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Tamás Kiss
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2020 – today
- 2024
- [c55]Tamás Kiss, Amjad Ullah, Gábor Terstyánszky, Odej Kao, Sören Becker, Yiannis Verginadis, Antonis Michalas, Vlado Stankovski, Attila Kertész, Elisa Ricci, Jörn Altmann, Bernhard Egger, Francesco Tusa, József Kovács, Róbert Lovas:
Swarmchestrate: Towards a Fully Decentralised Framework for Orchestrating Applications in the Cloud-to-Edge Continuum. AINA (5) 2024: 89-100 - 2023
- [j41]Gabriele Pierantoni, Tamás Kiss
, Alexander Bolotov, Dimitrios Kagialis, James DesLauriers
Toward a reference architecture based science gateway framework with embedded e-learning support. Concurr. Comput. Pract. Exp. 35(18) (2023) - [j40]Amjad Ullah, Tamás Kiss
Orchestration in the Cloud-to-Things compute continuum: taxonomy, survey and future directions. J. Cloud Comput. 12(1): 135 (2023) - [c54]Tamás Kiss:
"Living in the Edge, Sailing Through the Cloud": Orchestrating Applications in the Edge to Cloud Computing ContinuumOrchestrating Applications in the Edge to Cloud Computing Continuum. IoTBDS 2023: 5-6 - [i4]Amjad Ullah, Tamás Kiss, József Kovács, Francesco Tusa, James Deslauriers
Orchestration in the Cloud-to-Things Compute Continuum: Taxonomy, Survey and Future Directions. CoRR abs/2309.02172 (2023) - 2022
- [j39]Valentina Zambrano
Industrial digitalization in the industry 4.0 era: Classification, reuse and authoring of digital models on Digital Twin platforms. Array 14: 100176 (2022) - [j38]Attila Csaba Marosi, Márk Emodi, Ákos Hajnal, Róbert Lovas
Interoperable Data Analytics Reference Architectures Empowering Digital-Twin-Aided Manufacturing. Future Internet 14(4): 114 (2022) - [c53]Raghubir Singh, József Kovács, Tamás Kiss
To Offload or Not? An Analysis of Big Data Offloading Strategies from Edge to Cloud. AIIoT 2022: 46-52 - [c52]Tamás Kiss
Supply Chain Simulation As A Service To Increase Adaptation Capability In Manufacturing. ANNSIM 2022: 863-876 - [c51]Jakob Reckenzaun
Transnational Testing, Operation and Certification of Automated Driving Systems: Perspective from testEPS and Central System EUREKA Projects. ICCVE 2022: 1-6 - [c50]James DesLauriers
Abstractions of Abstractions: Metadata to Infrastructure-as-Code. ICSA Companion 2022: 230-232 - [c49]Péter Szántó, Tamás Kiss, Károly János Sipos:
Energy-efficient AI at the Edge. MECO 2022: 1-6 - 2021
- [j37]Prasad Calyam
Measuring success for a future vision: Defining impact in science gateways/virtual research environments. Concurr. Comput. Pract. Exp. 33(19) (2021) - [j36]James DesLauriers
Cloud apps to-go: Cloud portability with TOSCA and MiCADO. Concurr. Comput. Pract. Exp. 33(19) (2021) - [j35]Amjad Ullah
MiCADO-Edge: Towards an Application-level Orchestrator for the Cloud-to-Edge Computing Continuum. J. Grid Comput. 19(4): 47 (2021) - 2020
- [j34]Damjan Temelkovski
Building Science Gateways for Analysing Molecular Docking Results Using a Generic Framework and Methodology. J. Grid Comput. 18(3): 529-546 (2020) - [j33]Gabriele Pierantoni, Tamás Kiss
Describing and Processing Topology and Quality of Service Parameters of Applications in the Cloud. J. Grid Comput. 18(4): 761-778 (2020) - [j32]Tamás Kiss
Automated Sleep Stage Scoring Using k-Nearest Neighbors Classifier. J. Open Source Softw. 5(53): 2377 (2020) - [c48]Abdelkhalik Mosa
Towards a Cloud Native Big Data Platform using MiCADO. ISPDC 2020: 118-125 - [c47]Simon J. E. Taylor
Innovations in Simulation: Experiences With Cloud-Based Simulation Experimentation. WSC 2020: 3164-3175
2010 – 2019
- 2019
- [j31]Tamás Kiss
MiCADO - Microservice-based Cloud Application-level Dynamic Orchestrator. Future Gener. Comput. Syst. 94: 937-946 (2019) - [j30]Damjan Temelkovski
Extending molecular docking desktop applications with cloud computing support and analysis of results. Future Gener. Comput. Syst. 97: 814-824 (2019) - [j29]Tamás Kiss
A cloud-agnostic queuing system to support the implementation of deadline-based application execution policies. Future Gener. Comput. Syst. 101: 99-111 (2019) - [j28]Simon J. E. Taylor
Enabling Cloud-Based Computational Fluid Dynamics With a Platform-as-a-Service Solution. IEEE Trans. Ind. Informatics 15(1): 85-94 (2019) - [c46]James Deslauriers, Tamás Kiss, Gabriele Pierantoni, Gregoire Gesmier, Gábor Terstyánszky:
Enabling Modular Design of an Application-Level Auto-Scaling and Orchestration Framework using TOSCA-based Application Description Templates. IWSG 2019 - [c45]Anastasia Anagnostou, Simon J. E. Taylor
Towards a Deadline-Based Simulation Experimentation Framework Using Micro-Services Auto-Scaling Approach. WSC 2019: 2749-2758 - [e3]Sandra Gesing, Krzysztof Kurowski, Tamás Kiss:
Proceedings of the 9th International Workshop on Science Gateways, Poznań, Poland, 19-21 June, 2017. CEUR Workshop Proceedings 2363, CEUR-WS.org 2019 [contents] - 2018
- [j27]Simon J. E. Taylor
The CloudSME simulation platform and its applications: A generic multi-cloud platform for developing and executing commercial cloud-based simulations. Future Gener. Comput. Syst. 88: 524-539 (2018) - [c44]Osama Abu Oun, Tamás Kiss:
Job-queuing and Auto-scaling in Container-based Cloud Environments. IWSG 2018 - [c43]Gabriele Pierantoni, Tamás Kiss, Gábor Terstyánszky, Jose Manuel Martin Rapun, Gregoire Gesmier, James Deslauriers:
Flexible Deployment of Social Media Analysis Tools. IWSG 2018 - [c42]Damjan Temelkovski, Tamás Kiss, Gábor Terstyánszky:
A Generic Framework and Methodology for Implementing Science Gateways for Analysing Molecular Docking Results. IWSG 2018 - [c41]Tamás Kiss
Scalable multi-cloud platform to support industry and scientific applications. MIPRO 2018: 150-154 - 2017
- [j26]Takumi Matsuzawa
Multi-scale modeling of altered synaptic plasticity related to Amyloid β effects. Neural Networks 93: 230-239 (2017) - [c40]Gabriele Pierantoni, Tamás Kiss, Gábor Terstyánszky:
Towards Cloud Application Description Templates Supporting Quality of Service. IWSG 2017 - [c39]Damjan Temelkovski, Tamás Kiss, Gábor Terstyánszky:
Molecular Docking with Raccoon2 on Clouds: Extending Desktop Applications with Cloud Computing. IWSG 2017 - 2016
- [j25]Shashank Gugnani, Carlos Blanco
Extending Science Gateway Frameworks to Support Big Data Applications in the Cloud. J. Grid Comput. 14(4): 589-601 (2016) - [j24]Junaid Arshad, Gábor Terstyánszky, Tamás Kiss
A Formal Approach to Support Interoperability in Scientific Meta-workflows. J. Grid Comput. 14(4): 655-671 (2016) - [j23]Junaid Arshad, Alexander Hoffmann, Sandra Gesing, Richard Grunzke, Jens Krüger
Multi-level meta-workflows: new concept for regularly occurring tasks in quantum chemistry. J. Cheminformatics 8(1): 58:1-58:17 (2016) - [c38]Gábor Terstyánszky, Tamás Kiss
Validating Scanned Foot Images and Designing Customized Insoles on the Cloud. HICSS 2016: 3288-3296 - [c37]Hannu Visti, Tamás Kiss, Gábor Terstyánszky, Gregoire Gesmier, Stephen C. Winter:
MiCADO - Towards a Microservice-based Cloud Application-level Dynamic Orchestrator. IWSG 2016 - [i3]Tamás Kiss
From science gateways to commercial solutions. PeerJ Prepr. 4: e2504 (2016) - [i2]Gábor Terstyánszky, Tamás Kiss
Simulating business processes of manufacturing SMEs on the cloud. PeerJ Prepr. 4: e2509 (2016) - [i1]Hannu Visti, Tamás Kiss, Gábor Terstyánszky, Gregoire Gesmier, Stephen C. Winter:
MiCADO - Towards a microservice-based cloud application-level dynamic orchestrator. PeerJ Prepr. 4: e2536 (2016) - 2015
- [j22]Nancy Wilkins-Diehr, Sandra Gesing, Tamás Kiss
Science gateway workshops 2013 special issue conference publications. Concurr. Comput. Pract. Exp. 27(2): 253-257 (2015) - [c36]Tamás Kiss
Business models for cloud computing: experiences from developing modeling & simulation as a service applications in industry. WSC 2015: 2656-2667 - 2014
- [j21]Tamás Kiss
Large-scale virtual screening experiments on Windows Azure-based cloud resources. Concurr. Comput. Pract. Exp. 26(10): 1760-1770 (2014) - [j20]Gábor Terstyánszky, Tamas Kukla, Tamás Kiss
Enabling scientific workflow sharing through coarse-grained interoperability. Future Gener. Comput. Syst. 37: 46-59 (2014) - [j19]Miklós Erdélyi, András A. Benczúr, Bálint Daróczy, András Garzó, Tamás Kiss, Dávid Siklósi:
The Classification Power of Web Features. Internet Math. 10(3-4): 421-457 (2014) - [j18]Stephen C. Winter, Christopher J. Reynolds, Tamás Kiss
Buttressing volatile desktop grids with cloud resources within a reconfigurable environment service for workflow orchestration. J. Cloud Comput. 3: 1 (2014) - [c35]Gábor Terstyánszky, Tamás Kiss
Analyzing and Modeling of Medical Data on Distributed Computing Infrastructures. HICSS 2014: 2918-2927 - [c34]Róbert Pálovics, András A. Benczúr, Levente Kocsis, Tamás Kiss, Erzsébet Frigó:
Exploiting temporal influence in online recommendation. RecSys 2014: 273-280 - [c33]Simon J. E. Taylor, Tamás Kiss, Gábor Terstyánszky, Péter Kacsuk, Nicola Fantini:
Cloud computing for simulation in manufacturing and engineering: introducing the CloudSME simulation platform. SpringSim (ANSS) 2014: 12 - [c32]Simon J. E. Taylor
A tutorial on cloud computing for agent-based modeling & simulation with repast. WSC 2014: 192-206 - [c31]Simon J. E. Taylor
Investigating the speedup of systems biology simulation using the sztaki desktop grid. WSC 2014: 2774-2785 - [p5]Tamás Kiss
Developing Science Gateways at Various Levels of Granularity Using WS-PGRADE/gUSE. Science Gateways for Distributed Computing Infrastructures 2014: 111-122 - [p4]Gábor Terstyánszky, Edward Michniak, Tamás Kiss
Sharing Science Gateway Artefacts Through Repositories. Science Gateways for Distributed Computing Infrastructures 2014: 123-135 - [p3]Sílvia Delgado Olabarriaga, Ammar Benabdelkader, Matthan W. A. Caan, Mohammad Mahdi Jaghoori, Jens Krüger, Luis de la Garza, Christopher Mohr, Benjamin Schubert, Anatoli Danezi, Tamás Kiss
WS-PGRADE/gUSE-Based Science Gateways in Teaching. Science Gateways for Distributed Computing Infrastructures 2014: 223-234 - [p2]Tamás Kiss
WS-PGRADE/gUSE in European Projects. Science Gateways for Distributed Computing Infrastructures 2014: 235-254 - [p1]Tamás Kiss
Commercial Use of WS-PGRADE/gUSE. Science Gateways for Distributed Computing Infrastructures 2014: 271-286 - 2013
- [c30]Sandra Gesing, Malcolm P. Atkinson, Iraklis A. Klampanos, Michelle Galea, Michael R. Berthold, Roberto Barbera, Diego Scardaci, Gábor Terstyánszky, Tamás Kiss
The demand for consistent web-based workflow editors. WORKS@SC 2013: 112-123 - [c29]András Garzó, Bálint Daróczy, Tamás Kiss, Dávid Siklósi, András A. Benczúr:
Cross-lingual web spam classification. WWW (Companion Volume) 2013: 1149-1156 - [e2]Tamás Kiss:
Proceedings of the 5th International Workshop on Science Gateways, Zurich, Switzerland, 3-5 June, 2013. CEUR Workshop Proceedings 993, CEUR-WS.org 2013 [contents] - 2012
- [b1]Tamás Kiss:
Making distributed computing infrastructures interoperable and accessible for e-scientists at the level of computational workflows. University of Westminster, London, UK, 2012 - [j17]Tamás Kiss
Science Gateways for the Broader Take-up of Distributed Computing Infrastructures. J. Grid Comput. 10(4): 599-600 (2012) - [c28]Gábor Terstyánszky, Tamás Kiss
Application Repository and Science Gateway for Running Molecular Docking and Dynamics Simulations. HealthGrid 2012: 152-161 - 2011
- [c27]Christopher J. Reynolds, Stephen C. Winter, Gábor Terstyánszky, Tamás Kiss
Scientific Workflow Makespan Reduction through Cloud Augmented Desktop Grids. CloudCom 2011: 18-23 - [c26]Simon J. E. Taylor
Distributed computing and modeling & simulation: speeding up simulations and creating large models. WSC 2011: 161-175 - [e1]Gábor Terstyánszky, Tamás Kiss:
Proceedings of the 3rd International Workshop on Science Gateways for Life Sciences, London, United Kingdom, June 8-10, 2011. CEUR Workshop Proceedings 819, CEUR-WS.org 2011 [contents] - 2010
- [j16]Tamás Kiss
Parameter Sweep Workflows for Modelling Carbohydrate Recognition. J. Grid Comput. 8(4): 587-601 (2010)
2000 – 2009
- 2009
- [j15]Dávid Samu
Robust path integration in the entorhinal grid cell system with hippocampal feed-back. Biol. Cybern. 101(1): 19-34 (2009) - [j14]Charles W. Fox, Mark D. Humphries
Technical integration of hippocampus, basal ganglia and physical models for spatial navigation. Frontiers Neuroinformatics 3: 6 (2009) - [j13]Tamás Kiss
Achieving Interoperation of Grid Data Resources via Workflow Level Integration. J. Grid Comput. 7(3): 355-374 (2009) - [j12]Zsófia Huhn, Zoltán Somogyvári
Distance coding strategies based on the entorhinal grid cell system. Neural Networks 22(5-6): 536-543 (2009) - [j11]Balázs Ujfalussy, Tamás Kiss
Parallel Computational Subunits in Dentate Granule Cells Generate Multiple Place Fields. PLoS Comput. Biol. 5(9) (2009) - [c25]Zsófia Huhn, Zoltán Somogyvári
Extraction of distance information from the activity of entorhinal grid cells: a model study. IJCNN 2009: 1298-1303 - [c24]Bálint Daróczy, Dávid Nemeskey, István Petrás, András A. Benczúr, Tamás Kiss:
SZTAKI @ TRECVID 2009. TRECVID 2009 - [c23]Miklós Kurucz, Dávid Siklósi, István Bíró, Péter Csizsek, Zsolt Fekete, Róbert Iwatt, Tamás Kiss, Adrienn Szabó:
KDD Cup 2009 @ Budapest: feature partitioning and boosting. KDD Cup 2009: 65-75 - 2008
- [j10]Péter Kacsuk, Tamás Kiss
Solving the grid interoperability problem by P-GRADE portal at workflow level. Future Gener. Comput. Syst. 24(7): 744-751 (2008) - [j9]Andrzej Tarczynski
Application of Grid computing for designing a class of optimal periodic nonuniform sampling sequences. Future Gener. Comput. Syst. 24(7): 763-773 (2008) - [j8]Zoltán Balaton, Zoltán Farkas, Gabor Gombás, Péter Kacsuk, Róbert Lovas
EdgES: the Common Boundary between Service and Desktop Grids. Parallel Process. Lett. 18(3): 433-445 (2008) - [c22]Tamás Kiss
Workflow Level Interoperation of Grid Data Resources. CCGRID 2008: 194-201 - [c21]Gilles Fedak, Haiwu He, Oleg Lodygensky, Zoltán Balaton, Zoltán Farkas, Gabor Gombás, Péter Kacsuk, Róbert Lovas
EDGeS: A Bridge between Desktop Grids and Service Grids. ChinaGrid 2008: 3-9 - [c20]Zoltán Balaton, Zoltán Farkas, Gabor Gombás, Péter Kacsuk, Róbert Lovas, Csaba Attila Marosi, Gábor Terstyánszky, Tamás Kiss
EDGeS: The Common Boundary Between Service And Desktop Grids. CoreGRID Integration Workshop 2008: 37-48 - [c19]Gabor Kecskemeti
Automatic Service Deployment Using Virtualisation. PDP 2008: 628-635 - [c18]Balázs Ujfalussy, Péter Erös, Zoltán Somogyvári
Episodes in Space: A Modeling Study of Hippocampal Place Representation. SAB 2008: 123-136 - [c17]Péter Kacsuk, Attila Kertész
Can We Connect Existing Production Grids into a World Wide Grid?. VECPAR 2008: 109-122 - 2007
- [j7]Miklós Kurucz, András A. Benczúr, Tamás Kiss, István Nagy, Adrienn Szabó, Balázs Torma:
KDD Cup 2007 task 1 winner report. SIGKDD Explor. 9(2): 53-56 (2007) - [c16]Tamás Kiss
Utilizing Heterogeneous Data Sources in Computational Grid Workflows. CoreGRID Workshop - Making Grids Work 2007: 225-236 - [c15]Péter Kacsuk, Zoltán Farkas, Gergely Sipos, Gabor Hermann, Tamás Kiss
Supporting Workflow-level PS Applications by the P-GRADE Grid portal. CoreGRID 2007: 253-263 - [c14]Csaba Attila Marosi, Gabor Gombás, Zoltán Balaton, Péter Kacsuk, Tamás Kiss
Sztaki Desktop Grid: Building a Scalable, Secure Platform for Desktop Grid Computing. CoreGRID Workshop - Making Grids Work 2007: 365-376 - [c13]Zoltán Balaton, Gabor Gombás, Péter Kacsuk, Adam Kornafeld, József Kovács
SZTAKI Desktop Grid: a Modular and Scalable Way of Building Large Computing Grids. IPDPS 2007: 1-8 - 2006
- [j6]Tamás Kiss
Modeling hippocampal theta oscillation: Applications in neuropharmacology and robot navigation. Int. J. Intell. Syst. 21(9): 903-917 (2006) - [j5]Balázs Ujfalussy, Tamás Kiss
How do glutamatergic and GABAergic cells contribute to synchronization in the medial septum? J. Comput. Neurosci. 21(3): 343-357 (2006) - [c12]Luigi Bitonti, Tamás Kiss
Dynamic testing of legacy code resources on the grid. Conf. Computing Frontiers 2006: 261-268 - [c11]Gábor Terstyánszky, Tamás Kiss
Service-Oriented Production Grids and User Support. GRID 2006: 323-324 - [c10]Péter Kacsuk, Norbert Podhorszki, Tamás Kiss
Scalable Desktop Grid System. VECPAR 2006: 27-38 - 2005
- [j4]Thierry Delaitre, Tamás Kiss
GEMLCA: Running Legacy Code Applications as Grid Services. J. Grid Comput. 3(1-2): 75-90 (2005) - [j3]Péter Érdi, Zsófia Huhn, Tamás Kiss
Hippocampal theta rhythms from a computational perspective: Code generation, mood regulation and navigation. Neural Networks 18(9): 1202-1211 (2005) - [c9]Ariel Goyeneche, Tamás Kiss
Experiences with Deploying Legacy Code Applications as Grid Services Using GEMLCA, . EGC 2005: 851-860 - [c8]Tamás Kiss
Legacy code support for production grids. GRID 2005: 278-283 - [c7]Gábor Terstyánszky, Thierry Delaitre, Ariel Goyeneche, Tamás Kiss
Security Mechanisms for Legacy Code Applications in GT3 Environment. PDP 2005: 220-226 - 2004
- [c6]Thierry Delaitre, Ariel Goyeneche, Tamás Kiss, Gábor Terstyánszky, Noam Weingarten:
Traffic simulation in P-GRADE as a Grid service. DAPSYS 2004: 129-136 - [c5]Tamás Kiss, Livia Kacsukne Bruckner:
Grid Solution for e-marketplaces integrated with Logistics. DAPSYS 2004: 155-164 - [c4]Thierry Delaitre, Ariel Goyeneche, Péter Kacsuk, Tamás Kiss
GEMLCA: Grid Execution Management for Legacy Code Architecture Design. EUROMICRO 2004: 477-483 - [c3]Péter Kacsuk, Ariel Goyeneche, Thierry Delaitre, Tamás Kiss
High-Level Grid Application Environment to Use Legacy Codes as OGSA Grid Services. GRID 2004: 428-435 - [c2]Thierry Delaitre, Ariel Goyeneche, Tamás Kiss
Publishing and Executing Parallel Legacy Code Using an OGSI Grid Service. ICCSA (2) 2004: 30-36 - 2001
- [j2]Gergo Orbán
Hippocampal rhythm generation: Gamma-related theta-frequency resonance in CA3 interneurons. Biol. Cybern. 84(2): 123-132 (2001) - [j1]Tamás Kiss
Intrahippocampal gamma and theta rhythm generation in a network model of inhibitory interneurons. Neurocomputing 38-40: 713-719 (2001) - [c1]Péter Érdi, Tamás Kiss:
The Complexity of the Brain: Structural, Functional, and Dynamic Modules. Emergent Neural Computational Architectures Based on Neuroscience 2001: 203-211
Coauthor Index
James DesLauriers
aka: James Deslauriers
aka: James Deslauriers
[c55] [c52] [j36] [j34] [j33] [c48] [c47] [j31] [j30] [j29] [j28] [c46] [c45] [j27] [c43] [c42] [c40] [c39] [j25] [j24] [j23] [c38] [c37] [i3] [i2] [i1] [j21] [j20] [j18] [c35] [c33] [c32] [p5] [p4] [c30] [c28] [c27] [e1] [j16] [j9] [j8] [c22] [c21] [c20] [c19] [c16] [c12] [c11] [j4] [c9] [c8] [c7] [c6] [c4]
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