Aiming at minimizing the DAGs' makespan, a heuristic algorithms called heterogeneous optimistic complete time (HOCT) is proposed. The algorithm assumes that the task characteristic values are modeled randomly. It calculates task priorities based on the acceleration ratio and allocates computing resources using an optimistic execution timetable. Then, a Monte-Carlo simulation-based scheduling algorithm which built on the top of HOCT is proposed. Experimental results show that the proposed algorithm achieves better makespan of the stochastic DAG. It also provides a more robust scheduling solution to unpredictability than critical-path-on-a-processor, heterogeneous earliest finish time-no cross and parental prioritization earliest finish time algorithms. [ABSTRACT FROM AUTHOR]

Published

2024

22. Identifying Interest Rate Transmission Mechanism under a Bayesian Network.

Author

Chun, Byoung Jo

Abstract

This study examines causal relationships among various short- and long-term interest rates in the Korean financial market to identify transmission channels. Monthly time series data from January 2015 to February 2024 were used, covering nine interest rates, including call rates, commercial paper (CP) rates, bank lending rates, and Treasury bond yields of different maturities. The study employs a Bayesian network to identify an acyclic causal structure between interest rates alongside a vector error correction model (VECM) to capture long-term equilibrium relationships and short-term dynamics. The findings reconfirm the traditional call rate transmission mechanism, aligning with conventional monetary policy views, demonstrating the call rate's significant influence on bank lending rates, which affects corporate bond spreads and CP rates. Additionally, it reveals that 10-year Treasury bond yields form an independent interest rate transmission pathway, a finding not previously identified in the literature. These results underscore the need for coordinated monetary and fiscal policies due to the distinct transmission pathways of Treasury yields for sustainable macroeconomic management and growth. [ABSTRACT FROM AUTHOR]

Published

2024

23. Clarifying directional dependence among measures of early auditory processing and cognition in schizophrenia: leveraging Gaussian graphical models and Bayesian networks.

Author

Abplanalp, Samuel J., Braff, David L., Light, Gregory A., Joshi, Yash B., Nuechterlein, Keith H., and Green, Michael F.

Subjects

*RESEARCH funding, *NEURAL pathways, *PROBABILITY theory, *SCHIZOPHRENIA, *ATTENTION, *MEMORY, *NEUROPSYCHOLOGICAL tests, *PSYCHOMETRICS, *AUDITORY perception, *COMPARATIVE studies, *COGNITION

Abstract

Background: Research using latent variable models demonstrates that pre-attentive measures of early auditory processing (EAP) and cognition may initiate a cascading effect on daily functioning in schizophrenia. However, such models fail to account for relationships among individual measures of cognition and EAP, thereby limiting their utility. Hence, EAP and cognition may function as complementary and interacting measures of brain function rather than independent stages of information processing. Here, we apply a data-driven approach to identifying directional relationships among neurophysiologic and cognitive variables. Methods: Using data from the Consortium on the Genetics of Schizophrenia 2, we estimated Gaussian Graphical Models and Bayesian networks to examine undirected and directed connections between measures of EAP, including mismatch negativity and P3a, and cognition in 663 outpatients with schizophrenia and 630 control participants. Results: Chain structures emerged among EAP and attention/vigilance measures in schizophrenia and control groups. Concerning differences between the groups, object memory was an influential variable in schizophrenia upon which other cognitive domains depended, and working memory was an influential variable in controls. Conclusions: Measures of EAP and attention/vigilance are conditionally independent of other cognitive domains that were used in this study. Findings also revealed additional causal assumptions among measures of cognition that could help guide statistical control and ultimately help identify early-stage targets or surrogate endpoints in schizophrenia. [ABSTRACT FROM AUTHOR]

Published

2024

24. Contemporaneous causality among office property prices of major Chinese cities with vector error correction modeling and directed acyclic graphs.

Author

Xu, Xiaojie and Zhang, Yun

Subjects

REAL property sales & prices, ACYCLIC model, METROPOLIS, DIRECTED acyclic graphs, PRICE indexes

Abstract

Purpose: This study aims to investigate dynamic relations among office property price indices of 10 major cities in China for the years 2005–2021. Design/methodology/approach: Using monthly data, the authors adopt vector error correction modeling and the directed acyclic graph for the characterization of contemporaneous causality among the 10 indices. Findings: The PC algorithm identifies the causal pattern, and the linear non-Gaussian acyclic model algorithm further determines the causal path from which we perform innovation accounting analysis. Sophisticated price dynamics are found in price adjustment processes following price shocks, which are generally dominated by the top tier of cities. Originality/value: This suggests that policies on office property prices, in the long run, might need to be planned with particular attention paid to the top tier of cities. [ABSTRACT FROM AUTHOR]

Published

2024

25. Estimating and displaying population attributable fractions using the R package: graphPAF.

Author

Ferguson, John and O'Connell, Maurice

Subjects

BAYESIAN analysis, PACKAGING design

Abstract

Here we introduce graphPAF, a comprehensive R package designed for estimation, inference and display of population attributable fractions (PAF) and impact fractions. In addition to allowing inference for standard population attributable fractions and impact fractions, graphPAF facilitates display of attributable fractions over multiple risk factors using fan-plots and nomograms, calculations of attributable fractions for continuous exposures, inference for attributable fractions appropriate for specific risk factor → mediator → outcome pathways (pathway-specific attributable fractions) and Bayesian network-based calculations and inference for joint, sequential and average population attributable fractions in multi-risk factor scenarios. This article can be used as both a guide to the theory of attributable fraction estimation and a tutorial regarding how to use graphPAF in practical examples. [ABSTRACT FROM AUTHOR]

Published

2024

26. Estimating a directed tree for extremes.

Author

Tran, Ngoc Mai, Buck, Johannes, and Klüppelberg, Claudia

Subjects

BAYESIAN analysis, SPANNING trees, EXTREME value theory

Abstract

We propose a new method to estimate a root-directed spanning tree from extreme data. Prominent example is a river network, to be discovered from extreme flow measured at a set of stations. Our new algorithm utilizes qualitative aspects of a max-linear Bayesian network, which has been designed for modelling causality in extremes. The algorithm estimates bivariate scores and returns a root-directed spanning tree. It performs extremely well on benchmark data and on new data. We prove that the new estimator is consistent under a max-linear Bayesian network model with noise. We also assess its strengths and limitations in a small simulation study. [ABSTRACT FROM AUTHOR]

Published

2024

27. Order-based structure learning without score equivalence.

Author

Chang, Hyunwoong, Cai, James J, and Zhou, Quan

Subjects

*MARKOV chain Monte Carlo, *DIRECTED acyclic graphs, *ACYCLIC model, *DIRECTED graphs

Abstract

We propose an empirical Bayes formulation of the structure learning problem, where the prior specification assumes that all node variables have the same error variance, an assumption known to ensure the identifiability of the underlying causal directed acyclic graph. To facilitate efficient posterior computation, we approximate the posterior probability of each ordering by that of a best directed acyclic graph model, which naturally leads to an order-based Markov chain Monte Carlo algorithm. Strong selection consistency for our model in high-dimensional settings is proved under a condition that allows heterogeneous error variances, and the mixing behaviour of our sampler is theoretically investigated. Furthermore, we propose a new iterative top-down algorithm, which quickly yields an approximate solution to the structure learning problem and can be used to initialize the Markov chain Monte Carlo sampler. We demonstrate that our method outperforms other state-of-the-art algorithms under various simulation settings, and conclude the paper with a single-cell real-data study illustrating practical advantages of the proposed method. [ABSTRACT FROM AUTHOR]

Published

2024

28. Nonlinear Causal Discovery with Confounders.

Author

Li, Chunlin, Shen, Xiaotong, and Pan, Wei

Subjects

*DIRECTED acyclic graphs, *FEEDFORWARD neural networks, *GENE regulatory networks

Abstract

This article introduces a causal discovery method to learn nonlinear relationships in a directed acyclic graph with correlated Gaussian errors due to confounding. First, we derive model identifiability under the sublinear growth assumption. Then, we propose a novel method, named the Deconfounded Functional Structure Estimation (DeFuSE), consisting of a deconfounding adjustment to remove the confounding effects and a sequential procedure to estimate the causal order of variables. We implement DeFuSE via feedforward neural networks for scalable computation. Moreover, we establish the consistency of DeFuSE under an assumption called the strong causal minimality. In simulations, DeFuSE compares favorably against state-of-the-art competitors that ignore confounding or nonlinearity. Finally, we demonstrate the utility and effectiveness of the proposed approach with an application to gene regulatory network analysis. The Python implementation is available at . for this article are available online. [ABSTRACT FROM AUTHOR]

Published

2024

29. DRL-based dependent task offloading with delay-energy tradeoff in medical image edge computing.

Author

Liu, Qi, Tian, Zhao, Wang, Ning, and Lin, Yusong

Subjects

DEEP reinforcement learning, REINFORCEMENT learning, EDGE computing, DIAGNOSTIC imaging, DIRECTED acyclic graphs

Abstract

Task offloading solves the problem that the computing resources of terminal devices in hospitals are limited by offloading massive radiomics-based medical image diagnosis model (RIDM) tasks to edge servers (ESs). However, sequential offloading decision-making is NP-hard. Representing the dependencies of tasks and developing collaborative computing between ESs have become challenges. In addition, model-free deep reinforcement learning (DRL) has poor sample efficiency and brittleness to hyperparameters. To address these challenges, we propose a distributed collaborative dependent task offloading strategy based on DRL (DCDO-DRL). The objective is to maximize the utility of RIDM tasks, which is a weighted sum of the delay and energy consumption generated by execution. The dependencies of the RIDM task are modeled as a directed acyclic graph (DAG). The sequence prediction of the S2S neural network is adopted to represent the offloading decision process within the DAG. Next, a distributed collaborative processing algorithm is designed on the edge layer to further improve run efficiency. Finally, the DCDO-DRL strategy follows the discrete soft actor-critic method to improve the robustness of the S2S neural network. The numerical results prove the convergence and statistical superiority of the DCDO-DRL strategy. Compared with other algorithms, the DCDO-DRL strategy improves the execution utility of the RIDM task by at least 23.07, 12.77, and 8.51% in the three scenarios. [ABSTRACT FROM AUTHOR]

Published

2024

30. Bayesian Networks for the Diagnosis and Prognosis of Diseases: A Scoping Review.

Author

Polotskaya, Kristina, Muñoz-Valencia, Carlos S., Rabasa, Alejandro, Quesada-Rico, Jose A., Orozco-Beltrán, Domingo, and Barber, Xavier

Subjects

BAYESIAN analysis, PROGNOSIS, DIAGNOSIS, BAYES' theorem, SCIENCE databases

Abstract

Bayesian networks (BNs) are probabilistic graphical models that leverage Bayes' theorem to portray dependencies and cause-and-effect relationships between variables. These networks have gained prominence in the field of health sciences, particularly in diagnostic processes, by allowing the integration of medical knowledge into models and addressing uncertainty in a probabilistic manner. Objectives: This review aims to provide an exhaustive overview of the current state of Bayesian networks in disease diagnosis and prognosis. Additionally, it seeks to introduce readers to the fundamental methodology of BNs, emphasising their versatility and applicability across varied medical domains. Employing a meticulous search strategy with MeSH descriptors in diverse scientific databases, we identified 190 relevant references. These were subjected to a rigorous analysis, resulting in the retention of 60 papers for in-depth review. The robustness of our approach minimised the risk of selection bias. Results: The selected studies encompass a wide range of medical areas, providing insights into the statistical methodology, implementation feasibility, and predictive accuracy of BNs, as evidenced by an average area under the curve (AUC) exceeding 75%. The comprehensive analysis underscores the adaptability and efficacy of Bayesian networks in diverse clinical scenarios. The majority of the examined studies demonstrate the potential of BNs as reliable adjuncts to clinical decision-making. The findings of this review affirm the role of Bayesian networks as accessible and versatile artificial intelligence tools in healthcare. They offer a viable solution to address complex medical challenges, facilitating timely and informed decision-making under conditions of uncertainty. The extensive exploration of Bayesian networks presented in this review highlights their significance and growing impact in the realm of disease diagnosis and prognosis. It underscores the need for further research and development to optimise their capabilities and broaden their applicability in addressing diverse and intricate healthcare challenges. [ABSTRACT FROM AUTHOR]

Published

2024

31. Learning Bayesian Networks: A Copula Approach for Mixed-Type Data.

Author

Castelletti, Federico

Subjects

BAYESIAN analysis, MENTAL health laws, MARKOV chain Monte Carlo

Abstract

Estimating dependence relationships between variables is a crucial issue in many applied domains and in particular psychology. When several variables are entertained, these can be organized into a network which encodes their set of conditional dependence relations. Typically however, the underlying network structure is completely unknown or can be partially drawn only; accordingly it should be learned from the available data, a process known as structure learning. In addition, data arising from social and psychological studies are often of different types, as they can include categorical, discrete and continuous measurements. In this paper, we develop a novel Bayesian methodology for structure learning of directed networks which applies to mixed data, i.e., possibly containing continuous, discrete, ordinal and binary variables simultaneously. Whenever available, our method can easily incorporate known dependence structures among variables represented by paths or edge directions that can be postulated in advance based on the specific problem under consideration. We evaluate the proposed method through extensive simulation studies, with appreciable performances in comparison with current state-of-the-art alternative methods. Finally, we apply our methodology to well-being data from a social survey promoted by the United Nations, and mental health data collected from a cohort of medical students. R code implementing the proposed methodology is available at https://github.com/FedeCastelletti/bayes_networks_mixed_data. [ABSTRACT FROM AUTHOR]

Published

2024

32. Directed Acyclic Graphs in Social Work Research and Evaluation: A Primer.

Author

Rose, Roderick A., Cosgrove, John A., and Lee, Bethany R.

Subjects

DIRECTED acyclic graphs, SOCIAL work research, RESEARCH evaluation, SOCIAL services, STATISTICAL association

Abstract

Social work aspires to change social outcomes through policy and practice. Thus, researchers often use quantitative analysis to understand how social phenomena or policy and practice interventions change outcomes, but these causal questions cannot be answered using statistical association only. Directed acyclic graphs (DAGs), also called causal graphs, are a framework for representing assumptions about the causal relations between variables, imbuing statistical associations with causal meaning. This visual language may be more accessible than a math-based approach. We provide social work researchers with clear guidelines for using DAGs. First, we synthesize the current DAG literature and show how many statistical phenomena are represented in DAGs. Second, we describe an ordered process for building a DAG around a causal question about the impact of a treatment on an outcome. Third, we introduce a structured process called "clock and grid" for specifying the confounders that must be accounted for to estimate the unbiased causal effect. Throughout, we use working examples of social work evaluation scenarios to facilitate understanding of these concepts. We argue that DAGs represent an end-to-end conceptual framework for curating subject area knowledge that can advance social work research by informing design and analysis. [ABSTRACT FROM AUTHOR]

Published

2024

33. Max-linear graphical models with heavy-tailed factors on trees of transitive tournaments.

Author

Asenova, Stefka and Segers, Johan

Subjects

MARKOV random fields, DIRECTED acyclic graphs, TOURNAMENTS, LATENT variables, BAYESIAN analysis, MULTIPLY transitive groups, RANDOM fields

Abstract

Graphical models with heavy-tailed factors can be used to model extremal dependence or causality between extreme events. In a Bayesian network, variables are recursively defined in terms of their parents according to a directed acyclic graph (DAG). We focus on max-linear graphical models with respect to a special type of graph, which we call a tree of transitive tournaments. The latter is a block graph combining in a tree-like structure a finite number of transitive tournaments, each of which is a DAG in which every two nodes are connected. We study the limit of the joint tails of the max-linear model conditionally on the event that a given variable exceeds a high threshold. Under a suitable condition, the limiting distribution involves the factorization into independent increments along the shortest trail between two variables, thereby imitating the behaviour of a Markov random field. We are also interested in the identifiability of the model parameters in the case when some variables are latent and only a subvector is observed. It turns out that the parameters are identifiable under a criterion on the nodes carrying the latent variables which is easy and quick to check. [ABSTRACT FROM AUTHOR]

Published

2024

34. A theoretical framework to accelerate scheduling improvement heuristics using a new longest path algorithm in perturbed DAGs.

Author

Madraki, Golshan, Mousavian, Seyedamirabbas, and Salmani, Yasamin

Subjects

PRODUCTION scheduling, HEURISTIC algorithms, SCHEDULING, DIRECTED acyclic graphs, HEURISTIC

Abstract

Job-shop scheduling problems are complex and still well-studied manufacturing problems. Improvement heuristic algorithms have been proposed to solve the scheduling problems using makespan as their performance measure. All these heuristics iteratively perturb trial schedules by selecting a new schedule from a set of nearby schedules (neighbourhood); then, recalculate and compare the makespan until a sufficient schedule is determined. Unlike previous studies, we did not generate a new heuristic or a novel neighbourhood calculation. Instead, we proposed a theoretical framework, Algorithm to Visit Affected Node (AVAN), which can be incorporated in qualified heuristics while using their current neighbourhood structure to accelerate the recalculation of the makespan in each iteration. We modelled the system by Directed Acyclic Graph (DAG) where the length of the longest path equals the makespan. The scheduling perturbations are represented by adding and deleting edges. AVAN investigates the configuration of scheduling perturbations (added/deleted edges) to find an appropriate starting point to traverse the graph. AVAN is mathematically more efficient than previous longest path algorithms for perturbed DAG. Its time complexity is O (Δ + | Δ | log ⁡ (| Δ |)) , where | Δ | is the number of affected nodes and Δ is the number of incoming and outgoing edges of the affected nodes. [ABSTRACT FROM AUTHOR]

Published

2023

35. EDNBC: A New Efficient Distributed Naive Bayes Classifier for Vertically Distributed Data

Author

Khedr, Ahmed M., Attiya, Ibrahim, Al Ali, Amal Ibrahim, Kacprzyk, Janusz, Series Editor, and Idrissi, Abdellah, editor

Published

2024

36. NFTO: DAG-Based Task Offloading and Energy Optimization Algorithm

Author

Zeng, Luchuan, Jin, Kunming, Wang, Zichen, Zhang, Chen, Du, Hongwei, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Ghosh, Smita, editor, and Zhang, Zhao, editor

Published

2024

37. Strategy for Dependent Tasks Under Vehicle Formation Assistance

Author

Li, Wenfeng, Gu, Jian, Chen, ShuaiJie, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Zhang, Lin, editor, Yu, Wensheng, editor, Wang, Quan, editor, Laili, Yuanjun, editor, and Liu, Yongkui, editor

Published

2024

38. DAG-Based Task Scheduling Optimization in Heterogeneous Distributed Systems

Author

Chen, Chen, Zhu, Jie, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Sun, Yuqing, editor, Lu, Tun, editor, Wang, Tong, editor, Fan, Hongfei, editor, Liu, Dongning, editor, and Du, Bowen, editor

Published

2024

39. An Efficient Data Reduction Method for DAG Blockchain

Author

Zhang, Chengyao, Huang, Dongyan, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Zhang, Junjie James, Series Editor, Tan, Kay Chen, Series Editor, Zhang, Yonghong, editor, Qi, Lianyong, editor, Liu, Qi, editor, Yin, Guangqiang, editor, and Liu, Xiaodong, editor

Published

2024

40. Etiologie en causaliteit

Author

Bouter, L. M., Zeegers, M. P. A., van Kuijk, S. M. J., Bouter, L.M., Zeegers, M.P.A., and van Kuijk, S.M.J.

Published

2024

41. Enhancing mobile computation offloading efficiency with the adaptive optimization algorithm

Author

Jyothirmai, M., Gopal, Kesavan, and Sailaja, M.

Published

2024

42. Applications of Bayesian networks in assessing the effects of family resilience on caregiver behavioral problems, depressive symptoms, and burdens

Author

Chu, Amanda M. Y., Chan, Lupe S. H., Chang, Stephen S. Y., Tiwari, Agnes, Yuk, Helina, and So, Mike K. P.

Published

2024

43. Graphical Causal Structure and Machine Learning Models in the Study of Infant Health and Mortality

Author

Kamei, Gaidinlung and Banerjee, Indrajit

Published

2024

44. Whale Optimization for Cloud–Edge-Offloading Decision-Making for Smart Grid Services.

Author

Arcas, Gabriel Ioan, Cioara, Tudor, and Anghel, Ionut

Subjects

*METAHEURISTIC algorithms, *DIRECTED acyclic graphs, *ACYCLIC model, *DECISION making, *DIRECTED graphs

Abstract

As IoT metering devices become increasingly prevalent, the smart energy grid encounters challenges associated with the transmission of large volumes of data affecting the latency of control services and the secure delivery of energy. Offloading computational work towards the edge is a viable option; however, effectively coordinating service execution on edge nodes presents significant challenges due to the vast search space making it difficult to identify optimal decisions within a limited timeframe. In this research paper, we utilize the whale optimization algorithm to decide and select the optimal edge nodes for executing services' computational tasks. We employ a directed acyclic graph to model dependencies among computational nodes, data network links, smart grid energy assets, and energy network organization, thereby facilitating more efficient navigation within the decision space to identify the optimal solution. The offloading decision variables are represented as a binary vector, which is evaluated using a fitness function considering round-trip time and the correlation between edge-task computational resources. To effectively explore offloading strategies and prevent convergence to suboptimal solutions, we adapt the feedback mechanisms, an inertia weight coefficient, and a nonlinear convergence factor. The evaluation results are promising, demonstrating that the proposed solution can effectively consider both energy and data network constraints while enduring faster decision-making for optimization, with notable improvements in response time and a low average execution time of approximately 0.03 s per iteration. Additionally, on complex computational infrastructures modeled, our solution shows strong features in terms of diversity, fitness evolution, and execution time. [ABSTRACT FROM AUTHOR]

Published

2024

45. Towards causal relationships for modelling species distribution.

Author

Da Re, Daniele, Tordoni, Enrico, Lenoir, Jonathan, Rubin, Sergio, and Vanwambeke, Sophie O.

Subjects

*SPECIES distribution, *BIOGEOGRAPHY, *CAUSAL models, *STRUCTURAL equation modeling, *SPATIAL ecology

Abstract

Aim: Understanding the processes underlying the distribution of species through space and time is fundamental in several research fields spanning from ecology to spatial epidemiology. Correlative species distribution models rely on the niche concept to infer or explain the distribution of species, though often focusing only on the abiotic component of the niche (e.g. temperature, precipitation), without clear causal links to the biology of the species under investigation. This might result in an oversimplification of the complex niche hypervolume, resulting in a single model formula whose estimates and predictions lack ecological realism. Location: Not applicable. Time Period: Not applicable. Major Taxa Studied: Virtual species. Materials and Methods: We believe that a causal perspective associated with a finer definition of the modelling target is necessary to develop more ecologically realistic outputs. Here, we propose to infer the geographical distribution of a species by applying the modelling relation approach, a causal conceptual framework developed by the theoretical biologist Robert Rosen, which can be formalized through structural equation modelling. Results: Our findings suggest that building a model relying on a strong conceptual basis improves the stability of the estimated model's coefficients, without necessarily increasing the predictive accuracy metrics of the model. Main Conclusions: Including causal processes underlying the spatial distribution of species into an inferential formal system highlights the methodological steps where uncertainty can arise and results in model outputs which are tightly linked to the ecology of the target species. [ABSTRACT FROM AUTHOR]

Published

2024

46. Improved DAG in blockchain tangle for IOTA.

Author

Eugene Rhee and Jihoon Lee

Subjects

BLOCKCHAINS, MACHINE-to-machine communications, INTERNET exchange points, INTERNET of things, SCALABILITY, INFORMATION sharing

Abstract

The internet of things (IoT) enables machine-to-machine communication without human intervention. Consequently, every object connected to the internet can exchange information with each other. Internet of things application (IOTA) has undertaken a project to address the high transaction fees inherent in traditional blockchain systems and enhance the efficiency of microtransactions between machines by combining blockchain and IoT. IOTA employs its unique Tangle technology, which introduces a novel transaction consensus method, addressing the fee issues, limited scalability, and the inability to conduct offline transactions associated with traditional blockchains. This paper provides a detailed overview of the characteristics of the Tangle structure and the concepts applied in IOTA. Additionally, it explores potential approaches for integrating blockchain into IoT. [ABSTRACT FROM AUTHOR]

Published

2024

47. Delving into Causal Discovery in Health-Related Quality of Life Questionnaires.

Author

Ganopoulou, Maria, Kontopoulos, Efstratios, Fokianos, Konstantinos, Koparanis, Dimitris, Angelis, Lefteris, Kotsianidis, Ioannis, and Moysiadis, Theodoros

Subjects

*QUALITY of life, *RDF (Document markup language), *MACHINE learning, *DIRECTED acyclic graphs, *KNOWLEDGE graphs

Abstract

Questionnaires on health-related quality of life (HRQoL) play a crucial role in managing patients by revealing insights into physical, psychological, lifestyle, and social factors affecting well-being. A methodological aspect that has not been adequately explored yet, and is of considerable potential, is causal discovery. This study explored causal discovery techniques within HRQoL, assessed various considerations for reliable estimation, and proposed means for interpreting outcomes. Five causal structure learning algorithms were employed to examine different aspects in structure estimation based on simulated data derived from HRQoL-related directed acyclic graphs. The performance of the algorithms was assessed based on various measures related to the differences between the true and estimated structures. Moreover, the Resource Description Framework was adopted to represent the responses to the HRQoL questionnaires and the detected cause–effect relationships among the questions, resulting in semantic knowledge graphs which are structured representations of interconnected information. It was found that the structure estimation was impacted negatively by the structure's complexity and favorably by increasing the sample size. The performance of the algorithms over increasing sample size exhibited a similar pattern, with distinct differences being observed for small samples. This study illustrates the dynamics of causal discovery in HRQoL-related research, highlights aspects that should be addressed in estimation, and fosters the shareability and interoperability of the output based on globally established standards. Thus, it provides critical insights in this context, further promoting the critical role of HRQoL questionnaires in advancing patient-centered care and management. [ABSTRACT FROM AUTHOR]

Published

2024

48. Differences in Falls and Physical Activity in Older Women From Two Generations.

Author

Kwok, Wing S, Khalatbari-Soltani, Saman, Dolja-Gore, Xenia, Byles, Julie, Oliveira, Juliana S, Pinheiro, Marina B, and Sherrington, Catherine

Subjects

*PHYSICAL activity, *OLDER women, *DIRECTED acyclic graphs, *SEDENTARY behavior, *WOMEN'S health

Abstract

Background Falls and physical inactivity increase with age. However, physical activity, falls and their associations in older people born at different times are unclear. Methods Women born 1921–26 and 1946–51 who completed follow-up questionnaires in 1999 (n  = 8 403, mean (SD) age: 75 (1) years) and 2019 (n  = 7 555; 71 (1) years) in the Australian Longitudinal Study on Women's Health. Self-reported noninjurious and injurious falls in the previous 12 months and weekly amounts and types of physical activity (brisk walking, moderate- and vigorous-intensity) were compared between the cohorts using Chi-square tests. Associations between physical activity, and noninjurious and injurious falls were estimated using multinomial logistic regressions informed by a directed acyclic graph. Results A greater proportion of the later (1946–51) cohort (59%) reached 150–300 minutes of weekly physical activity, as recommended by the World Health Organization, compared to the earlier (1921–26) cohort (43%, p  < .001). A greater proportion of the later cohort reported noninjurious falls (14% vs 8%). Both cohorts reported similar proportions of injurious falls (1946–51:15%, 1921–26:14%). In both cohorts, participation in 150–300 minutes of physical activity was associated with lower odds of noninjurious falls (adjusted Odds Ratio, 95% CI: 1921–26: 0.66, 0.52–0.84; 1946–51: 0.78, 0.63–0.97) and injurious falls (1921–26: 0.72, 0.60–0.87; 1946–51: 0.78, 0.64–0.96). Conclusions Participation in recommended levels of physical activity was associated with reduced falls in both cohorts. However, generational differences were found with more falls and more physical activities in the women born later. Future studies could examine the reasons contributing to the generational differences. [ABSTRACT FROM AUTHOR]

Published

2024

49. Exploring a Potential Interaction Between the Effect of Specific Maternal Smoking Patterns and Comorbid Antenatal Depression in Causing Postpartum Depression.

Author

Kondracki, Anthony J, Attia, John R, Valente, Matthew J, Roth, Kimberly B, Akin, Marshall, McCarthy, Claire A, and Barkin, Jennifer L

Subjects

*DEPRESSION in women, *POSTPARTUM depression, *PRENATAL depression, *SMOKE prevention, *SMOKING prevention, *DIRECTED acyclic graphs

Abstract

Purpose: To explore a potential interaction between the effect of specific maternal smoking patterns and the presence of antenatal depression, as independent exposures, in causing postpartum depression (PPD). Methods: This case–control study of participants with singleton term births (N = 51220) was based on data from the 2017– 2018 Pregnancy Risk Assessment Monitoring System. Multivariable log-binomial regression models examined the main effects of smoking patterns and self-reported symptoms of antenatal depression on the risk of PPD on the adjusted risk ratio (aRR) scale and tested a two-way interaction adjusting for covariates selected in a directed acyclic graph (DAG). The interaction effects were measured on the additive scale using relative excess risk due to interaction (RERI), the attributable proportion of interaction (AP), and the synergy index (SI). Causal effects were defined in a counterfactual framework. The E-value quantified the potential impact of unobserved/unknown covariates, conditional on observed covariates. Results: Among 6841 women in the sample who self-reported PPD, 35.7% also reported symptoms of antenatal depression. Out of 3921 (7.7%) women who reported smoking during pregnancy, 32.6% smoked at high intensity (≥ 10 cigarettes/day) in all three trimesters and 36.6% had symptoms of antenatal depression. The main effect of PPD was the strongest for women who smoked at high intensity throughout pregnancy (aRR 1.65; 95% CI: 1.63, 1.68). A synergistic interaction was detected, and the effect of all maternal smoking patterns was augmented, particularly in late pregnancy for Increasers and Reducers. Conclusion: Strong associations and interaction effects between maternal smoking patterns and co-occurring antenatal depression support smoking prevention and cessation interventions during pregnancy to lower the likelihood of PPD. [ABSTRACT FROM AUTHOR]

Published

2024

50. Linear constraints on variables in influence diagrams for causal models.

Author

Shayakhmetova, А., Akhmetova, A., Abdildayeva, A., Litvinenko, B. N., and Zakirova, A.

Abstract

Copyright of Bulletin of the L.N. Gumilyov Eurasian National University. Technical science & Technology series is the property of L.N. Gumilyov Eurasian National University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024