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2020 – today
- 2024
[c70]Michal Töpfer, Danylo Khalyeyev, Tomás Bures, Petr Hnetynka, Frantisek Plásil:
How Well Do LLMs Understand DEECo Ensemble-Based Component Architectures. ISoLA (2) 2024: 208-223- 2023
- [j18]Maximilian Walter
, Sebastian Hahner, Tomás Bures, Petr Hnetynka, Robert Heinrich, Ralf H. Reussner:
Architecture-based attack propagation and variation analysis for identifying confidentiality issues in Industry 4.0. Autom. 71(6): 443-452 (2023) - [j17]Michal Töpfer, Milad Abdullah, Tomás Bures, Petr Hnetynka, Martin Krulis:
Machine-learning abstractions for component-based self-optimizing systems. Int. J. Softw. Tools Technol. Transf. 25(5): 717-731 (2023) - [j16]Tomás Bures, Petr Hnetynka, Martin Krulis, Frantisek Plásil, Danylo Khalyeyev, Sebastian Hahner, Stephan Seifermann, Maximilian Walter, Robert Heinrich:
Generating adaptation rule-specific neural networks. Int. J. Softw. Tools Technol. Transf. 25(5): 733-746 (2023) - [c69]Michal Töpfer, Frantisek Plásil, Tomás Bures, Petr Hnetynka, Martin Krulis, Danny Weyns:
Online ML Self-adaptation in Face of Traps. ACSOS 2023: 57-66 - [c68]Danylo Khalyeyev, Tomás Bures, Petr Hnetynka:
Towards a Reference Component Model of Edge-Cloud Continuum. ICSA-C 2023: 91-95 - [c67]Sebastian Hahner, Tizian Bitschi, Maximilian Walter, Tomás Bures, Petr Hnetynka, Robert Heinrich:
Model-based Confidentiality Analysis under Uncertainty. ICSA-C 2023: 256-263 - [c66]Petr Hnetynka, Martin Krulis, Michal Töpfer, Tomás Bures:
Modeling Machine Learning Concerns in Collective Adaptive Systems. MODELSWARD 2023: 55-62 - [i7]Danylo Khalyeyev, Tomás Bures, Petr Hnetynka:
Towards characterization of edge-cloud continuum. CoRR abs/2309.05416 (2023) - [i6]Michal Töpfer, Frantisek Plásil, Tomás Bures, Petr Hnetynka, Martin Krulis, Danny Weyns:
Online ML Self-adaptation in Face of Traps. CoRR abs/2309.05805 (2023) - [i5]Michal Töpfer, Milad Abdullah, Tomás Bures, Petr Hnetynka, Martin Krulis:
Ensemble-based modeling abstractions for modern self-optimizing systems. CoRR abs/2309.05823 (2023) - 2022
- [c65]Michal Töpfer, Milad Abdullah, Martin Krulis, Tomás Bures, Petr Hnetynka:
ML-DEECo: a Machine-Learning-Enabled Framework for Self-organizing Components. ACSOS-C 2022: 66-69 - [c64]Danylo Khalyeyev, Tomás Bures, Petr Hnetynka:
Towards Characterization of Edge-Cloud Continuum. ECSA (Tracks and Workshops) 2022: 215-230 - [c63]Milad Abdullah, Michal Töpfer, Tomás Bures, Petr Hnetynka, Martin Krulis, Frantisek Plásil:
Introducing Estimators - Abstraction for Easy ML Employment in Self-adaptive Architectures. ECSA (Tracks and Workshops) 2022: 370-385 - [c62]Jan Pacovský, Petr Hnetynka, Martin Krulis:
Generalization of Machine-Learning Adaptation in Ensemble-Based Self-adaptive Systems. ECSA (Tracks and Workshops) 2022: 386-401 - [c61]Milad Abdullah, Lubomír Bulej, Tomás Bures, Petr Hnetynka, Vojtech Horký, Petr Tuma:
Reducing Experiment Costs in Automated Software Performance Regression Detection. SEAA 2022: 56-59 - [c60]Nicolas Boltz, Sebastian Hahner, Maximilian Walter, Stephan Seifermann, Robert Heinrich, Tomás Bures, Petr Hnetynka:
Handling Environmental Uncertainty in Design Time Access Control Analysis. SEAA 2022: 382-389 - [c59]Tomás Bures, Petr Hnetynka, Martin Krulis, Frantisek Plásil, Danylo Khalyeyev, Sebastian Hahner, Stephan Seifermann, Maximilian Walter, Robert Heinrich:
Attuning Adaptation Rules via a Rule-Specific Neural Network. ISoLA (3) 2022: 215-230 - [c58]Michal Töpfer, Milad Abdullah, Tomás Bures, Petr Hnetynka, Martin Krulis:
Ensemble-Based Modeling Abstractions for Modern Self-optimizing Systems. ISoLA (3) 2022: 318-334 - [c57]Tomás Bures, Petr Hnetynka, Martin Krulis, Jan Pacovský:
Towards Model-driven Fuzzification of Adaptive Systems Specification. MODELSWARD 2022: 336-343 - [c56]Martin Krulis, Tomás Bures, Petr Hnetynka:
Simdex: A Simulator of a Real Self-adaptive job-dispatching System Backend. SEAMS 2022: 167-173 - [p4]Robert Heinrich, Stephan Seifermann, Maximilian Walter, Sebastian Hahner, Ralf H. Reussner, Tomás Bures, Petr Hnetynka, Jan Pacovský:
Dynamic Access Control in Industry 4.0 Systems. Digital Transformation 2022: 143-170 - 2021
- [j15]Lubomír Bulej, Tomás Bures, Adam Filandr, Petr Hnetynka, Iveta Hnetynková, Jan Pacovsky, Gabor Sandor, Ilias Gerostathopoulos:
Managing latency in edge-cloud environment. J. Syst. Softw. 172: 110872 (2021) - [j14]Tomás Bures, Petr Hnetynka, Frantisek Plásil, Dominik Skoda, Jan Kofron, Rima Al Ali, Ilias Gerostathopoulos:
Targeting uncertainty in smart CPS by confidence-based logic. J. Syst. Softw. 181: 111065 (2021) - [c55]Maximilian Walter, Sebastian Hahner, Stephan Seifermann, Tomás Bures, Petr Hnetynka, Jan Pacovský, Robert Heinrich:
Architectural Optimization for Confidentiality Under Structural Uncertainty. ECSA (Tracks and Workshops) 2021: 309-332 - [c54]Lubomír Bulej, Tomás Bures, Petr Hnetynka, Danylo Khalyeyev:
Self-adaptive K8S Cloud Controller for Time-sensitive Applications. SEAA 2021: 166-169 - [c53]Tomás Bures, Ilias Gerostathopoulos, Petr Hnetynka, Stephan Seifermann, Maximilian Walter, Robert Heinrich:
Aspect-Oriented Adaptation of Access Control Rules. SEAA 2021: 363-370 - [c52]Sebastian Hahner, Stephan Seifermann, Robert Heinrich, Maximilian Walter, Tomás Bures, Petr Hnetynka:
Modeling Data Flow Constraints for Design-Time Confidentiality Analyses. ICSA Companion 2021: 15-21 - [i4]Tomás Bures, Ilias Gerostathopoulos, Petr Hnetynka, Jan Pacovský:
Forming Ensembles at Runtime: A Machine Learning Approach. CoRR abs/2104.14848 (2021) - [i3]Tomás Bures, Petr Hnetynka, Martin Krulis, Danylo Khalyeyev, Sebastian Hahner, Stephan Seifermann, Maximilian Walter, Robert Heinrich:
Towards fuzzification of adaptation rules in self-adaptive architectures. CoRR abs/2112.09468 (2021) - 2020
- [j13]Malte Reimann, Stephan Seifermann, Maximilian Walter, Robert Heinrich, Tomás Bures, Petr Hnetynka:
Towards Language-Agnostic Reuse of Palladio Quality Analyses. Softwaretechnik-Trends 40(3): 46-48 (2020) - [j12]Tomás Bures, Ilias Gerostathopoulos, Petr Hnetynka, Frantisek Plásil, Filip Krijt, Jirí Vinárek, Jan Kofron:
A language and framework for dynamic component ensembles in smart systems. Int. J. Softw. Tools Technol. Transf. 22(4): 497-509 (2020) - [j11]Rima Al Ali, Tomás Bures, Petr Hnetynka, Jan Matejek, Frantisek Plásil, Jirí Vinárek:
Toward autonomically composable and context-dependent access control specification through ensembles. Int. J. Softw. Tools Technol. Transf. 22(4): 511-522 (2020) - [c51]Lubomír Bulej, Tomás Bures, Petr Hnetynka, Václav Camra, Petr Siegl, Michal Töpfer:
IVIS: Highly customizable framework for visualization and processing of IoT data. SEAA 2020: 585-588 - [c50]Freek van den Berg, Václav Camra, Martijn Hendriks, Marc Geilen, Petr Hnetynka, Fernando Manteca, Pablo Sánchez, Tomás Bures, Twan Basten:
QRML: A Component Language and Toolset for Quality and Resource Management. FDL 2020: 1-8 - [c49]Petr Hnetynka, Tomás Bures, Ilias Gerostathopoulos, Jan Pacovsky:
Using component ensembles for modeling autonomic component collaboration in smart farming. SEAMS@ICSE 2020: 156-162 - [c48]Tomás Bures, Petr Hnetynka, Robert Heinrich, Stephan Seifermann, Maximilian Walter:
Capturing Dynamicity and Uncertainty in Security and Trust via Situational Patterns. ISoLA (2) 2020: 295-310 - [c47]Tomás Bures, Ilias Gerostathopoulos, Petr Hnetynka, Jan Pacovsky:
Forming Ensembles at Runtime: A Machine Learning Approach. ISoLA (2) 2020: 440-456 - [i2]Lubomír Bulej, Tomás Bures, Adam Filandr, Petr Hnetynka, Iveta Hnetynková, Jan Pacovsky, Gabor Sandor, Ilias Gerostathopoulos:
Managing Latency in Edge-Cloud Environment. CoRR abs/2011.11450 (2020)
2010 – 2019
- 2019
- [c46]Rima Al Ali, Petr Hnetynka, Jiri Havlik, Vlastimil Krivka, Robert Heinrich, Stephan Seifermann, Maximilian Walter, Adrian Juan Verdejo:
Dynamic security rules for legacy systems. ECSA (Companion) 2019: 277-284 - [p3]Vladimír Matena, Tomás Bures, Ilias Gerostathopoulos, Petr Hnetynka:
Experimenting with Adaptation in Smart Cyber-Physical Systems: A Model Problem and Testbed. Engineering Adaptive Software Systems 2019: 149-169 - 2018
- [c45]Petr Hnetynka, Petr Kubát, Rima Al Ali, Ilias Gerostathopoulos, Danylo Khalyeyev:
Guaranteed latency applications in edge-cloud environment. ECSA (Companion) 2018: 43:1-43:4 - [c44]Rima Al Ali, Robert Heinrich, Petr Hnetynka, Adrian Juan Verdejo, Stephan Seifermann, Maximilian Walter:
Modeling of dynamic trust contracts for industry 4.0 systems. ECSA (Companion) 2018: 45:1-45:4 - [c43]Danylo Khalyeyev, Petr Hnetynka, Tomás Bures:
A Virtual Playground for Testing Smart Cyber-Physical Systems. ICSA Companion 2018: 85-88 - [c42]Rima Al Ali, Tomás Bures, Petr Hnetynka, Filip Krijt, Frantisek Plásil, Jirí Vinárek:
Dynamic Security Specification Through Autonomic Component Ensembles. ISoLA (3) 2018: 172-185 - 2017
- [j10]Filip Krijt, Zbynek Jirácek, Tomás Bures, Petr Hnetynka, Ilias Gerostathopoulos:
Intelligent Ensembles - a Declarative Group Description Language and Java Framework (Artifact). Dagstuhl Artifacts Ser. 3(1): 06:1-06:3 (2017) - [j9]Ilias Gerostathopoulos, Tomás Bures, Petr Hnetynka, Adam Hujecek, Frantisek Plásil, Dominik Skoda:
Strengthening Adaptation in Cyber-Physical Systems via Meta-Adaptation Strategies. ACM Trans. Cyber Phys. Syst. 1(3): 13:1-13:25 (2017) - [c41]Filip Krijt, Zbynek Jirácek, Tomás Bures, Petr Hnetynka, Ilias Gerostathopoulos:
Intelligent Ensembles - A Declarative Group Description Language and Java Framework. SEAMS@ICSE 2017: 116-122 - [c40]Filip Krijt, Zbynek Jirácek, Tomás Bures, Petr Hnetynka, Frantisek Plásil:
Automated Dynamic Formation of Component Ensembles - Taking Advantage of Component Cooperation Locality. MODELSWARD 2017: 561-568 - [c39]Petr Hnetynka:
Software abstractions and architectures for smart cyber-physical systems: Keynote address. SERA 2017: 3 - 2016
- [j8]Ilias Gerostathopoulos, Tomás Bures, Petr Hnetynka, Jaroslav Keznikl, Michal Kit, Frantisek Plásil, Noël Plouzeau:
Self-adaptation in software-intensive cyber-physical systems: From system goals to architecture configurations. J. Syst. Softw. 122: 378-397 (2016) - [c38]Vladimír Matena, Tomás Bures, Ilias Gerostathopoulos, Petr Hnetynka:
Model problem and testbed for experiments with adaptation in smart cyber-physical systems. SEAMS@ICSE 2016: 82-88 - [c37]Tomás Bures, Petr Hnetynka, Filip Krijt, Vladimír Matena, Frantisek Plásil:
Smart Coordination of Autonomic Component Ensembles in the Context of Ad-Hoc Communication. ISoLA (1) 2016: 642-656 - [c36]Tomás Bures, Petr Hnetynka, Jan Kofron, Rima Al Ali, Dominik Skoda:
Statistical Approach to Architecture Modes in Smart Cyber Physical Systems. WICSA 2016: 168-177 - [c35]Jirí Vinárek, Petr Hnetynka:
Towards an Automated Requirements-driven Development of Smart Cyber-Physical Systems. FESCA@ETAPS 2016: 59-68 - 2015
- [j7]Viliam Simko, David Hauzar, Petr Hnetynka, Tomás Bures, Frantisek Plásil:
Formal Verification of Annotated Textual Use-Cases. Comput. J. 58(7): 1495-1529 (2015) - [c34]Tomás Bures, Filip Krijt, Frantisek Plásil, Petr Hnetynka, Zbynek Jirácek:
Towards Intelligent Ensembles. ECSA Workshops 2015: 17:1-17:4 - [c33]Ilias Gerostathopoulos, Tomás Bures, Petr Hnetynka, Adam Hujecek, Frantisek Plásil, Dominik Skoda:
Meta-Adaptation Strategies for Adaptation in Cyber-Physical Systems. ECSA 2015: 45-52 - [c32]Jirí Vinárek, Viliam Simko, Petr Hnetynka:
Verification of Use-Cases with FOAM Tool in Context of Cloud Providers. EUROMICRO-SEAA 2015: 151-158 - [c31]Richard Lipka, Toma Potuak, Premek Brada, Petr Hnetynka, Jirí Vinárek:
A Method for Semi-automated Generation of Test Scenarios Based on Use Cases. EUROMICRO-SEAA 2015: 241-244 - [c30]Michal Kit, Ilias Gerostathopoulos, Tomás Bures, Petr Hnetynka, Frantisek Plásil:
An Architecture Framework for Experimentations with Self-Adaptive Cyber-physical Systems. SEAMS@ICSE 2015: 93-96 - [p2]Tomás Bures, Ilias Gerostathopoulos, Petr Hnetynka, Jaroslav Keznikl, Michal Kit, Frantisek Plásil:
The Invariant Refinement Method. The ASCENS Approach 2015: 405-428 - 2014
- [j6]Tomás Pop, Petr Hnetynka, Petr Hosek, Michal Malohlava, Tomás Bures:
Comparison of component frameworks for real-time embedded systems. Knowl. Inf. Syst. 40(1): 127-170 (2014) - [j5]Jaroslav Keznikl, Tomás Bures, Frantisek Plásil, Petr Hnetynka:
Automated resolution of connector architectures using constraint solving (ARCAS method). Softw. Syst. Model. 13(2): 843-872 (2014) - [c29]Jirí Vinárek, Petr Hnetynka, Viliam Simko, Petr Kroha:
Recovering Traceability Links Between Code and Specification Through Domain Model Extraction. EOMAS@CAiSE 2014: 187-201 - [c28]Tomás Bures, Petr Hnetynka, Frantisek Plásil:
Strengthening architectures of smart CPS by modeling them as runtime product-lines. CBSE 2014: 91-96 - [c27]Tomás Bures, Ilias Gerostathopoulos, Petr Hnetynka, Jaroslav Keznikl, Michal Kit, Frantisek Plásil:
Gossiping Components for Cyber-Physical Systems. ECSA 2014: 250-266 - [c26]Rima Al Ali, Tomás Bures, Ilias Gerostathopoulos, Petr Hnetynka, Jaroslav Keznikl, Michal Kit, Frantisek Plásil:
DEECo: an ecosystem for cyber-physical systems. ICSE Companion 2014: 610-611 - 2013
- [j4]Michal Malohlava, Frantisek Plásil, Tomás Bures, Petr Hnetynka:
Interoperable domain-specific languages families for code generation. Softw. Pract. Exp. 43(5): 479-499 (2013) - [c25]Tomás Bures, Ilias Gerostathopoulos, Petr Hnetynka, Jaroslav Keznikl, Michal Kit, Frantisek Plásil:
DEECO: an ensemble-based component system. CBSE 2013: 81-90 - [c24]Jaroslav Keznikl, Tomás Bures, Frantisek Plásil, Ilias Gerostathopoulos, Petr Hnetynka, Nicklas Hoch:
Design of ensemble-based component systems by invariant refinement. CBSE 2013: 91-100 - [c23]Ilias Gerostathopoulos, Tomás Bures, Petr Hnetynka:
Position paper: towards a requirements-driven design of ensemble-based component systems. HotTopiCS 2013: 79-86 - 2012
- [c22]Viliam Simko, Petr Hnetynka, Tomás Bures, Frantisek Plásil:
FOAM: A Lightweight Method for Verification of Use-Cases. EUROMICRO-SEAA 2012: 228-232 - [c21]Lukás Hermann, Tomás Bures, Petr Hnetynka, Michal Malohlava:
CoDIT: Bridging the Gap between System-Level and Component-Level Development. SERA (selected papers) 2012: 159-175 - [c20]Michal Malohlava, Petr Hnetynka, Tomás Bures:
SOFA 2 Component Framework and Its Ecosystem. FESCA 2012: 101-106 - 2011
- [j3]Petr Hnetynka, Liam Murphy, John Murphy:
Comparing the Service Component Architecture and Fractal Component Model. Comput. J. 54(7): 1026-1037 (2011) - [j2]Petr Hnetynka, Frantisek Plásil:
Using meta-modeling in design and implementation of component-based systems: the SOFA case study. Softw. Pract. Exp. 41(11): 1185-1201 (2011) - [c19]Jaroslav Keznikl, Michal Malohlava, Tomás Bures, Petr Hnetynka:
Extensible Polyglot Programming Support in Existing Component Frameworks. EUROMICRO-SEAA 2011: 107-115 - [c18]Viliam Simko, David Hauzar, Tomás Bures, Petr Hnetynka, Frantisek Plásil:
Verifying Temporal Properties of Use-Cases in Natural Language. FACS 2011: 350-367 - [c17]Tomás Pop, Jaroslav Keznikl, Petr Hosek, Michal Malohlava, Tomás Bures, Petr Hnetynka:
Introducing Support for Embedded and Real-Time Devices into Existing Hierarchical Component System: Lessons Learned. SERA 2011: 3-11 - 2010
- [c16]Petr Hosek, Tomás Pop, Tomás Bures, Petr Hnetynka, Michal Malohlava:
Comparison of Component Frameworks for Real-Time Embedded Systems. CBSE 2010: 21-36
2000 – 2009
- 2009
- [j1]Jan Francu, Petr Hnetynka:
Automated Code Generation from System Requirements in Natural Language. e Informatica Softw. Eng. J. 3(1): 72-88 (2009) - [c15]Karel Masek, Petr Hnetynka, Tomás Bures:
Bridging the Component-Based and Service-Oriented Worlds. EUROMICRO-SEAA 2009: 47-54 - [c14]Tomás Bures, Petr Hnetynka, Michal Malohlava:
Using a product line for creating component systems. SAC 2009: 501-508 - [c13]Pavel Jezek, Tomás Bures, Petr Hnetynka:
Supporting Real-Life Applications in Hierarchical Component Systems. SERA (selected papers) 2009: 107-118 - [c12]Nicolas Anquetil, Jean-Claude Royer, Pascal André, Gilles Ardourel, Petr Hnetynka, Tomás Poch, Dragos Petrascu, Vladiela Petrascu:
JavaCompExt: Extracting Architectural Elements from Java Source Code. WCRE 2009: 317-318 - [p1]Tomás Bures, Josef Hala, Petr Hnetynka:
Using Connectors to Address Transparent Distribution in Enterprise Systems - Pitfalls and Options. Software Engineering, Artificial Intelligence, Networking and Parallel/Distributed Computing 2009: 81-92 - [e1]Heiko Koziolek, Paul Pettersson, Petr Hnetynka:
Proceedings of the 1st international workshop on Quality of service-oriented software systems, QUASOSS '09, Amsterdam, The Netherlands, August 25, 2009. ACM 2009, ISBN 978-1-60558-709-7 [contents] - 2008
- [c11]Tomás Bures, Michal Malohlava, Petr Hnetynka:
Using DSL for Automatic Generation of Software Connectors. ICCBSS 2008: 138-147 - [c10]Jirí Adámek, Petr Hnetynka:
Perspectives in component-based software engineering. SEESE@ICSE 2008: 35-42 - [c9]Jan Francu, Petr Hnetynka:
Automated Generation of Implementation from Textual System Requirements. CEE-SET 2008: 34-47 - [i1]Tomás Bures, Petr Hnetynka:
Safe Systems with Software Components in SOFA 2. ERCIM News 2008(75) (2008) - 2007
- [c8]Tomás Bures, Martin Decký, Petr Hnetynka, Jan Kofron, Pavel Parízek, Frantisek Plásil, Tomás Poch, Ondrej Sery, Petr Tuma:
CoCoME in SOFA. CoCoME 2007: 388-417 - [c7]Petr Hnetynka, Tomás Bures:
Advanced Features of Hierarchical Component Models. ISIM 2007 - [c6]Tomás Bures, Petr Hnetynka, Frantisek Plásil, Jan Klesnil, Ondrej Kmoch, Tomas Kohan, Pavel Kotrc:
Runtime Support for Advanced Component Concepts. SERA 2007: 337-345 - 2006
- [c5]Petr Hnetynka, Frantisek Plásil:
Dynamic Reconfiguration and Access to Services in Hierarchical Component Models. CBSE 2006: 352-359 - [c4]Tomás Bures, Petr Hnetynka, Frantisek Plásil:
SOFA 2.0: Balancing Advanced Features in a Hierarchical Component Model. SERA 2006: 40-48 - 2005
- [c3]Petr Hnetynka:
A Model-driven Environment for Component Deployment. SERA 2005: 6-13 - 2004
- [c2]Petr Hnetynka, Michal Píse:
Hand-written vs. MOF-based Metadata Repositories: The SOFA Experience. ECBS 2004: 329-336 - 2003
- [c1]Petr Hnetynka, Petr Tuma:
Fighting Class Name Clashes in Java Component Systems. JMLC 2003: 106-109
Coauthor Index
[c70] [j18] [j17] [j16] [c69] [c68] [c67] [c66] [i7] [i6] [i5] [c65] [c64] [c63] [c61] [c60] [c59] [c58] [c57] [c56] [p4] [j15] [j14] [c55] [c54] [c53] [c52] [i4] [i3] [j13] [j12] [j11] [c51] [c50] [c49] [c48] [c47] [i2] [p3] [c43] [c42] [j10] [j9] [c41] [c40] [j8] [c38] [c37] [c36] [j7] [c34] [c33] [c30] [p2] [j6] [j5] [c28] [c27] [c26] [j4] [c25] [c24] [c23] [c22] [c21] [c20] [c19] [c18] [c17] [c16] [c15] [c14] [c13] [p1] [c11] [i1] [c8] [c7] [c6] [c4]
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