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ORCIDJens Kosiol
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- affiliation: University of Marburg, Faculty of Mathematics and Computer Science, Germany
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2020 – today
- 2024
[j9]Jens Kosiol
, Stefan John, Gabriele Taentzer:
A generic construction for crossovers of graph-like structures and its realization in the Eclipse Modeling Framework. J. Log. Algebraic Methods Program. 136: 100909 (2024)- [j8]Lars Fritsche, Jens Kosiol, Alexander Lauer, Adrian Möller, Andy Schürr:
Advanced Model Consistency Restoration with Higher-Order Short-Cut Rules. Log. Methods Comput. Sci. 20(3) (2024) - [c22]Gabriele Taentzer, Jens Kosiol, Leen Lambers:
On the Application of Model-Driven Optimization to Business Processes. Petri Nets 2024: 24-35 - [c21]Till Guthardt, Jens Kosiol, Oliver Hohlfeld:
Low-code vs. the developer: An empirical study on the developer experience and efficiency of a no-code platform. MoDELS (Companion) 2024: 856-865 - [c20]Stefan John, Jens Kosiol, Leen Lambers, Gabriele Taentzer:
A Graph-Based Framework for Model-Driven Optimization Facilitating Impact Analysis of Mutation Operator Properties. Software Engineering 2024: 37-38 - [e1]Russ Harmer, Jens Kosiol:
Graph Transformation - 17th International Conference, ICGT 2024, Held as Part of STAF 2024, Enschede, The Netherlands, July 10-11, 2024, Proceedings. Lecture Notes in Computer Science 14774, Springer 2024, ISBN 978-3-031-64284-5 [contents] - 2023
- [j7]Jens Kosiol, Gabriele Taentzer:
A generalized concurrent rule construction for double-pushout rewriting: Generalized concurrency theorem and language-preserving rule applications. J. Log. Algebraic Methods Program. 130: 100820 (2023) - [j6]Stefan John, Jens Kosiol, Leen Lambers, Gabriele Taentzer:
A graph-based framework for model-driven optimization facilitating impact analysis of mutation operator properties. Softw. Syst. Model. 22(4): 1281-1318 (2023) - [c19]Sebastian Copei, Jens Kosiol:
DevOps Patterns: A Rapid Review. ECSA (Tracks, Workshops and Doctoral Symposium) 2023: 33-50 - [c18]Jens Kosiol, Daniel Strüber, Gabriele Taentzer, Steffen Zschaler:
Finding the Right Way to Rome: Effect-Oriented Graph Transformation. ICGT 2023: 43-63 - [c17]Lars Fritsche, Jens Kosiol, Adrian Möller, Andy Schürr:
Advanced Consistency Restoration with Higher-Order Short-Cut Rules. ICGT 2023: 184-203 - [c16]Alexander Lauer, Jens Kosiol, Gabriele Taentzer:
Empowering Model Repair: A Rule-Based Approach to Graph Repair Without Side Effects. MoDELS (Companion) 2023: 831-840 - [d1]Lars Fritsche, Jens Kosiol, Adrian Möller, Andy Schürr:
Advanced Consistency Restoration with Higher-Order Short-Cut Rules. Zenodo, 2023
- [i7]Jens Kosiol, Daniel Strüber, Gabriele Taentzer, Steffen Zschaler:
Finding the Right Way to Rome: Effect-oriented Graph Transformation. CoRR abs/2305.03432 (2023) - [i6]Lars Fritsche, Jens Kosiol, Alexander Lauer, Adrian Möller, Andy Schürr:
Advanced Consistency Restoration with Higher-Order Short-Cut Rules. CoRR abs/2312.09828 (2023) - 2022
- [b1]Jens Kosiol:
Formal Foundations for Information-Preserving Model Synchronization Processes Based on Triple Graph Grammars. University of Marburg, Germany, 2022 - [j5]Jens Kosiol, Daniel Strüber, Gabriele Taentzer, Steffen Zschaler:
Sustaining and improving graduated graph consistency: A static analysis of graph transformations. Sci. Comput. Program. 214: 102729 (2022) - [c15]Gabriele Taentzer, Stefan John, Jens Kosiol:
A Generic Construction for Crossovers of Graph-Like Structures. ICGT 2022: 97-117 - [c14]Stefan John, Jens Kosiol, Gabriele Taentzer:
Towards a configurable crossover operator for model-driven optimization. MoDELS (Companion) 2022: 388-395 - [c13]Henri Thölke, Jens Kosiol:
A multiplicity-preserving crossover operator on graphs. MoDELS (Companion) 2022: 588-597 - [c12]Lars Fritsche, Jens Kosiol, Adrian Möller, Andy Schürr, Gabriele Taentzer:
A Precedence-Driven Approach for Concurrent Model Synchronization Scenarios using Triple Graph Grammars. Software Engineering 2022: 27-28 - [i5]Henri Thölke, Jens Kosiol:
A multiplicity-preserving crossover operator on graphs. Extended version. CoRR abs/2208.10881 (2022) - 2021
- [j4]Lars Fritsche, Jens Kosiol, Andy Schürr, Gabriele Taentzer:
Avoiding unnecessary information loss: correct and efficient model synchronization based on triple graph grammars. Int. J. Softw. Tools Technol. Transf. 23(3): 335-368 (2021) - [c11]Jens Kosiol, Gabriele Taentzer:
A Generalized Concurrent Rule Construction for Double-Pushout Rewriting. ICGT 2021: 22-39 - [i4]Jens Kosiol, Gabriele Taentzer:
A Generalized Concurrent Rule Construction for Double-Pushout Rewriting. CoRR abs/2105.02309 (2021) - 2020
- [j3]Nebras Nassar, Jens Kosiol, Thorsten Arendt, Gabriele Taentzer:
Constructing optimized constraint-preserving application conditions for model transformation rules. J. Log. Algebraic Methods Program. 114: 100564 (2020) - [j2]Jens Kosiol, Lars Fritsche, Andy Schürr, Gabriele Taentzer:
Double-pushout-rewriting in S-Cartesian functor categories: Rewriting theory and application to partial triple graphs. J. Log. Algebraic Methods Program. 115: 100565 (2020) - [c10]Nebras Nassar, Jens Kosiol, Timo Kehrer, Gabriele Taentzer:
Generating Large EMF Models Efficiently - A Rule-Based, Configurable Approach. FASE 2020: 224-244 - [c9]Jens Kosiol, Daniel Strüber, Gabriele Taentzer, Steffen Zschaler:
Graph Consistency as a Graduated Property - Consistency-Sustaining and -Improving Graph Transformations. ICGT 2020: 239-256 - [c8]Lars Fritsche, Jens Kosiol, Adrian Möller, Andy Schürr, Gabriele Taentzer:
A precedence-driven approach for concurrent model synchronization scenarios using triple graph grammars. SLE 2020: 39-55 - [i3]Jens Kosiol, Daniel Strüber, Gabriele Taentzer, Steffen Zschaler:
Graph Consistency as a Graduated Property: Consistency-Sustaining and -Improving Graph Transformations. CoRR abs/2005.04162 (2020) - [i2]Lars Fritsche, Jens Kosiol, Andy Schürr, Gabriele Taentzer:
Avoiding Unnecessary Information Loss: Correct and Efficient Model Synchronization Based on Triple Graph Grammars. CoRR abs/2005.14510 (2020) - [i1]Lars Fritsche, Jens Kosiol, Adrian Möller, Andy Schürr, Gabriele Taentzer:
A Precedence-Driven Approach for Concurrent Model Synchronization Scenarios using Triple Graph Grammars. CoRR abs/2011.03357 (2020)
2010 – 2019
- 2019
- [j1]Leen Lambers, Kristopher Born, Jens Kosiol, Daniel Strüber, Gabriele Taentzer:
Granularity of conflicts and dependencies in graph transformation systems: A two-dimensional approach. J. Log. Algebraic Methods Program. 103: 105-129 (2019) - [c7]Lars Fritsche, Jens Kosiol, Andy Schürr, Gabriele Taentzer:
Efficient Model Synchronization by Automatically Constructed Repair Processes. FASE 2019: 116-133 - [c6]Jens Kosiol, Lars Fritsche, Andy Schürr, Gabriele Taentzer:
Adhesive Subcategories of Functor Categories with Instantiation to Partial Triple Graphs. ICGT 2019: 38-54 - [c5]Leen Lambers, Jens Kosiol, Daniel Strüber, Gabriele Taentzer:
Exploring Conflict Reasons for Graph Transformation Systems. ICGT 2019: 75-92 - [c4]Nebras Nassar, Jens Kosiol, Thorsten Arendt, Gabriele Taentzer:
Constructing Optimized Validity-Preserving Application Conditions for Graph Transformation Rules. ICGT 2019: 177-194 - 2018
- [c3]Nebras Nassar, Jens Kosiol, Thorsten Arendt, Gabriele Taentzer:
OCL2AC: Automatic Translation of OCL Constraints to Graph Constraints and Application Conditions for Transformation Rules. ICGT 2018: 171-177 - [c2]Lars Fritsche, Jens Kosiol, Andy Schürr, Gabriele Taentzer:
Short-Cut Rules - Sequential Composition of Rules Avoiding Unnecessary Deletions. STAF Workshops 2018: 415-430 - [c1]Jens Kosiol, Lars Fritsche, Nebras Nassar, Andy Schürr, Gabriele Taentzer:
Constructing Constraint-Preserving Interaction Schemes in Adhesive Categories. WADT 2018: 139-153
Coauthor Index
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last updated on 2024-11-07 21:32 CET by the dblp team
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