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Rudolf Ferenc
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- affiliation: University of Szeged, Hungary
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2020 – today
- 2024
- [j30]Zoltán Ságodi
, István Siket, Rudolf Ferenc
Methodology for Code Synthesis Evaluation of LLMs Presented by a Case Study of ChatGPT and Copilot. IEEE Access 12: 72303-72316 (2024) - [j29]Gábor Antal
PyBugHive: A Comprehensive Database of Manually Validated, Reproducible Python Bugs. IEEE Access 12: 123739-123756 (2024) - [j28]Tamás Aladics
A Comparative Study of Commit Representations for JIT Vulnerability Prediction. Comput. 13(1): 22 (2024) - [j27]Antonino Sabetta
Known Vulnerabilities of Open Source Projects: Where Are the Fixes? IEEE Secur. Priv. 22(2): 49-59 (2024) - [c72]Zoltán Ságodi
Reality Check: Assessing GPT-4 in Fixing Real-World Software Vulnerabilities. EASE 2024: 252-261 - [c71]Gábor Antal
Toward a New Era of Rapid Development: Assessing GPT-4-Vision's Capabilities in UML-Based Code Generation. LLM4CODE@ICSE 2024: 84-87 - [c70]Norbert Vándor, Gábor Antal, Péter Hegedüs, Rudolf Ferenc:
On the Usefulness of Python Structural Pattern Matching: An Empirical Study. SANER 2024: 501-511 - [i12]Gábor Antal, Richárd Vozár, Rudolf Ferenc:
Assessing GPT-4-Vision's Capabilities in UML-Based Code Generation. CoRR abs/2404.14370 (2024) - [i11]Gábor Antal, David Havas, István Siket, Árpád Beszédes, Rudolf Ferenc, József Mihalicza:
Transforming C++11 Code to C++03 to Support Legacy Compilation Environments. CoRR abs/2405.07204 (2024) - [i10]Gábor Antal, Péter Hegedüs, Zoltán Tóth, Rudolf Ferenc, Tibor Gyimóthy:
Static JavaScript Call Graphs: A Comparative Study. CoRR abs/2405.07206 (2024) - [i9]Rudolf Ferenc, Péter Hegedüs, Péter Gyimesi, Gábor Antal, Dénes Bán, Tibor Gyimóthy:
Challenging Machine Learning Algorithms in Predicting Vulnerable JavaScript Functions. CoRR abs/2405.07213 (2024) - [i8]Gábor Antal, Zoltán Tóth, Péter Hegedüs, Rudolf Ferenc:
Enhanced Bug Prediction in JavaScript Programs with Hybrid Call-Graph Based Invocation Metrics. CoRR abs/2405.07244 (2024) - [i7]Zoltán Ságodi, Péter Hegedüs, Rudolf Ferenc:
Increased Software Security with Large Language Models. ERCIM News 139(138) (2024) - 2023
- [j26]Gábor Antal
Is JavaScript Call Graph Extraction Solved Yet? A Comparative Study of Static and Dynamic Tools. IEEE Access 11: 25266-25284 (2023) - [i6]Tamás Aladics, Péter Hegedüs, Rudolf Ferenc:
An AST-based Code Change Representation and its Performance in Just-in-time Vulnerability Prediction. CoRR abs/2303.16591 (2023) - 2022
- [j25]Péter Hegedüs, Rudolf Ferenc
Static Code Analysis Alarms Filtering Reloaded: A New Real-World Dataset and its ML-Based Utilization. IEEE Access 10: 55090-55101 (2022) - [j24]Zoltán Ságodi
Static Call Graph Combination to Simulate Dynamic Call Graph Behavior. IEEE Access 10: 131829-131840 (2022) - [c69]Balázs Mosolygó
A Line-Level Explainable Vulnerability Detection Approach for Java. ICCSA (Workshops 4) 2022: 106-122 - [c68]Tamás Aladics, Péter Hegedüs, Rudolf Ferenc:
A Vulnerability Introducing Commit Dataset for Java: An Improved SZZ based Approach. ICSOFT 2022: 68-78 - [c67]Tamás Aladics
An AST-Based Code Change Representation and Its Performance in Just-in-Time Vulnerability Prediction. ICSOFT (Selected Papers) 2022: 169-186 - [c66]Balázs Rózsa, Gábor Antal, Rudolf Ferenc:
Don't DIY: Automatically transform legacy Python code to support structural pattern matching. SCAM 2022: 164-169 - [c65]Judit Jász
An End-to-End Framework for Repairing Potentially Vulnerable Source Code. SCAM 2022: 242-247 - [i5]Levente Buttyán, Rudolf Ferenc:
IoT Malware Detection with Machine Learning. ERCIM News 2022(129): 0 (2022) - 2021
- [j23]Péter Gyimesi
BUGSJS: a benchmark and taxonomy of JavaScript bugs. Softw. Test. Verification Reliab. 31(4) (2021) - [c64]Zsolt János Szamosvölgyi
Assessing Ensemble Learning Techniques in Bug Prediction. ICCSA (7) 2021: 368-381 - [c63]Tamás Aladics
Bug Prediction Using Source Code Embedding Based on Doc2Vec. ICCSA (7) 2021: 382-397 - [c62]Tamás Viszkok, Péter Hegedüs, Rudolf Ferenc:
Improving Vulnerability Prediction of JavaScript Functions using Process Metrics. ICSOFT 2021: 185-195 - [i4]Tamás Viszkok, Péter Hegedüs, Rudolf Ferenc:
Improving Vulnerability Prediction of JavaScript Functions Using Process Metrics. CoRR abs/2105.07527 (2021) - [i3]Tamás Aladics, Judit Jász, Rudolf Ferenc:
Bug Prediction Using Source Code Embedding Based on Doc2Vec. CoRR abs/2110.04951 (2021) - 2020
- [j22]Rudolf Ferenc, Dénes Bán, Tamás Grósz, Tibor Gyimóthy:
Deep learning in static, metric-based bug prediction. Array 6: 100021 (2020) - [j21]Rudolf Ferenc, Péter Gyimesi
An automatically created novel bug dataset and its validation in bug prediction. J. Syst. Softw. 169: 110691 (2020) - [j20]Rudolf Ferenc, Tamás Viszkok, Tamás Aladics, Judit Jász, Péter Hegedüs:
Deep-water framework: The Swiss army knife of humans working with machine learning models. SoftwareX 12: 100551 (2020) - [j19]Rudolf Ferenc, Zoltán Tóth, Gergely Ladányi, István Siket, Tibor Gyimóthy:
A public unified bug dataset for java and its assessment regarding metrics and bug prediction. Softw. Qual. J. 28(4): 1447-1506 (2020) - [i2]Rudolf Ferenc, Péter Gyimesi, Gábor Gyimesi, Zoltán Tóth, Tibor Gyimóthy:
An Automatically Created Novel Bug Dataset and its Validation in Bug Prediction. CoRR abs/2006.10158 (2020) - [i1]Rudolf Ferenc, István Siket, Péter Hegedüs, Róbert Rajkó:
Employing Partial Least Squares Regression with Discriminant Analysis for Bug Prediction. CoRR abs/2011.01214 (2020)
2010 – 2019
- 2019
- [j18]Dénes Bán
Prediction models for performance, power, and energy efficiency of software executed on heterogeneous hardware. J. Supercomput. 75(8): 4001-4025 (2019) - [c61]Rudolf Ferenc, Péter Hegedüs, Péter Gyimesi
Challenging machine learning algorithms in predicting vulnerable JavaScript functions. RAISE@ICSE 2019: 8-14 - [c60]Judit Jász, István Siket, Edit Pengo
Systematic Comparison of Six Open-source Java Call Graph Construction Tools. ICSOFT 2019: 117-128 - [c59]Péter Gyimesi
BugsJS: a Benchmark of JavaScript Bugs. ICST 2019: 90-101 - [c58]Béla Vancsics, Péter Gyimesi
Poster: Supporting JavaScript Experimentation with BugsJS. ICST 2019: 375-378 - [c57]Bence Barta, Gunter Manz, István Siket, Rudolf Ferenc
Challenges of SonarQube Plug-In Maintenance. SANER 2019: 574-578 - 2018
- [j17]Péter Hegedüs, István Kádár, Rudolf Ferenc
Empirical evaluation of software maintainability based on a manually validated refactoring dataset. Inf. Softw. Technol. 95: 313-327 (2018) - [c56]Rudolf Ferenc
A Public Unified Bug Dataset for Java. PROMISE 2018: 12-21 - [c55]Gabor Antal
[Research Paper] Static JavaScript Call Graphs: A Comparative Study. SCAM 2018: 177-186 - 2017
- [j16]Rudolf Ferenc
Preface. Acta Cybern. 23(2): 439 (2017) - [j15]Gábor Szoke, Gabor Antal
Empirical study on refactoring large-scale industrial systems and its effects on maintainability. J. Syst. Softw. 129: 107-126 (2017) - 2016
- [c54]István Kádár, Péter Hegedüs, Rudolf Ferenc
Assessment of the Code Refactoring Dataset Regarding the Maintainability of Methods. ICCSA (4) 2016: 610-624 - [c53]Zoltán Tóth
A Public Bug Database of GitHub Projects and Its Application in Bug Prediction. ICCSA (4) 2016: 625-638 - [c52]István Kádár, Péter Hegedüs, Rudolf Ferenc
A Manually Validated Code Refactoring Dataset and Its Assessment Regarding Software Maintainability. PROMISE 2016: 10:1-10:4 - [c51]Gabor Antal
Transforming C++11 Code to C++03 to Support Legacy Compilation Environments. SCAM 2016: 177-186 - [c50]Gábor Gyimesi, Dénes Bán
Enforcing Techniques and Transformation of C/C++ Source Code to Heterogeneous Hardware. UIC/ATC/ScalCom/CBDCom/IoP/SmartWorld 2016: 1173-1180 - [c49]István Kádár, Péter Hegedüs, Rudolf Ferenc
A Code Refactoring Dataset and Its Assessment Regarding Software Maintainability. SANER 2016: 599-603 - [c48]Gábor Szoke, Csaba Nagy, Rudolf Ferenc, Tibor Gyimóthy:
Designing and Developing Automated Refactoring Transformations: An Experience Report. SANER 2016: 693-697 - 2015
- [j14]Zoltán Ujhelyi
Performance comparison of query-based techniques for anti-pattern detection. Inf. Softw. Technol. 65: 147-165 (2015) - [c47]Csaba Faragó, Péter Hegedüs, Rudolf Ferenc
Code Ownership: Impact on Maintainability. ICCSA (5) 2015: 3-19 - [c46]István Kádár, Péter Hegedüs, Rudolf Ferenc
Adding Constraint Building Mechanisms to a Symbolic Execution Engine Developed for Detecting Runtime Errors. ICCSA (5) 2015: 20-35 - [c45]Péter Gyimesi
Characterization of Source Code Defects by Data Mining Conducted on GitHub. ICCSA (5) 2015: 47-62 - [c44]Zoltán Tóth
Comparison of Static Analysis Tools for Quality Measurement of RPG Programs. ICCSA (5) 2015: 177-192 - [c43]Gábor Szoke, Csaba Nagy, Péter Hegedüs, Rudolf Ferenc
Do automatic refactorings improve maintainability? An industrial case study. ICSME 2015: 429-438 - [c42]Csaba Faragó, Péter Hegedüs, Rudolf Ferenc
Cumulative code churn: Impact on maintainability. SCAM 2015: 141-150 - [c41]Gábor Szoke, Csaba Nagy, Lajos Jeno Fülöp, Rudolf Ferenc
FaultBuster: An automatic code smell refactoring toolset. SCAM 2015: 253-258 - [c40]Dénes Bán
Prediction Models for Performance, Power, and Energy Efficiency of Software Executed on Heterogeneous Hardware. TrustCom/BigDataSE/ISPA (3) 2015: 178-183 - [c39]Gergely Ladányi, Zoltán Tóth
A software quality model for RPG. SANER 2015: 91-100 - 2014
- [j13]István Kádár, Péter Hegedüs, Rudolf Ferenc
Runtime Exception Detection in Java Programs Using Symbolic Execution. Acta Cybern. 21(3): 331-352 (2014) - [j12]Richárd Dévai, Judit Jász
Designing and Implementing Control Flow Graph for Magic 4th Generation Language. Acta Cybern. 21(3): 419-437 (2014) - [j11]Csaba Faragó, Péter Hegedüs, Ádám Zoltán Végh, Rudolf Ferenc
Connection Between Version Control Operations and Quality Change of the Source Code. Acta Cybern. 21(4): 585-607 (2014) - [c38]Zoltán Ujhelyi
Anti-pattern detection with model queries: A comparison of approaches. CSMR-WCRE 2014: 293-302 - [c37]Tibor Bakota, Péter Hegedüs, István Siket, Gergely Ladányi, Rudolf Ferenc
Qualitygate SourceAudit: A tool for assessing the technical quality of software. CSMR-WCRE 2014: 440-445 - [c36]Dénes Bán
Recognizing Antipatterns and Analyzing Their Effects on Software Maintainability. ICCSA (5) 2014: 337-352 - [c35]Csaba Faragó, Péter Hegedüs, Rudolf Ferenc
The Impact of Version Control Operations on the Quality Change of the Source Code. ICCSA (5) 2014: 353-369 - [c34]Richárd Dévai, László Vidács, Rudolf Ferenc
Service Layer for IDE Integration of C/C++ Preprocessor Related Analysis. ICCSA (5) 2014: 402-417 - [c33]Gábor Szoke, Csaba Nagy, Rudolf Ferenc
A Case Study of Refactoring Large-Scale Industrial Systems to Efficiently Improve Source Code Quality. ICCSA (5) 2014: 524-540 - [c32]Rudolf Ferenc
Source Meter Sonar Qube Plug-in. SCAM 2014: 77-82 - [c31]Gábor Szoke, Gabor Antal
Bulk Fixing Coding Issues and Its Effects on Software Quality: Is It Worth Refactoring? SCAM 2014: 95-104 - [p2]Rudolf Ferenc
Software Product Quality Models. Evolving Software Systems 2014: 65-100 - 2013
- [j10]Péter Hegedüs, Tibor Bakota, Gergely Ladányi, Csaba Faragó, Rudolf Ferenc:
A Drill-Down Approach for Measuring Maintainability at Source Code Element Level. Electron. Commun. Eur. Assoc. Softw. Sci. Technol. 60 (2013) - [j9]Rudolf Ferenc
Introduction to the Special Issue of the 13th European Conference on Software Maintenance and Reengineering (CSMR 2009). J. Softw. Evol. Process. 25(2): 111-112 (2013) - [j8]Rafael Capilla
A retrospective view of software maintenance and reengineering research - a selection of papers from European Conference on Software Maintenance and Reengineering 2010. J. Softw. Evol. Process. 25(6): 569-574 (2013) - [c30]Zoltán Tóth
Using Version Control History to Follow the Changes of Source Code Elements. CSMR 2013: 319-322 - [c29]Daniel Fritsi, Csaba Nagy, Rudolf Ferenc
A Methodology and Framework for Automatic Layout Independent GUI Testing of Applications Developed in Magic xpa. ICCSA (2) 2013: 513-528 - [c28]Kornél Muhi, Gábor Szoke, Lajos Jeno Fülöp, Rudolf Ferenc
A Semi-automatic Usability Evaluation Framework. ICCSA (2) 2013: 529-542 - 2012
- [j7]Yiannis Kanellopoulos, Rudolf Ferenc
Introduction to the Software Quality and Maintainability special issue. Softw. Qual. J. 20(2): 263-264 (2012) - [c27]Tibor Bakota, Péter Hegedüs, Gergely Ladányi, Peter Kortvelyesi, Rudolf Ferenc
A cost model based on software maintainability. ICSM 2012: 316-325 - [e3]Tom Mens, Anthony Cleve, Rudolf Ferenc:
16th European Conference on Software Maintenance and Reengineering, CSMR 2012, Szeged, Hungary, March 27-30, 2012. IEEE Computer Society 2012, ISBN 978-1-4673-0984-4 [contents] - 2011
- [c26]Csaba Nagy, László Vidács, Rudolf Ferenc
Solutions for Reverse Engineering 4GL Applications, Recovering the Design of a Logistical Wholesale System. CSMR 2011: 343-346 - [c25]Péter Hegedüs, Tibor Bakota, László Illés, Gergely Ladányi, Rudolf Ferenc
Source Code Metrics and Maintainability: A Case Study. FGIT-ASEA/DRBC/EL 2011: 272-284 - [c24]Csaba Nagy, László Vidács, Rudolf Ferenc
Complexity Measures in 4GL Environment. ICCSA (5) 2011: 293-309 - [c23]Tibor Bakota, Péter Hegedüs, Peter Kortvelyesi, Rudolf Ferenc
A probabilistic software quality model. ICSM 2011: 243-252 - 2010
- [c22]Lajos Schrettner, Péter Hegedüs, Rudolf Ferenc
Development of a Methodology, Software -- Suite and Service for Supporting Software Architecture Reconstruction. CSMR 2010: 190-193 - [c21]Yiannis Kanellopoulos, Rudolf Ferenc:
SQM 2010: Fourth International Workshop on System Quality and Maintainability. CSMR 2010: 268-269 - [c20]Rudolf Ferenc
Bug Forecast: A Method for Automatic Bug Prediction. FGIT-ASEA 2010: 283-295 - [c19]Csaba Nagy, László Vidács, Rudolf Ferenc
MAGISTER: Quality assurance of Magic applications for software developers and end users. ICSM 2010: 1-6 - [c18]Lajos Schrettner, Lajos Jeno Fülöp, Rudolf Ferenc
Visualization of software architecture graphs of Java systems: managing propagated low level dependencies. PPPJ 2010: 148-157 - [c17]Bela Ujhazi, Rudolf Ferenc
New Conceptual Coupling and Cohesion Metrics for Object-Oriented Systems. SCAM 2010: 33-42 - [e2]Rafael Capilla, Rudolf Ferenc, Juan C. Dueñas:
14th European Conference on Software Maintenance and Reengineering, CSMR 2010, 15-18 March 2010, Madrid, Spain. IEEE Computer Society 2010, ISBN 978-0-7695-4321-5 [contents]
2000 – 2009
- 2009
- [j6]Denys Poshyvanyk
Using information retrieval based coupling measures for impact analysis. Empir. Softw. Eng. 14(1): 5-32 (2009) - [c16]Yixun Liu, Denys Poshyvanyk
Modeling class cohesion as mixtures of latent topics. ICSM 2009: 233-242 - [e1]Andreas Winter, Rudolf Ferenc, Jens Knodel:
13th European Conference on Software Maintenance and Reengineering, CSMR 2009, Architecture-Centric Maintenance of Large-SCale Software Systems, Kaiserslautern, Germany, 24-27 March 2009. IEEE Computer Society 2009, ISBN 978-0-7695-3589-0 [contents] - 2008
- [j5]Andrian Marcus
Using the Conceptual Cohesion of Classes for Fault Prediction in Object-Oriented Systems. IEEE Trans. Software Eng. 34(2): 287-300 (2008) - [c15]Lajos Jeno Fülöp, Rudolf Ferenc
Towards a Benchmark for Evaluating Design Pattern Miner Tools. CSMR 2008: 143-152 - [c14]Tibor Bakota, Árpád Beszédes
Continuous software quality supervision using SourceInventory and Columbus. ICSE Companion 2008: 931-932 - [c13]Lajos Jeno Fülöp, Péter Hegedüs, Rudolf Ferenc
Towards a Benchmark for Evaluating Reverse Engineering Tools. WCRE 2008: 335-336 - 2007
- [c12]Tibor Bakota, Rudolf Ferenc
Clone Smells in Software Evolution. ICSM 2007: 24-33 - [c11]László Vidács, Árpád Beszédes, Rudolf Ferenc:
Macro Impact Analysis Using Macro Slicing. ICSOFT (SE) 2007: 230-235 - 2006
- [j4]László Vidács, Martin Gogolla, Rudolf Ferenc:
From C++ Refactorings to Graph Transformations. Electron. Commun. Eur. Assoc. Softw. Sci. Technol. 3 (2006) - [c10]Tibor Bakota, Rudolf Ferenc
Towards Portable Metrics-based Models for Software Maintenance Problems. ICSM 2006: 483-486 - [c9]Lajos Jeno Fülöp, Tamas Gyovai, Rudolf Ferenc
Evaluating C++ Design Pattern Miner Tools. SCAM 2006: 127-138 - 2005
- [j3]Tibor Gyimóthy
Empirical Validation of Object-Oriented Metrics on Open Source Software for Fault Prediction. IEEE Trans. Software Eng. 31(10): 897-910 (2005) - [c8]Rudolf Ferenc
Design Pattern Mining Enhanced by Machine Learning. ICSM 2005: 295-304 - [p1]Rudolf Ferenc, Árpád Beszédes, Tibor Gyimóthy:
Extracting Facts with Columbus from C++ Code. Tools for Software Maintenance and Reengineering 2005: 16-31 - 2004
- [c7]László Vidács, Árpád Beszédes, Rudolf Ferenc:
Columbus Schema for C/C++ Preprocessing. CSMR 2004: 75-84 - [c6]Rudolf Ferenc
Extracting Facts from Open Source Software. ICSM 2004: 60-69 - [c5]Rudolf Ferenc
Fact Extraction and Code Auditing with Columbus and SourceAudit. ICSM 2004: 513 - 2003
- [j2]Árpád Beszédes
Survey of code-size reduction methods. ACM Comput. Surv. 35(3): 223-267 (2003) - [c4]Zsolt Balanyi, Rudolf Ferenc
Mining Design Patterns from C++ Source Code. ICSM 2003: 305-314 - 2002
- [j1]Rudolf Ferenc, Juha Gustafsson, László Müller, Jukka Paakki:
Recognizing Design Patterns in C++ Programs with the Integration of Columbus and Maisa. Acta Cybern. 15(4): 669-682 (2002) - [c3]Rudolf Ferenc
Data Exchange with the Columbus Schema for C++. CSMR 2002: 59-66 - [c2]Rudolf Ferenc, Árpád Beszédes, Mikko Tarkiainen, Tibor Gyimóthy:
Columbus - Reverse Engineering Tool and Schema for C++. ICSM 2002: 172-181 - 2001
- [c1]Rudolf Ferenc, Susan Elliott Sim, Richard C. Holt, Rainer Koschke, Tibor Gyimóthy:
Towards a Standard Schema for C/C++. WCRE 2001: 49-58
Coauthor Index
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