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Attila Kertész
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- affiliation: University of Szeged, Hungary
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2020 – today
- 2024
- [j38]Wilson Valdez Solis
, Juan Marcelo Parra Ullauri
Exploring the Synergy of Fog Computing, Blockchain, and Federated Learning for IoT Applications: A Systematic Literature Review. IEEE Access 12: 68015-68060 (2024) - [c58]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 - [c57]András Márkus, Valentin Daniel Hegedus, József Dániel Dombi, Attila Kertész:
Synergizing Fuzzy-based Task Offloading with Machine Learning-driven Forecasting for IoT. ICFEC 2024: 71-78 - 2023
- [j37]Hamza Baniata
Approaches to Overpower Proof-of-Work Blockchains Despite Minority. IEEE Access 11: 2952-2967 (2023) - [j36]Hamza Baniata
Distributed scalability tuning for evolutionary sharding optimization with Random-equivalent security in permissionless Blockchain. Internet Things 24: 100955 (2023) - [j35]András Márkus
Simulating IoT Workflows in DISSECT-CF-Fog. Sensors 23(3): 1294 (2023) - [c56]Wilson Valdez
Towards a Simulation as a Service Platform for the Cloud-to-Things Continuum. Euro-Par Workshops 2023: 65-75 - 2022
- [j34]Attila Kertész:
Block the Chain: Software Weapons of Fighting Against COVID-19. Computer 55(9): 43-53 (2022) - [j33]Hamza Baniata
DONS: Dynamic Optimized Neighbor Selection for smart blockchain networks. Future Gener. Comput. Syst. 130: 75-90 (2022) - [j32]Tamas Pflanzner
Latency Analysis of Blockchain-Based SSI Applications. Future Internet 14(10): 282 (2022) - [j31]Hamza Baniata
PriFoB: A Privacy-aware Fog-enhanced Blockchain-based system for Global Accreditation and Credential Verification. J. Netw. Comput. Appl. 205: 103440 (2022) - [c55]Hamza Baniata, Tamas Pflanzner, Zoltan Feher, Attila Kertész:
Latency Assessment of Blockchain-based SSI Applications Utilizing Hyperledger Indy. CLOSER 2022: 264-271 - [c54]Tamas Pflanzner, Peter Lajos Bodnar, Attila Kertész:
Performance Analysis of Blockchain Networks through Smart Contracts. WF-IoT 2022: 1-6 - 2021
- [j30]Attila Kertész
Preface. Acta Cybern. 25(2): 129 (2021) - [j29]Hamza Baniata
PF-BTS: A Privacy-Aware Fog-enhanced Blockchain-assisted task scheduling. Inf. Process. Manag. 58(1): 102393 (2021) - [j28]Hamza Baniata
FoBSim: an extensible open-source simulation tool for integrated fog-blockchain systems. PeerJ Comput. Sci. 7: e431 (2021) - [j27]Hamza Baniata
Assessing anthropogenic heat flux of public cloud data centers: current and future trends. PeerJ Comput. Sci. 7: e478 (2021) - [j26]András Márkus
Actuator behaviour modelling in IoT-Fog-Cloud simulation. PeerJ Comput. Sci. 7: e651 (2021) - [j25]Peter Brida
Smart Sensor Technologies for IoT. Sensors 21(17): 5890 (2021) - [c53]Hamza Baniata, Dragi Kimovski, Radu Prodan, Attila Kertész:
Towards Blockchain-based Smart Systems. CERCIRAS 2021 - [c52]András Márkus, Mate Biro, Attila Kertész:
Analysing IoT Applications with DISSECT-CF-Fog in Simulated Fog and Cloud Environments. CERCIRAS 2021 - [c51]András Márkus
Modelling Energy Consumption of IoT Devices in DISSECT-CF-Fog. CLOSER 2021: 320-327 - [c50]Attila Kertész
Consistency Analysis of Distributed Ledgers in Fog-Enhanced Blockchains. Euro-Par Workshops 2021: 393-404 - [c49]András Márkus
Location-aware Task Allocation Strategies for IoT-Fog-Cloud Environments. PDP 2021: 185-192 - 2020
- [j24]Ayca Kirimtat
Future Trends and Current State of Smart City Concepts: A Survey. IEEE Access 8: 86448-86467 (2020) - [j23]Hamza Baniata
A Survey on Blockchain-Fog Integration Approaches. IEEE Access 8: 102657-102668 (2020) - [j22]Biswajeeban Mishra
The Use of MQTT in M2M and IoT Systems: A Survey. IEEE Access 8: 201071-201086 (2020) - [j21]Hamza Baniata
GRAFT: A Model for Evaluating Actuator Systems in Terms of Force Production. Sensors 20(7): 1894 (2020) - [j20]András Márkus
A survey and taxonomy of simulation environments modelling fog computing. Simul. Model. Pract. Theory 101: 102042 (2020) - [c48]András Márkus, Peter Gacsi, Attila Kertész:
Develop or Dissipate Fogs? Evaluating an IoT Application in Fog and Cloud Simulations. CLOSER 2020: 193-203 - [c47]András Márkus
Investigating IoT Application Behaviour in Simulated Fog Environments. CLOSER (Selected Papers) 2020: 258-276 - [c46]Hamza Baniata
PF-BVM: A Privacy-aware Fog-enhanced Blockchain Validation Mechanism. CLOSER 2020: 430-439 - [c45]Hamza Baniata
A Privacy Preserving Model for Fog-enabled MCC systems using 5G Connection. FMEC 2020: 223-230
2010 – 2019
- 2019
- [j19]Attila Kertész:
Preface. Acta Cybern. 24(1): 1-3 (2019) - [j18]Gabor Kecskemeti
Cloud workload prediction based on workflow execution time discrepancies. Clust. Comput. 22(3): 737-755 (2019) - [j17]Attila Kertész
A Mobile IoT Device Simulator for IoT-Fog-Cloud Systems. J. Grid Comput. 17(3): 529-551 (2019) - [c44]Tamas Pflanzner
Designing an IoT-Cloud Gateway for the Internet of Living Things. CLOSER (Selected Papers) 2019: 23-41 - [c43]J. Hadabas, Miklos Hovari, Imre Vass
IoLT Smart Pot: An IoT-Cloud Solution for Monitoring Plant Growth in Greenhouses. CLOSER 2019: 144-152 - [c42]Gizem Gultekin Varkonyi, Attila Kertész
Privacy-awareness of Users in our Cloudy Smart World. FMEC 2019: 189-196 - [c41]Tamas Pflanzner
A Crawling Approach to Facilitate Open IoT Data Archiving and Reuse. IoTSMS 2019: 235-242 - [c40]Radhika Garg, Szilvia Varadi, Attila Kertész
Legal Considerations of IoT Applications in Fog and Cloud Environments. PDP 2019: 193-198 - [p5]G. Gultekin Varkonyi, Szilvia Varadi, Attila Kertész:
Legal Aspects of Operating IoT Applications in the Fog. Fog and Edge Computing 2019: 411-432 - 2018
- [j16]Dragi Kimovski
Distributed environment for efficient virtual machine image management in federated Cloud architectures. Concurr. Comput. Pract. Exp. 30(20) (2018) - [c39]Gabor Kecskemeti
Towards Pricing-Aware Consolidation Methods for Cloud Datacenters. CLOSER (Selected Papers) 2018: 152-167 - [c38]Gabor Kecskemeti, András Márkus, Attila Kertész:
Cost-efficient Datacentre Consolidation for Cloud Federations. CLOSER 2018: 213-220 - [c37]Tamas Pflanzner
A Private Gateway for Investigating IoT Data Management. CLOSER 2018: 526-532 - [c36]Tamas Pflanzner
SUMMON: Gathering smart city data to support IoT-Fog-Cloud simulations. FMEC 2018: 71-78 - [c35]Szilvia Varadi, G. Gultekin Varkonyi, Attila Kertész
Law and IoT: How to see things clearly in the Fog. FMEC 2018: 233-238 - [p4]Wojciech Burakowski
Traffic Management for Cloud Federation. Autonomous Control for a Reliable Internet of Services 2018: 269-312 - [p3]András Márkus
Efficient Simulation of IoT Cloud Use Cases. Autonomous Control for a Reliable Internet of Services 2018: 313-336 - [i2]Gabor Kecskemeti, Zsolt Németh, Attila Kertész, Rajiv Ranjan:
Cloud Workload Prediction based on Workflow Execution Time Discrepancies. CoRR abs/1803.06924 (2018) - 2017
- [j15]András Márkus
Cost-Aware IoT Extension of DISSECT-CF. Future Internet 9(3): 47 (2017) - [c34]Gabor Kecskemeti, Attila Kertész
Cloud Workload Prediction by Means of Simulations. Conf. Computing Frontiers 2017: 279-282 - [c33]András Márkus
Simulating IoT Cloud systems: A meteorological case study. FMEC 2017: 171-176 - [c32]Edua Eszter Kalmar, Attila Kertész
Investigating Operational Costs of IoT Cloud Applications. IISSC/CN4IoT 2017: 141-150 - [c31]András Márkus
Flexible Representation of IoT Sensors for Cloud Simulators. PDP 2017: 199-203 - [c30]Edua Eszter Kalmar, Attila Kertész
What Does I(o)T Cost? ICPE Companion 2017: 19-24 - 2016
- [j14]Attila Kertész
A Pliant-based Virtual Machine Scheduling Solution to Improve the Energy Efficiency of IaaS Clouds. J. Grid Comput. 14(1): 41-53 (2016) - [j13]Gábor Bacsó, Tamás Kis
A Set of Successive Job Allocation Models in Distributed Computing Infrastructures. J. Grid Comput. 14(2): 347-358 (2016) - [j12]Péter Kacsuk, Gabor Kecskemeti
Infrastructure Aware Scientific Workflows and Infrastructure Aware Workflow Managers in Science Gateways. J. Grid Comput. 14(4): 641-654 (2016) - [j11]Krisztián Karóczkai, Attila Kertész
A Meta-Brokering Framework for Science Gateways. J. Grid Comput. 14(4): 687-703 (2016) - [c29]Tamas Pflanzner, Roland Tornyai, Balazs Gibizer, Anita Schmidt, Attila Kertész:
Performance Analysis of an OpenStack Private Cloud. CLOSER (2) 2016: 282-289 - [c28]Gabor Kecskemeti
Towards a Methodology to Form Microservices from Monolithic Ones. Euro-Par Workshops 2016: 284-295 - [c27]Eszter E. Kalmar, Attila Kertész
Legal and Regulative Aspects of IoT Cloud Systems. FiCloud Workshops 2016: 15-20 - [c26]Tamas Pflanzner
MobIoTSim: Towards a Mobile IoT Device Simulator. FiCloud Workshops 2016: 21-27 - [c25]Gabor Kecskemeti
The ENTICE approach to decompose monolithic services into microservices. HPCS 2016: 591-596 - [c24]Tamas Pflanzner
A survey of IoT cloud providers. MIPRO 2016: 730-735 - 2015
- [j10]Attila Kertész
Interoperable Data Management Using Personal and Infrastructure Clouds. IEEE Cloud Comput. 2(1): 22-28 (2015) - [c23]Attila Kertész
Towards Enabling Scientific Workflows for the Future Internet of Things. IoT 360 (1) 2015: 399-408 - 2014
- [j9]Attila Kertész
A case study for biochemical application porting in european grids and clouds. Concurr. Comput. Pract. Exp. 26(10): 1730-1743 (2014) - [j8]Attila Kertész
An interoperable and self-adaptive approach for SLA-based service virtualization in heterogeneous Cloud environments. Future Gener. Comput. Syst. 32: 54-68 (2014) - [j7]Gábor Bacsó, Ádám Visegrádi, Attila Kertész
On Efficiency of Multi-job Grid Allocation Based on Statistical Trace Data. J. Grid Comput. 12(1): 169-186 (2014) - [c22]Attila Kertész
Interoperating Cloud Services for Enhanced Data Management. BDCloud 2014: 269-270 - [c21]Attila Benyi, József Dániel Dombi, Attila Kertész:
Energy-aware VM Scheduling in IaaS Clouds using Pliant Logic. CLOSER 2014: 519-526 - [c20]Roland Tornyai, Attila Kertész:
Towards Autonomous Data Sharing Across Personal Clouds. Euro-Par Workshops (2) 2014: 50-61 - [c19]Tibor Barat, Attila Kertész:
Biochemical Application Porting by Interoperating Personal and IaaS Clouds. Euro-Par Workshops (1) 2014: 275-286 - [c18]Attila Kertész
Multi-job Meta-brokering in Distributed Computing Infrastructures Using Pliant Logic. PDP 2014: 138-145 - 2013
- [j6]Kyriakos Kritikos
A survey on service quality description. ACM Comput. Surv. 46(1): 1:1-1:58 (2013) - [j5]Attila Kertész
Enhancing Federated Cloud Management with an Integrated Service Monitoring Approach. J. Grid Comput. 11(4): 699-720 (2013) - [c17]Tamas Pflanzner
Towards Data Interoperability of Cloud Infrastructures Using Cloud Storage Services. Euro-Par Workshops 2013: 85-94 - 2012
- [j4]Szilvia Varadi, Attila Kertész
The necessity of legally compliant data management in European cloud architectures. Comput. Law Secur. Rev. 28(5): 577-586 (2012) - [c16]Attila Kertész
A holistic service provisioning solution for Federated Cloud infrastructures. S-Cube@ICSE 2012: 25-26 - [c15]Attila Kertész
Integrated Monitoring Approach for Seamless Service Provisioning in Federated Clouds. PDP 2012: 567-574 - [c14]Gabor Kecskemeti
Facilitating Self-Adaptable Inter-cloud Management. PDP 2012: 575-582 - [i1]Attila Kertész, Szilvia Varadi:
Legal Issues Associated with Data Management in European Clouds. ERCIM News 2012(90) (2012) - 2011
- [b1]Attila Kertész:
Meta-brokering solution for establishing Grid Interoperability. University of Szeged, Hungary, 2011 - [c13]Attila Kertész, Gabor Kecskemeti, Ivona Brandic:
Autonomic SLA-Aware Service Virtualization for Distributed Systems. PDP 2011: 503-510 - 2010
- [j3]Attila Kertész
GMBS: A new middleware service for making grids interoperable. Future Gener. Comput. Syst. 26(4): 542-553 (2010) - [c12]Ivona Brandic
LAYSI: A Layered Approach for SLA-Violation Propagation in Self-Manageable Cloud Infrastructures. COMPSAC Workshops 2010: 365-370 - [c11]Attila Kertész
Gridifying the TINKER Conformer Generator Application for gLite Grid. Euro-Par Workshops 2010: 185-192 - [c10]Attila Kertész
Multi-level Brokering Solution for Interoperating Service and Desktop Grids. Euro-Par Workshops 2010: 271-278 - [c9]József Dániel Dombi, Attila Kertész:
Scheduling Solution for Grid Meta-Brokering using the Pliant System. ICAART (2) 2010: 46-53 - [c8]József Dániel Dombi, Attila Kertész
Advanced Scheduling Techniques with the Pliant System for High-Level Grid Brokering. ICAART (Revised Selected Papers) 2010: 173-185 - [p2]Françoise André, Ivona Brandic
Architectures & Infrastructure. S-CUBE Book 2010: 85-116 - [p1]Salima Benbernou, Ivona Brandic
Modeling and Negotiating Service Quality. S-CUBE Book 2010: 157-208
2000 – 2009
- 2009
- [j2]Attila Kertész, József Dániel Dombi, József Dombi:
Adaptive Scheduling Solution for Grid Meta-Brokering. Acta Cybern. 19(1): 105-123 (2009) - [j1]Attila Kertész
Grid Interoperability Solutions in Grid Resource Management. IEEE Syst. J. 3(1): 131-141 (2009) - [c7]Attila Kertész
An SLA-based resource virtualization approach for on-demand service provision. VTDC@ICAC 2009: 27-34 - [c6]Attila Kertész, Zsolt Németh:
Formal Aspects of Grid Brokering. PDMC 2009: 18-31 - 2008
- [c5]Kassian Plankensteiner, Radu Prodan, Thomas Fahringer, Attila Kertész, Péter Kacsuk:
Fault Detection, Prevention and Recovery in Current Grid Workflow Systems. CoreGRID Workshop on Grid Middleware 2008: 1-13 - [c4]Attila Kertész
Meta-Brokering Solutions for Expanding Grid Middleware Limitations. Euro-Par Workshops 2008: 199-210 - [c3]Péter Kacsuk, Attila Kertész
Can We Connect Existing Production Grids into a World Wide Grid?. VECPAR 2008: 109-122 - 2006
- [c2]Attila Kertész, Péter Kacsuk:
Grid Meta-Broker Architecture: Towards an Interoperable Grid Resource Brokering Service. Euro-Par Workshops 2006: 112-115 - [c1]Attila Kertész, Gergely Sipos, Péter Kacsuk:
Brokering Multi-grid Workflows in the P-GRADE Portal. Euro-Par Workshops 2006: 138-149
Coauthor Index
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last updated on 2024-10-31 20:17 CET by the dblp team
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