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39 results on '"Peter Sloot"'

1. Rate-Induced Transitions in Networked Complex Adaptive Systems: Exploring Dynamics and Management Implications Across Ecological, Social, and Socioecological Systems.

Author

Vítor V. Vasconcelos, Flavia Maria Darcie Marquitti, Theresa Ong, Lisa C. McManus, Marcus Aguiar, Amanda B. Campos, Partha S. Dutta, Kristen Jovanelly, Victoria Junquera, Jude Kong, Elisabeth H. Krueger, Simon A. Levin, Wenying Liao, Mingzhen Lu, Dhruv Mittal, Mercedes Pascual, Flávio L. Pinheiro, Juan Rocha, Fernando P. Santos, Peter Sloot, Chenyang Su, Benton Taylor, Eden Tekwa, Sjoerd Terpstra, Andrew R. Tilman, James R. Watson, Luojun Yang, Senay Yitbarek, and Qi Zhan

Published
2023
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2. Medication management support in diabetes: a systematic assessment of diabetes self-management apps

Author

Zhilian Huang, Elaine Lum, Geronimo Jimenez, Monika Semwal, Peter Sloot, and Josip Car

Subjects
Health apps, Digital health, Diabetes, Medication adherence, Evidence-based guidance, Medicine
Abstract

Abstract Background Smartphone apps are becoming increasingly popular for supporting diabetes self-management. A key aspect of diabetes self-management is appropriate medication-taking. This study aims to systematically assess and characterise the medication management features in diabetes self-management apps and their congruence with best-practice evidence-based criteria. Methods The Google Play and Apple app stores were searched in June 2018 using diabetes-related terms in the English language. Apps with both medication and blood glucose management features were downloaded and evaluated against assessment criteria derived from international medication management and diabetes guidelines. Results Our search yielded 3369 Android and 1799 iOS potentially relevant apps; of which, 143 apps (81 Android, 62 iOS) met inclusion criteria and were downloaded and assessed. Over half 58.0% (83/143) of the apps had a medication reminder feature; 16.8% (24/143) had a feature to review medication adherence; 39.9% (57/143) allowed entry of medication-taking instructions; 5.6% (8/143) provided information about medication; and 4.2% (6/143) displayed motivational messages to encourage medication-taking. Only two apps prompted users on the use of complementary medicine. Issues such as limited medication logging capacity, faulty reminder features, unclear medication adherence assessment, and visually distracting excessive advertising were observed during app assessments. Conclusions A large proportion of diabetes self-management apps lacked features for enhancing medication adherence and safety. More emphasis should be given to the design of medication management features in diabetes apps to improve their alignment to evidence-based best practice.

Published
2019
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3. eHealth in the future of medications management: personalisation, monitoring and adherence

Author

Josip Car, Woan Shin Tan, Zhilian Huang, Peter Sloot, and Bryony Dean Franklin

Subjects
Apps, eHealth, mHealth, Drug monitoring, Information communication technology, Medication adherence, Medicine
Abstract

Abstract Background Globally, healthcare systems face major challenges with medicines management and medication adherence. Medication adherence determines medication effectiveness and can be the single most effective intervention for improving health outcomes. In anticipation of growth in eHealth interventions worldwide, we explore the role of eHealth in the patients’ medicines management journey in primary care, focusing on personalisation and intelligent monitoring for greater adherence. Discussion eHealth offers opportunities to transform every step of the patient’s medicines management journey. From booking appointments, consultation with a healthcare professional, decision-making, medication dispensing, carer support, information acquisition and monitoring, to learning about medicines and their management in daily life. It has the potential to support personalisation and monitoring and thus lead to better adherence. For some of these dimensions, such as supporting decision-making and providing reminders and prompts, evidence is stronger, but for many others more rigorous research is urgently needed. Conclusions Given the potential benefits and barriers to eHealth in medicines management, a fine balance needs to be established between evidence-based integration of technologies and constructive experimentation that could lead to a game-changing breakthrough. A concerted, transdisciplinary approach adapted to different contexts, including low- and middle-income contries is required to realise the benefits of eHealth at scale.

Published
2017
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4. Topological Characterization of Complex Systems: Using Persistent Entropy

Author

Emanuela Merelli, Matteo Rucco, Peter Sloot, and Luca Tesei

Subjects
topological data analysis, persistent entropy automaton, higher dimensional automata, immune system, idiotypic network, computational agents, Science, Astrophysics, QB460-466, Physics, QC1-999
Abstract

In this paper, we propose a methodology for deriving a model of a complex system by exploiting the information extracted from topological data analysis. Central to our approach is the S[B] paradigm in which a complex system is represented by a two-level model. One level, the structural S one, is derived using the newly-introduced quantitative concept of persistent entropy, and it is described by a persistent entropy automaton. The other level, the behavioral B one, is characterized by a network of interacting computational agents. The presented methodology is applied to a real case study, the idiotypic network of the mammalian immune system.

Published
2015
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5. Dynamic importance of network nodes is poorly predicted by static structural features

Author

Casper van Elteren, Rick Quax, Peter Sloot, Computational Science Lab (IVI, FNWI), and Faculty of Science

Subjects
Statistics and Probability, Statistical and Nonlinear Physics
Abstract

One of the most central questions in network science is: which nodes are most important? Often this question is answered using structural properties such as high connectedness or centrality in the network. However, static structural connectedness does not necessarily translate to dynamical importance. To demonstrate this, we simulate the kinetic Ising spin model on generated networks and one real-world weighted network. The dynamic impact of nodes is assessed by causally intervening on node state probabilities and measuring the effect on the systemic dynamics. The results show that structural features such as network centrality or connectedness are actually poor predictors of the dynamical impact of a node on the rest of the network. A solution is offered in the form of an information theoretical measure named integrated mutual information. The metric is able to accurately predict the dynamically most important node (”driver” node) in networks based on observational data of non-intervened dynamics. We conclude that the driver node(s) in networks are not necessarily the most well-connected or central nodes. Indeed, the common assumption of network structural features being proportional to dynamical importance is false. Consequently, great care should be taken when deriving dynamical importance from network data alone. These results highlight the need for novel inference methods that take both structure and dynamics into account.

Published
2022

6. Emergence of Protests During The COVID-19 Pandemic: Quantitative Models To Explore The Contributions of Societal Conditions

Author

Koen van der Zwet, Tom van Engers, Ana Martins Botto de Barros, and Peter Sloot

Abstract

The outbreak of the COVID-19 pandemic has led to a resurgence of protests. Various societal conditions of social systems, such as economic stability, demographic ageing, and political elites, are often associated to the emergence of civil resistance movements. Several qualitative and quantitative models have been developed to analyse the relationship between societal conditions and the emergence of protests. The existing models use the underlying assumptions that these conditions operate in similar time-scales. However, the analysis of social systems also shows the importance of considering explicitly the inherent time-scales particularly slow-fast dynamics. The sudden and dramatic disruptive force of the pandemic has yield fine-grained data sets that can be used to better grasp the different dynamics of this social phenom. This paper proposes an integrated approach to explore the relationship between societal conditions and the emergence of protests in the context of the COVID-19 pandemic. First, a literature based causal-loop-diagram is constructed to conceptualise the emergence of civil resistance as a result of intertwined dynamics. Based on the derived factors in the literature study, a data set is constructed to enable this analysis. Furthermore, by means of statistical and computational modelling we conduct a quantitative analysis in which we compare the emergence of protests for 27 countries during the pandemic. Also based on the factors found in literature we have constructed a system dynamics model that explicitly models the development of societal strains and social mobilisation in order to provide a better quantitative explanation of the emergence of protests. We found that while fast-changing factors are better estimators for ‘when’ civil resistance emerges, slow-changing factors are better estimators of ‘how’ civil resistance manifests itself in terms of the relative intensity of the protests in specific countries.

Published
2021
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8. Inference of surface membrane factors of HIV-1 infection through functional interaction networks.

Author

Samira Jaeger, Gokhan Ertaylan, David van Dijk, Ulf Leser, and Peter Sloot

Subjects
Medicine, Science
Abstract

BackgroundHIV infection affects the populations of T helper cells, dendritic cells and macrophages. Moreover, it has a serious impact on the central nervous system. It is yet not clear whether this list is complete and why specifically those cell types are affected. To address this question, we have developed a method to identify cellular surface proteins that permit, mediate or enhance HIV infection in different cell/tissue types in HIV-infected individuals. Receptors associated with HIV infection share common functions and domains and are involved in similar cellular processes. These properties are exploited by bioinformatics techniques to predict novel cell surface proteins that potentially interact with HIV.Methodology/principal findingsWe compiled a set of surface membrane proteins (SMP) that are known to interact with HIV. This set is extended by proteins that have direct interaction and share functional similarity. This resulted in a comprehensive network around the initial SMP set. Using network centrality analysis we predict novel surface membrane factors from the annotated network. We identify 21 surface membrane factors, among which three have confirmed functions in HIV infection, seven have been identified by at least two other studies, and eleven are novel predictions and thus excellent targets for experimental investigation.ConclusionsDetermining to what extent HIV can interact with human SMPs is an important step towards understanding patient specific disease progression. Using various bioinformatics techniques, we generate a set of surface membrane factors that constitutes a well-founded starting point for experimental testing of cell/tissue susceptibility of different HIV strains as well as for cohort studies evaluating patient specific disease progression.

Published
2010
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9. Antiretroviral therapy optimisation without genotype resistance testing: a perspective on treatment history based models.

Author

Mattia C F Prosperi, Michal Rosen-Zvi, André Altmann, Maurizio Zazzi, Simona Di Giambenedetto, Rolf Kaiser, Eugen Schülter, Daniel Struck, Peter Sloot, David A van de Vijver, Anne-Mieke Vandamme, Anders Sönnerborg, EuResist study group, and Virolab study group

Subjects
Medicine, Science
Abstract

BackgroundAlthough genotypic resistance testing (GRT) is recommended to guide combination antiretroviral therapy (cART), funding and/or facilities to perform GRT may not be available in low to middle income countries. Since treatment history (TH) impacts response to subsequent therapy, we investigated a set of statistical learning models to optimise cART in the absence of GRT information.Methods and findingsThe EuResist database was used to extract 8-week and 24-week treatment change episodes (TCE) with GRT and additional clinical, demographic and TH information. Random Forest (RF) classification was used to predict 8- and 24-week success, defined as undetectable HIV-1 RNA, comparing nested models including (i) GRT+TH and (ii) TH without GRT, using multiple cross-validation and area under the receiver operating characteristic curve (AUC). Virological success was achieved in 68.2% and 68.0% of TCE at 8- and 24-weeks (n = 2,831 and 2,579), respectively. RF (i) and (ii) showed comparable performances, with an average (st.dev.) AUC 0.77 (0.031) vs. 0.757 (0.035) at 8-weeks, 0.834 (0.027) vs. 0.821 (0.025) at 24-weeks. Sensitivity analyses, carried out on a data subset that included antiretroviral regimens commonly used in low to middle income countries, confirmed our findings. Training on subtype B and validation on non-B isolates resulted in a decline of performance for models (i) and (ii).ConclusionsTreatment history-based RF prediction models are comparable to GRT-based for classification of virological outcome. These results may be relevant for therapy optimisation in areas where availability of GRT is limited. Further investigations are required in order to account for different demographics, subtypes and different therapy switching strategies.

Published
2010
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10. INTERACTIVE GRID COMPUTING: ADAPTING HIGH LEVEL ARCHITECTURE-BASED APPLICATIONS TO THE GRID

Author

KATARZYNA RYCERZ, MARIAN BUBAK, MACIEJ MALAWSKI, and PETER SLOOT

Subjects
interactive simulation, Grid Computing, HLA, OGSA, Information technology, T58.5-58.64
Abstract

In this paper we present the design of a Grid HLA Management System (GHMS) supporting execution of High Level Architecture-based interactive applications in a Grid environment, while at the same time allowing for running HLA legacy codes to preserve backward compatibility with the HLA standard. In particular, we describe the following system components: an HLA-Speaking Service for multiple federates that interface the HLA application to the system, a Monitoring Service integrated with the OCM-G monitoring system and HLA-based Benchmark Services informing the Broker Service of what can be expected from the application’s behavior.

Published
2004

11. Correction: A Smartphone App to Improve Medication Adherence in Patients With Type 2 Diabetes in Asia: Feasibility Randomized Controlled Trial

Author

Bernhard Boehm, Zhilian Huang, Josip Car, Eberta Tan, Elaine Lum, and Peter Sloot

Subjects
Adult, Male, Health Informatics, Information technology, mobile phone apps, Surveys and Questionnaires, Humans, smartphone apps, Aged, Singapore, Original Paper, pilot study, Middle Aged, T58.5-58.64, Corrigenda and Addenda, Mobile Applications, Treatment Outcome, Diabetes Mellitus, Type 2, medication adherence, Feasibility Studies, feasibility trial, Female, Self Report, type 2 diabetes, Public aspects of medicine, RA1-1270
Abstract

Background The efficacy of smartphone apps for improving medication adherence in type 2 diabetes is not well studied in Asian populations. Objective This study aimed to determine the feasibility, acceptability, and clinical outcomes of using a smartphone app to improve medication adherence in a multiethnic Asian population with type 2 diabetes. Methods We block randomized 51 nonadherent and digitally literate patients with type 2 diabetes between the ages of 21 and 75 years into two treatment arms (control: usual care; intervention: usual care+Medisafe app) and followed them up for 12 weeks. Recruitment occurred at a public tertiary diabetes specialist outpatient center in Singapore. The intervention group received email reminders to complete online surveys monthly, while the control group only received an email reminder(s) at the end of the study. Barriers to medication adherence and self-appraisal of diabetes were assessed using the Adherence Starts with Knowledge-12 (ASK-12) and Appraisal of Diabetes Scale (ADS) questionnaires at baseline and poststudy in both groups. Perception toward medication adherence and app usage, attitude, and satisfaction were assessed in the intervention group during and after the follow-up period. Sociodemographic data were collected at baseline. Clinical data (ie, hemoglobin A1c, body mass index, low-density lipoprotein, high-density lipoprotein, and total cholesterol levels) were extracted from patients’ electronic medical records. Results A total of 51 (intervention group: 25 [49%]; control group: 26 [51%]) participants were randomized, of which 41 (intervention group: 22 [88.0%]; control group: 19 [73.1%]) completed the poststudy survey. The baseline-adjusted poststudy ASK-12 score was significantly lower in the intervention group than in the control group (mean difference: 4.7, P=.01). No changes were observed in the clinical outcomes. The average 12-week medication adherence rate of participants tracked by the app was between 38.3% and 100% in the intervention group. The majority (>80%) of the participants agreed that the app was easy to use and made them more adherent to their medication. Conclusions Our feasibility study showed that among medication-nonadherent patients with type 2 diabetes, a smartphone app intervention was acceptable, improved awareness of medication adherence, and reduced self-reported barriers to medication adherence, but did not improve clinical outcomes in a developed Asian setting.

Published
2020

12. Verkenning kennisbehoeftes van agrariërs t.a.v. natuurinclusieve landbouw en het reeds bestaande aanbod van deze kennis : waar is de match, de mismatch en hoe die te overbruggen

Author

Peter Sloot, Merel Hondebrink, Fogelina Cuperus, Jeroen Schütt, J. P. Wagenaar, Jelle Faber, Elsbeth Smit, Sabine van Rooij, Anne van Doorn, and Flavia Casu

Subjects
agri-environment schemes, grassland birds, landschapselementen, nature-inclusive agriculture, akkerranden, knowledge transfer, Biodiversity and Policy, OT Team Bedrijfssyst.onderz./Bodemkwaliteit, natuurinclusieve landbouw, weidevogels, circular agriculture, Economics, Biodiversiteit en Beleid, kennisoverdracht, kringlooplandbouw, agrarisch natuurbeheer, landscape elements, field margins
Published
2019

13. Preface

Author

Peter Sloot, Joao Rodrigues, Valeria Krzhizhanovskaya, and Jânio Monteiro

Published
2019
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15. Preface

Author

ALUISIO PINHEIRO, Pedro Pereira Rodrigues, Joao Rodrigues, Pedro Antonio Guil Asensio, Pedro Merino-Gomez, Fernando Silva, Pedro Ribeiro, Valeria Krzhizhanovskaya, Jânio Monteiro, and Peter Sloot

Published
2018
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18. The emergence of slums: A contemporary view on simulation models

Author

Michael Lees, Bharath M. Palavalli, Karin Pfeffer, M.A. Peter Sloot, Debraj Roy, and Computational Science Lab (IVI, FNWI)

Subjects
Economic growth, Environmental Engineering, Geographic information system, Latin Americans, business.industry, Ecological Modeling, Simulation modeling, Developing country, Informal settlements, Key factors, Research questions, Sociology, business, Software, Slum
Abstract

The existence of slums or informal settlements is common to most cities of developing countries. Its role as single housing delivery mechanism has seriously challenged the popular notion held by policy makers, planners and architects. Today informality is a paradigm of city making and economic growth in Africa, Asia and Latin America. This paper discusses the role of computer simulation models to understand the emergence and growth of slums in developing countries. We have identified the key factors influencing the growth of slums and formulated a standardized set of criteria for evaluating slum models. The review of existing computer simulation models designed to understand slum formation and expansion enabled us to define model requirements and to identify new research questions with respect to exploring the dynamics of slums.

Published
2014

21. A collaborative environment allowing clinical investigations on integrated biomedical databases

Author

Matthias, Assel, David, van de Vijver, Pieter, Libin, Kristof, Theys, Daniel, Harezlak, Breanndán, O Nualláin, Piotr, Nowakowski, Marian, Bubak, Anne-Mieke, Vandamme, Stijn, Imbrechts, Raphael, Sangeda, Tao, Jiang, Dineke, Frentz, and Peter, Sloot

Subjects
Access to Information, Systems Integration, User-Computer Interface, Biomedical Research, Databases as Topic, Drug Resistance, Computer Simulation, HIV Infections, Cooperative Behavior
Abstract

In order to perform clinical investigations on integrated biomedical data sets and to predict virological and epidemiological outcome, medical experts require an IT-based collaborative environment that provides them a user-friendly space for building and executing their complex studies and workflows on largely available and high-quality data repositories. In this paper, the authors introduce such a novel collaborative working environment a so-called virtual laboratory for clinicians and medical researchers, which allows users to interactively access and browse several biomedical research databases and re-use relevant data sets within own designed experiments. Firstly, technical details on the integration of relevant data resources into the virtual laboratory infrastructure and specifically developed user interfaces are briefly explained. The second part describes research possibilities for medical scientists including potential application fields and benefits as using the virtual laboratory functionalities for a particular exemplary study.

Published
2009

22. Multi-science decision support for HIV drug resistance treatment

Author

Peter, Sloot, Peter, Coveney, Marian T, Bubak, Anne-Mieke, Vandamme, Breanndán, O Nualláin, David, van de Vijver, and Charles, Boucher

Subjects
Europe, Computer Communication Networks, Drug Resistance, Multiple, Viral, Anti-HIV Agents, Artificial Intelligence, Computer Systems, Medical Informatics Computing, Humans, HIV Infections, Cooperative Behavior, Decision Support Systems, Clinical, Software
Abstract

The complete cascade from genome, proteome, metabolome, and physiome, to health forms multiscale, multiscience systems and crosses many orders of magnitude in temporal and spatial scales. The interactions between these systems create exquisite multitiered networks, with each component in nonlinear contact with many interaction partners. Understanding, quantifying, and handling this complexity is one of the biggest scientific challenges of our time. In this paper we argue that computer science in general, and Grid computing in particular, provide the language needed to study and understand these systems, and discuss a case study in decision support for HIV drug resistance treatment within the European ViroLab project.

Published
2008

23. Using HLA and Grid for Distributed Multiscale Simulations

Author

Rycerz, Katarzyna, Bubak, Marian, Peter Sloot, Wyrzykowski, R., Dongarra, J., Karczewski, K., Wasniewski, J., and Computational Science Lab (IVI, FNWI)

Subjects
Service (systems architecture), High-level architecture, Scale (ratio), Grid computing, Computer science, Multiphysics, Real-time computing, Management system, Grid, computer.software_genre, computer, Computational science
Abstract

Combining simulations of different scale in one application is non-trivial issue. This paper proposes solution that supports complex time interactions that can appear between elements of such applications. We show that High Level Architecture, especially its time management service can be efficiently used to distribute and communicate multiscale components. Grid HLA Management System (which was presented in our previous work [10]) is used to run HLA-based distributed simulation system on the Grid. The example application is build from simulation modules taken from Multiscale Multiphysics Scientific Environment (MUSE)[8], which is sequential simulation system designed for calculating behaviour of dense stellar systems like globular clusters and galactic nuclei.

Published
2008
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26. Grid resource selection by application benchmarking for computational haemodynamics applications

Author

Tirado-Ramos, A., Tsouloupas, G., Dikaiakos, M., Sloot, P., Sunderam, Vs, Vanalbada, Gd, Peter Sloot, Dongarra, Jj, Sunderam V.S., Albada G.D., Sloot P.M.A., Dongarra J.J., and Dikaiakos, Marios D. [0000-0002-4350-6058]

Subjects
Computational complexity, Benchmarking, Grid benchmarking, Grid infrastructure, Hemodynamics, Computer simulation, Biomedical engineering, Resource selection
Abstract

Grid benchmarking for improved computational resource selection can shed a light for improving the performance of computationally intensive applications. In this paper we report on a number of experiments with a biomedical parallel application to investigate the levels of performance offered by hardware resources distributed across a pan-European computational Grid network. We provide a number of performance measurements based on the iteration time per processor and communication delay between processors, for a blood flow simulation benchmark based on the lattice Boltzmann method. We have found that the performance results obtained from real application benchmarking are much more useful for running our biomedical application on a highly distributed grid infrastructure than the regular resource information provided by standard Grid information services to resource brokers. © Springer-Verlag Berlin Heidelberg 2005. 3514 534 543 Sponsors: Intel Corporation IBM Corporation Microsoft Research SGI Silicon Graphics Inc. Emory University Conference code: 65644 Cited By :8

Published
2005

27. Distributed, High-Performance and Grid Computing in Computational Biology : International Workshop, GCCB 2006, International Workshop, GCCB 2006, Eilat, Israel, January 21, 2007, Proceedings

Author

Werner Dubitzky, Assaf Schuster, Peter Sloot, Michael Schroeder, Mathilde Romberg, Werner Dubitzky, Assaf Schuster, Peter Sloot, Michael Schroeder, and Mathilde Romberg

Subjects
Computer systems, Computational grids (Computer systems)--Congresses, Bioinformatics--Congresses, Computational biology--Congresses
Abstract

The book constitutes the refereed proceedings of the International Workshop on Distributed, High-Performance and Grid Computing in Computational Biology, GCCB 2006, held in Eilat, Israel in January 2007 in conjunction with the 5th European Conference on Computational Biology, ECCB 2006. The 13 revised full papers presented were carefully reviewed and selected from many high quality submissions.

Published
2007

29. A Grid-Based Hiv Expert System.

Author

Peter Sloot, Alexander Boukhanovsky, Wilco Keulen, Alfredo Tirado-Ramos, and Charles Boucher

Abstract

Objectives.This paper addresses Grid-based integration and access of distributed data from infectious disease patient databases, literature on in-vitro and in-vivo pharmaceutical data, mutation databases, clinical trials, simulations and medical expert knowledge. Methods. Multivariate analyses combined with rule-based fuzzy logic are applied to the integrated data to provide ranking of patient-specific drugs. In addition, cellular automata-based simulations are used to predict the drug behaviour over time. Access to and integration of data is done through existing Internet servers and emerging Grid-based frameworks like Globus. Data presentation is done by standalone PC based software, Web-access and PDA roaming WAP access. The experiments were carried out on the DAS2, a Dutch Grid testbed. Results. The output of the problem-solving environment (PSE) consists of a prediction of the drug sensitivity of the virus, generated by comparing the viral genotype to a relational database which contains a large number of phenotype-genotype pairs.Conclusions. Artificial Intelligence and Grid technology are effectively used to abstract knowledge from the data and provide the physicians with adaptive interactive advice on treatment applied to drug resistant HIV. An important aspect of our research is to use a variety of statistical and numerical methods to identify relationships between HIV genetic sequences and antiviral resistance to investigate consistency of results. [ABSTRACT FROM AUTHOR]

Published
2005

32. Dynamic workflow in a grid enabled problem solving environment

Author

Zhao, Z., Belloum, A., Yakali, H., Peter Sloot, Hertzberger, B., School of Computer Engineering, and International Conference on Computer and Information Technology (5th : 2005 : Shanghai, China)

Abstract

In a Problem Solving Environment (PSE), a scientific workflow management system (SWMS) provides a meta environment for managing activities and data in scientific experiments, for prototyping experimental computing systems and for orchestrating the runtime system behaviour. A Grid infrastructure makes data and computing intensive experiments feasible in PSEs but also requires the management of workflow to support dynamics of the flow execution. A dynamic SWMS includes a human user in the runtime loop of a flow execution, and allows an engine to flexibly orchestrate a workflow according to the human decision and the runtime states of the environment. In this paper, we present our research in an ongoing project: Virtual Laboratory for e-Science (VL-e). An agent based solution is proposed to enhance an existing Grid enabled Problem Solving Environment framework called VLAM-G. The intelligence for problem solving strategies and for workflow orchestration is encapsulated as knowledge in two types of agents: study managers and scenario conductors.

34. A data model for analyzing user collaborations in workflow-driven e-science

Author

Altintas, I., Anand, M. K., Vuong, T. N., Bowers, S., Ludäscher, B., Peter Sloot, and Computational Science Lab (IVI, FNWI)

Abstract

Scientific discoveries are often the result of methodical execution of many interrelated scientific workflows, where workflows and datasets published by one set of users can be used by other users to perform subsequent analyses, leading to implicit or explicit collaboration. In this paper, we describe a data model for "collaborative provenance" that extends common workflow provenance models by introducing attributes for characterizing the nature of user collaborations as well as their strength (or weight). In addition, through the implementation of a real-world bioinformatics use case scenario and an associated collaborative provenance database, we demonstrate and evaluate the effectiveness of our model in understanding and analyzing user collaboration in scientific discoveries driven by scientific workflows. Key Words: Collaborative e-Science, user collaborations, scientific workflow systems, provenance, workflow runs, data publication, querying.

35. Dynamic interactions in HLA component model for multiscale simulations

Author

Rycerz, Katarzyna, Bubak, Marian, Sloot, Peter M. A., Bubak, M., Vanalbada, Gd, Dongarra, J., Peter Sloot, and Computational Science Lab (IVI, FNWI)

Subjects
Focus (computing), business.industry, Computer science, Data management, Distributed computing, Grid, computer.software_genre, High-level architecture, Grid computing, Composability, Component (UML), Architecture, business, computer, Reusability
Abstract

In this paper we present a High Level Architecture (HLA) component model, particularly suitable for distributed multiscale simulations. We also present a preliminary implementation of HLA components and the CompoHLA environment that supports setting up and managing multiscale simulations built in the described model. We propose to integrate solutions from High Level Architecture (such as advanced time and data management) with possibilities given by component technologies (such as reusability and composability) and the Grid (such as joining geographically distributed communities of scientists). This approach will allow users working on multiscale applications to more easily exchange and join the simulations already created. The particular focus of this paper is on the design of a HLA component. We show how to insert simulation logic into a component and make it possible to steer from outside its connections with other components. Its functionality is shown through example of multiscale simulation of dense stellar system.

36. Multi-science decision support for HIV drug resistance treatment

Author

Peter Sloot, Coveney, P., Bubak, M. T., Vandamme, A. -M, Nualláin, B. O., Vijver, D., Boucher, C., and Computational Science Lab (IVI, FNWI)

Abstract

The complete cascade from genome, proteome, metabolome, and physiome, to health forms multiscale, multiscience systems and crosses many orders of magnitude in temporal and spatial scales. The interactions between these systems create exquisite multitiered networks, with each component in nonlinear contact with many interaction partners. Understanding, quantifying, and handling this complexity is one of the biggest scientific challenges of our time. In this paper we argue that computer science in general, and Grid computing in particular, provide the language needed to study and understand these systems, and discuss a case study in decision support for HIV drug resistance treatment within the European ViroLab project.

38. Assessing the Performance of the SRR Loop Scheduler with Irregular Workloads

Author

Henrique Freitas, Márcio Castro, Jean-François Méhaut, Pedro Henrique Penna, François Broquedis, Patricia Della Mea Plentz, Eduardo C. Inacio, Universidade Federal de Santa Catarina = Federal University of Santa Catarina [Florianópolis] (UFSC), Pontifical Catholic University of Minas Gerais [Belo Horizonte], Compiler Optimization and Run-time Systems (CORSE), Inria Grenoble - Rhône-Alpes, Institut National de Recherche en Informatique et en Automatique (Inria)-Institut National de Recherche en Informatique et en Automatique (Inria)-Laboratoire d'Informatique de Grenoble (LIG ), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019])-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019]), STIC Amsud EnergySFE, Petros Koumoutsakos, Eleni Chatzi, Petros Koumoutsakos, Michael Lees, Valeria Krzhizhanovskaya, Jack Dongarra, Peter Sloot, European Project: 689772,H2020 Pilier Industrial Leadership,H2020-EUB-2015,HPC4E(2015), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP ), Université Grenoble Alpes [2016-2019] (UGA [2016-2019]), CAPES, FAPEMIG, FAPERGS and INRIA, Federal University of Santa Cararina (UFSC), Pontifical Catholic University of Minas Gerais (PUC Minas), Grenoble Institute of Technology (Grenoble INP), and University of Grenoble Alpes (UGA)

Subjects
Speedup, Computer science, 02 engineering and technology, Parallel computing, Energy Consumption, SRR, Scheduling (computing), Load Balancing, 0202 electrical engineering, electronic engineering, information engineering, DVFS, Loop Scheduling, General Environmental Science, 020203 distributed computing, Irregular Workloads, Kernel Benchmarking, Energy Saving, Workload, OpenMP, Energy consumption, Load balancing (computing), Loop scheduling, Kernel (image processing), Power Demand, Scalability, General Earth and Planetary Sciences, 020201 artificial intelligence & image processing, [INFO.INFO-DC]Computer Science [cs]/Distributed, Parallel, and Cluster Computing [cs.DC]
Abstract

The input workload of an irregular application must be evenly distributed amongits threads to enable cutting-edge performance. To address this need in OpenMP, several loopscheduling strategies were proposed. While having this ever-increasing number of strategies at dis-posal is helpful, it has become a non-trivial task to select the best one for a particular application.Nevertheless, this challenge becomes easier to be tackled when existing scheduling strategies areextensively evaluated. Therefore, in this paper, we present a performance and scalability eval-uation of the recently-proposed loop scheduling strategy named Smart Round-Robin (SRR). Todeliver a comprehensive analysis, we coupled a kernel benchmarking technique with several rigorousstatistical tools, and considered OpenMP’s Static and Dynamic loop schedulers as our baselines.Our results unveiled that SRR performs better on irregular applications with symmetric workloadsand coarse-grained parallelization, achieving up to 1.9x and 1.5x speedup over OpenMP’s Staticand Dynamic schedulers on synthetic kernels, respectively. On a N-Body Simulations applicationkernel, SRR delivered 2.48x better performance in contrast to OpenMP’s Dynamic scheduler.

Published
2017

39. Using Power Demand and Residual Load Imbalance in the Load Balancing to Save Energy of Parallel Systems

Author

Luiz Padoin, Edson, Navaux, Philippe, Méhaut, Jean-François, Universidade Regional do Noroeste do Estado do Sul [Ijuí] (UNIJUI), Instituto de Informática da UFRGS (UFRGS), Universidade Federal do Rio Grande do Sul [Porto Alegre] (UFRGS), Compiler Optimization and Run-time Systems (CORSE), Inria Grenoble - Rhône-Alpes, Institut National de Recherche en Informatique et en Automatique (Inria)-Institut National de Recherche en Informatique et en Automatique (Inria)-Laboratoire d'Informatique de Grenoble (LIG ), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019])-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019]), STIC Amsud EnergySFE, Petros Koumoutsakos, Eleni Chatzi, Petros Koumoutsakos, Michael Lees, Valeria Krzhizhanovskaya, Jack Dongarra, Peter Sloot, and European Project: 689772,H2020 Pilier Industrial Leadership,H2020-EUB-2015,HPC4E(2015)

Subjects
Power Demand, Energy Saving, Energy Consumption, DVFS, [INFO.INFO-DC]Computer Science [cs]/Distributed, Parallel, and Cluster Computing [cs.DC], Load Balancing
Abstract

International audience; The power consumption of the High Performance Computing (HPC) systems is an increasing concern as large-scale systems grow in size and, consequently, consume more energy. In response to this challenge, we have develop and evaluate new energy-aware load balancers to reduce the average power demand and save energy of parallel systems when scientific applications with imbalanced load are executed. Our load balancers combine dynamic load balancing with DVFS techniques in order to reduce the clock frequency of underloaded computing cores which experience some residual imbalance even after tasks are remapped. The results show that our load balancers present power reductions of 7.5% in average with the fine-grained variant that performs per-core DVFS, and of 18.75% with the coarse-grained variant that performs per-chip DVFS over real applications.

Published
2017

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