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Tibor Gyimóthy
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2020 – today
- 2024
- [c105]Ferenc Horváth, Roland Aszmann, Péter Attila Soha, Árpád Beszédes, Tibor Gyimóthy:
Context Switch Sensitive Fault Localization. EASE 2024: 110-119 - [c104]Márk Lajkó, Viktor Csuvik, Tibor Gyimóthy, László Vidács:
Automated Program Repair with the GPT Family, Including GPT-2, GPT-3 and CodeX. APR 2024: 34-41 - [c103]Viktor Csuvik, Roland Aszmann, Árpád Beszédes, Ferenc Horváth, Tibor Gyimóthy:
On the Stability and Applicability of Deep Learning in Fault Localization. SANER 2024: 546-555 - [i3]Gábor Antal, Péter Hegedüs, Zoltán Tóth, Rudolf Ferenc, Tibor Gyimóthy:
Static JavaScript Call Graphs: A Comparative Study. CoRR abs/2405.07206 (2024) - [i2]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) - 2023
- [c102]Dániel Horváth, Viktor Csuvik, Tibor Gyimóthy, László Vidács:
An Extensive Study on Model Architecture and Program Representation in the Domain of Learning-based Automated Program Repair. APR@ICSE 2023: 31-38 - [c101]Viktor Csuvik, Tibor Gyimóthy, László Vidács:
Can ChatGPT Fix My Code? ICSOFT 2023: 478-485 - 2022
- [j36]Ferenc Horváth, Árpád Beszédes, Béla Vancsics, Gergö Balogh, László Vidács, Tibor Gyimóthy:
Using contextual knowledge in interactive fault localization. Empir. Softw. Eng. 27(6): 150 (2022) - 2020
- [j35]Rudolf Ferenc, Dénes Bán, Tamás Grósz, Tibor Gyimóthy:
Deep learning in static, metric-based bug prediction. Array 6: 100021 (2020) - [j34]Rudolf Ferenc, Péter Gyimesi, Gábor Gyimesi, Zoltán Tóth, Tibor Gyimóthy:
An automatically created novel bug dataset and its validation in bug prediction. J. Syst. Softw. 169: 110691 (2020) - [j33]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) - [c100]László Tóth, Balázs Nagy, Tibor Gyimóthy, László Vidács:
Why will my question be closed?: NLP-based pre-submission predictions of question closing reasons on stack overflow. ICSE (NIER) 2020: 45-48 - [c99]László Tóth, Balázs Nagy, Tibor Gyimóthy, László Vidács:
Mining Hypernyms Semantic Relations from Stack Overflow. ICSE (Workshops) 2020: 360-366 - [c98]Ferenc Horváth, Árpád Beszédes, Béla Vancsics, Gergö Balogh, László Vidács, Tibor Gyimóthy:
Experiments with Interactive Fault Localization Using Simulated and Real Users. ICSME 2020: 290-300 - [c97]András Kicsi, László Vidács, Tibor Gyimóthy:
TestRoutes: A Manually Curated Method Level Dataset for Test-to-Code Traceability. MSR 2020: 593-597 - [c96]Árpád Beszédes, Ferenc Horváth, Massimiliano Di Penta, Tibor Gyimóthy:
Leveraging Contextual Information from Function Call Chains to Improve Fault Localization. SANER 2020: 468-479 - [i1]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)
2010 – 2019
- 2019
- [j32]Attila Kertész, Tamas Pflanzner, Tibor Gyimóthy:
A Mobile IoT Device Simulator for IoT-Fog-Cloud Systems. J. Grid Comput. 17(3): 529-551 (2019) - [j31]András Kicsi, Viktor Csuvik, László Vidács, Ferenc Horváth, Árpád Beszédes, Tibor Gyimóthy, Ferenc Kocsis:
Feature analysis using information retrieval, community detection and structural analysis methods in product line adoption. J. Syst. Softw. 155: 70-90 (2019) - [j30]Ferenc Horváth, Tamás Gergely, Árpád Beszédes, Dávid Tengeri, Gergö Balogh, Tibor Gyimóthy:
Code coverage differences of Java bytecode and source code instrumentation tools. Softw. Qual. J. 27(1): 79-123 (2019) - [j29]Tamás Gergely, Gergö Balogh, Ferenc Horváth, Béla Vancsics, Árpád Beszédes, Tibor Gyimóthy:
Differences between a static and a dynamic test-to-code traceability recovery method. Softw. Qual. J. 27(2): 797-822 (2019) - [j28]Dénes Bán, Rudolf Ferenc, István Siket, Ákos Kiss, Tibor Gyimóthy:
Prediction models for performance, power, and energy efficiency of software executed on heterogeneous hardware. J. Supercomput. 75(8): 4001-4025 (2019) - [c95]Rudolf Ferenc, Péter Hegedüs, Péter Gyimesi, Gábor Antal, Dénes Bán, Tibor Gyimóthy:
Challenging machine learning algorithms in predicting vulnerable JavaScript functions. RAISE@ICSE 2019: 8-14 - [c94]Árpád Beszédes, Ferenc Horváth, Massimiliano Di Penta, Tibor Gyimóthy:
Leveraging contextual information from function call chains to improve fault localization. ICSE (Companion Volume) 2019: 296-297 - [c93]László Tóth, Balázs Nagy, Dávid Janthó, László Vidács, Tibor Gyimóthy:
Towards an Accurate Prediction of the Question Quality on Stack Overflow using a Deep-Learning-Based NLP Approach. ICSOFT 2019: 631-639 - 2018
- [j27]Tamás Gergely, Gergö Balogh, Ferenc Horváth, Béla Vancsics, Árpád Beszédes, Tibor Gyimóthy:
Analysis of Static and Dynamic Test-to-code Traceability Information. Acta Cybern. 23(3): 903-919 (2018) - [j26]Péter Hegedüs, István Kádár, Rudolf Ferenc, Tibor Gyimóthy:
Empirical evaluation of software maintainability based on a manually validated refactoring dataset. Inf. Softw. Technol. 95: 313-327 (2018) - [c92]András Kicsi, Viktor Csuvik, László Vidács, Árpád Beszédes, Tibor Gyimóthy:
Feature Level Complexity and Coupling Analysis in 4GL Systems. ICCSA (5) 2018: 438-453 - [c91]Rudolf Ferenc, Zoltán Tóth, Gergely Ladányi, István Siket, Tibor Gyimóthy:
A Public Unified Bug Dataset for Java. PROMISE 2018: 12-21 - [c90]Gabor Antal, Péter Hegedüs, Zoltán Tóth, Rudolf Ferenc, Tibor Gyimóthy:
[Research Paper] Static JavaScript Call Graphs: A Comparative Study. SCAM 2018: 177-186 - [c89]Ákos Kiss, Renáta Hodován, Tibor Gyimóthy:
HDDr: a recursive variant of the hierarchical Delta debugging algorithm. A-TEST@ESEC/SIGSOFT FSE 2018: 16-22 - [c88]Renáta Hodován, Ákos Kiss, Tibor Gyimóthy:
Grammarinator: a grammar-based open source fuzzer. A-TEST@ESEC/SIGSOFT FSE 2018: 45-48 - 2017
- [j25]Gábor Szoke, Gabor Antal, Csaba Nagy, Rudolf Ferenc, Tibor Gyimóthy:
Empirical study on refactoring large-scale industrial systems and its effects on maintainability. J. Syst. Softw. 129: 107-126 (2017) - [c87]Renáta Hodován, Ákos Kiss, Tibor Gyimóthy:
Tree Preprocessing and Test Outcome Caching for Efficient Hierarchical Delta Debugging. AST@ICSE 2017: 23-29 - [c86]Renáta Hodován, Ákos Kiss, Tibor Gyimóthy:
Coarse Hierarchical Delta Debugging. ICSME 2017: 194-203 - 2016
- [c85]István Kádár, Péter Hegedüs, Rudolf Ferenc, Tibor Gyimóthy:
Assessment of the Code Refactoring Dataset Regarding the Maintainability of Methods. ICCSA (4) 2016: 610-624 - [c84]Dávid Tengeri, László Vidács, Árpád Beszédes, Judit Jász, Gergö Balogh, Béla Vancsics, Tibor Gyimóthy:
Relating Code Coverage, Mutation Score and Test Suite Reducibility to Defect Density. ICST Workshops 2016: 174-179 - [c83]István Kádár, Péter Hegedüs, Rudolf Ferenc, Tibor Gyimóthy:
A Manually Validated Code Refactoring Dataset and Its Assessment Regarding Software Maintainability. PROMISE 2016: 10:1-10:4 - [c82]Gergö Balogh, Tamás Gergely, Árpád Beszédes, Tibor Gyimóthy:
Are My Unit Tests in the Right Package? SCAM 2016: 137-146 - [c81]Gergö Balogh, Tamás Gergely, Árpád Beszédes, Tibor Gyimóthy:
Using the City Metaphor for Visualizing Test-Related Metrics. VST@SANER 2016: 17-20 - [c80]Dávid Tengeri, Ferenc Horváth, Árpád Beszédes, Tamás Gergely, Tibor Gyimóthy:
Negative Effects of Bytecode Instrumentation on Java Source Code Coverage. SANER 2016: 225-235 - [c79]István Kádár, Péter Hegedüs, Rudolf Ferenc, Tibor Gyimóthy:
A Code Refactoring Dataset and Its Assessment Regarding Software Maintainability. SANER 2016: 599-603 - [c78]Gábor Szoke, Csaba Nagy, Rudolf Ferenc, Tibor Gyimóthy:
Designing and Developing Automated Refactoring Transformations: An Experience Report. SANER 2016: 693-697 - 2015
- [j24]Árpád Beszédes, Lajos Schrettner, Béla Csaba, Tamás Gergely, Judit Jász, Tibor Gyimóthy:
Empirical investigation of SEA-based dependence cluster properties. Sci. Comput. Program. 105: 3-25 (2015) - [c77]Gergö Balogh, Gabor Antal, Árpád Beszédes, László Vidács, Tibor Gyimóthy, Ádám Zoltán Végh:
Identifying wasted effort in the field via developer interaction data. ICSME 2015: 391-400 - [c76]Gábor Szoke, Csaba Nagy, Péter Hegedüs, Rudolf Ferenc, Tibor Gyimóthy:
Do automatic refactorings improve maintainability? An industrial case study. ICSME 2015: 429-438 - [c75]Dávid Tengeri, Árpád Beszédes, Tamás Gergely, László Vidács, David Havas, Tibor Gyimóthy:
Beyond code coverage - An approach for test suite assessment and improvement. ICST Workshops 2015: 1-7 - [c74]Gábor Szoke, Csaba Nagy, Lajos Jeno Fülöp, Rudolf Ferenc, Tibor Gyimóthy:
FaultBuster: An automatic code smell refactoring toolset. SCAM 2015: 253-258 - [c73]Ferenc Horváth, Béla Vancsics, László Vidács, Árpád Beszédes, Dávid Tengeri, Tamás Gergely, Tibor Gyimóthy:
Test suite evaluation using code coverage based metrics. SPLST 2015: 46-60 - 2014
- [j23]Lajos Schrettner, Judit Jász, Tamás Gergely, Árpád Beszédes, Tibor Gyimóthy:
Impact analysis in the presence of dependence clusters using Static Execute After in WebKit. J. Softw. Evol. Process. 26(6): 569-588 (2014) - [c72]László Vidács, Árpád Beszédes, Dávid Tengeri, István Siket, Tibor Gyimóthy:
Test suite reduction for fault detection and localization: A combined approach. CSMR-WCRE 2014: 204-213 - [c71]Richárd Dévai, László Vidács, Rudolf Ferenc, Tibor Gyimóthy:
Service Layer for IDE Integration of C/C++ Preprocessor Related Analysis. ICCSA (5) 2014: 402-417 - [c70]Gábor Szoke, Csaba Nagy, Rudolf Ferenc, Tibor Gyimóthy:
A Case Study of Refactoring Large-Scale Industrial Systems to Efficiently Improve Source Code Quality. ICCSA (5) 2014: 524-540 - [c69]Dávid Tengeri, Árpád Beszédes, David Havas, Tibor Gyimóthy:
Toolset and Program Repository for Code Coverage-Based Test Suite Analysis and Manipulation. SCAM 2014: 47-52 - [c68]Rudolf Ferenc, Laszlo Lango, István Siket, Tibor Gyimóthy, Tibor Bakota:
Source Meter Sonar Qube Plug-in. SCAM 2014: 77-82 - [c67]Gábor Szoke, Gabor Antal, Csaba Nagy, Rudolf Ferenc, Tibor Gyimóthy:
Bulk Fixing Coding Issues and Its Effects on Software Quality: Is It Worth Refactoring? SCAM 2014: 95-104 - [p2]Rudolf Ferenc, Péter Hegedüs, Tibor Gyimóthy:
Software Product Quality Models. Evolving Software Systems 2014: 65-100 - 2013
- [c66]Béla Csaba, Lajos Schrettner, Árpád Beszédes, Judit Jász, Péter Hegedüs, Tibor Gyimóthy:
Relating Clusterization Measures and Software Quality. CSMR 2013: 345-348 - [c65]Daniel Fritsi, Csaba Nagy, Rudolf Ferenc, Tibor Gyimóthy:
A Methodology and Framework for Automatic Layout Independent GUI Testing of Applications Developed in Magic xpa. ICCSA (2) 2013: 513-528 - [c64]Árpád Beszédes, Lajos Schrettner, Béla Csaba, Tamás Gergely, Judit Jász, Tibor Gyimóthy:
Empirical investigation of SEA-based dependence cluster properties. SCAM 2013: 1-10 - 2012
- [c63]Judit Jász, Lajos Schrettner, Árpád Beszédes, Csaba Osztrogonác, Tibor Gyimóthy:
Impact Analysis Using Static Execute After in WebKit. CSMR 2012: 95-104 - [c62]Lajos Schrettner, Lajos Jeno Fülöp, Árpád Beszédes, Ákos Kiss, Tibor Gyimóthy:
Software Quality Model and Framework with Applications in Industrial Context. CSMR 2012: 453-456 - [c61]Árpád Beszédes, Lajos Schrettner, Tibor Gyimóthy:
Development of a Unified Software Quality Platform in the Szeged InfoPólus Cluster. CSMR 2012: 495-498 - [c60]Árpád Beszédes, Tamás Gergely, Lajos Schrettner, Judit Jász, Laszlo Lango, Tibor Gyimóthy:
Code coverage-based regression test selection and prioritization in WebKit. ICSM 2012: 46-55 - [c59]Tibor Bakota, Péter Hegedüs, Gergely Ladányi, Peter Kortvelyesi, Rudolf Ferenc, Tibor Gyimóthy:
A cost model based on software maintainability. ICSM 2012: 316-325 - [c58]Lajos Schrettner, Judit Jász, Tamás Gergely, Árpád Beszédes, Tibor Gyimóthy:
Impact Analysis in the Presence of Dependence Clusters Using Static Execute after in WebKit. SCAM 2012: 24-33 - 2011
- [c57]Csaba Nagy, László Vidács, Rudolf Ferenc, Tibor Gyimóthy, Ferenc Kocsis, István Kovács:
Solutions for Reverse Engineering 4GL Applications, Recovering the Design of a Logistical Wholesale System. CSMR 2011: 343-346 - [c56]Péter Hegedüs, Tibor Bakota, László Illés, Gergely Ladányi, Rudolf Ferenc, Tibor Gyimóthy:
Source Code Metrics and Maintainability: A Case Study. FGIT-ASEA/DRBC/EL 2011: 272-284 - [c55]Csaba Nagy, László Vidács, Rudolf Ferenc, Tibor Gyimóthy, Ferenc Kocsis, István Kovács:
Complexity Measures in 4GL Environment. ICCSA (5) 2011: 293-309 - [c54]Tibor Bakota, Péter Hegedüs, Peter Kortvelyesi, Rudolf Ferenc, Tibor Gyimóthy:
A probabilistic software quality model. ICSM 2011: 243-252 - [c53]Gabriella Tóth, Ádám Zoltán Végh, Árpád Beszédes, Tibor Gyimóthy:
Adding Process Metrics to Enhance Modification Complexity Prediction. ICPC 2011: 201-204 - [e3]Tibor Gyimóthy, Andreas Zeller:
SIGSOFT/FSE'11 19th ACM SIGSOFT Symposium on the Foundations of Software Engineering (FSE-19) and ESEC'11: 13th European Software Engineering Conference (ESEC-13), Szeged, Hungary, September 5-9, 2011. ACM 2011, ISBN 978-1-4503-0443-6 [contents] - [e2]Ivana Cerná, Tibor Gyimóthy, Juraj Hromkovic, Keith G. Jeffery, Rastislav Královic, Marko Vukolic, Stefan Wolf:
SOFSEM 2011: Theory and Practice of Computer Science - 37th Conference on Current Trends in Theory and Practice of Computer Science, Nový Smokovec, Slovakia, January 22-28, 2011. Proceedings. Lecture Notes in Computer Science 6543, Springer 2011, ISBN 978-3-642-18380-5 [contents] - 2010
- [c52]Tamás Gergely, Árpád Beszédes, Tibor Gyimóthy, Milan Imre Gyalai:
Effect of test completeness and redundancy measurement on post release failures - An industrial experience report. ICSM 2010: 1-10 - [c51]Csaba Nagy, László Vidács, Rudolf Ferenc, Tibor Gyimóthy, Ferenc Kocsis, István Kovács:
MAGISTER: Quality assurance of Magic applications for software developers and end users. ICSM 2010: 1-6 - [c50]Gabriella Tóth, Péter Hegedüs, Árpád Beszédes, Tibor Gyimóthy, Judit Jász:
Comparison of different impact analysis methods and programmer's opinion: an empirical study. PPPJ 2010: 109-118 - [c49]Lajos Schrettner, Lajos Jeno Fülöp, Rudolf Ferenc, Tibor Gyimóthy:
Visualization of software architecture graphs of Java systems: managing propagated low level dependencies. PPPJ 2010: 148-157 - [c48]Bela Ujhazi, Rudolf Ferenc, Denys Poshyvanyk, Tibor Gyimóthy:
New Conceptual Coupling and Cohesion Metrics for Object-Oriented Systems. SCAM 2010: 33-42
2000 – 2009
- 2009
- [j22]Denys Poshyvanyk, Andrian Marcus, Rudolf Ferenc, Tibor Gyimóthy:
Using information retrieval based coupling measures for impact analysis. Empir. Softw. Eng. 14(1): 5-32 (2009) - [j21]Zoltán Herczeg, Daniel Schmidt, Ákos Kiss, Norbert Wehn, Tibor Gyimóthy:
Energy simulation of embedded XScale systems with XEEMU. J. Embed. Comput. 3(3): 209-219 (2009) - [j20]László Vidács, Árpád Beszédes, Tibor Gyimóthy:
Combining preprocessor slicing with C/C++ language slicing. Sci. Comput. Program. 74(7): 399-413 (2009) - [c47]Tibor Gyimóthy:
To Use or Not to Use? The Metrics to Measure Software Quality (Developers' View). CSMR 2009: 3-4 - [c46]Yixun Liu, Denys Poshyvanyk, Rudolf Ferenc, Tibor Gyimóthy, Nikos Chrisochoides:
Modeling class cohesion as mixtures of latent topics. ICSM 2009: 233-242 - 2008
- [c45]Lajos Jeno Fülöp, Rudolf Ferenc, Tibor Gyimóthy:
Towards a Benchmark for Evaluating Design Pattern Miner Tools. CSMR 2008: 143-152 - [c44]Janos Pantos, Árpád Beszédes, Pál Gyenizse, Tibor Gyimóthy:
Experiences in Adapting a Source Code-Based Quality Assessment Technology. CSMR 2008: 311-313 - [c43]Tibor Bakota, Árpád Beszédes, Rudolf Ferenc, Tibor Gyimóthy:
Continuous software quality supervision using SourceInventory and Columbus. ICSE Companion 2008: 931-932 - [c42]Judit Jász, Árpád Beszédes, Tibor Gyimóthy, Václav Rajlich:
Static Execute After/Before as a replacement of traditional software dependencies. ICSM 2008: 137-146 - [c41]László Vidács, Judit Jász, Árpád Beszédes, Tibor Gyimóthy:
Combining Preprocessor Slicing with C/C++ Language Slicing. ICPC 2008: 163-171 - [c40]Lajos Jeno Fülöp, Péter Hegedüs, Rudolf Ferenc, Tibor Gyimóthy:
Towards a Benchmark for Evaluating Reverse Engineering Tools. WCRE 2008: 335-336 - 2007
- [c39]Árpád Beszédes, Tamás Gergely, Szabolcs Farago, Tibor Gyimóthy, Ferenc Fischer:
The Dynamic Function Coupling Metric and Its Use in Software Evolution. CSMR 2007: 103-112 - [c38]Attila Szegedi, Tamás Gergely, Árpád Beszédes, Tibor Gyimóthy, Gabriella Tóth:
Verifying the Concept of Union Slices on Java Programs. CSMR 2007: 233-242 - [c37]Tibor Bakota, Rudolf Ferenc, Tibor Gyimóthy:
Clone Smells in Software Evolution. ICSM 2007: 24-33 - [c36]Árpád Beszédes, Tamás Gergely, Judit Jász, Gabriella Tóth, Tibor Gyimóthy, Václav Rajlich:
Computation of Static Execute After Relation with Applications to Software Maintenance. ICSM 2007: 295-304 - [c35]Zoltán Herczeg, Ákos Kiss, Daniel Schmidt, Norbert Wehn, Tibor Gyimóthy:
XEEMU: An Improved XScale Power Simulator. PATMOS 2007: 300-309 - 2006
- [j19]Miklós Kálmán, Ferenc Havasi, Tibor Gyimóthy:
Compacting XML documents. Inf. Softw. Technol. 48(2): 90-106 (2006) - [j18]David W. Binkley, Sebastian Danicic, Tibor Gyimóthy, Mark Harman, Ákos Kiss, Bogdan Korel:
A formalisation of the relationship between forms of program slicing. Sci. Comput. Program. 62(3): 228-252 (2006) - [j17]Václav Rajlich, Tibor Gyimóthy:
IEEE International Conference on Software Maintenance (ICSM2005). J. Softw. Maintenance Res. Pract. 18(2): 59-60 (2006) - [j16]David W. Binkley, Sebastian Danicic, Tibor Gyimóthy, Mark Harman, Ákos Kiss, Bogdan Korel:
Theoretical foundations of dynamic program slicing. Theor. Comput. Sci. 360(1-3): 23-41 (2006) - [j15]Tibor Gyimóthy, Václav Rajlich:
Guest Editors' Introduction to the Special Issue on the International Conference on Software Maintenance and Evolution. IEEE Trans. Software Eng. 32(9): 625-626 (2006) - [c34]Tibor Bakota, Rudolf Ferenc, Tibor Gyimóthy, Claudio Riva, Jianli Xu:
Towards Portable Metrics-based Models for Software Maintenance Problems. ICSM 2006: 483-486 - [c33]Árpád Beszédes, Tamás Gergely, Tibor Gyimóthy:
Graph-Less Dynamic Dependence-Based Dynamic Slicing Algorithms. SCAM 2006: 21-30 - 2005
- [j14]Ákos Kiss, Judit Jász, Tibor Gyimóthy:
Using Dynamic Information in the Interprocedural Static Slicing of Binary Executables. Softw. Qual. J. 13(3): 227-245 (2005) - [j13]Tibor Gyimóthy, Rudolf Ferenc, István Siket:
Empirical Validation of Object-Oriented Metrics on Open Source Software for Fault Prediction. IEEE Trans. Software Eng. 31(10): 897-910 (2005) - [c32]Attila Szegedi, Tibor Gyimóthy:
Dynamic Slicing of Java Bytecode Programs. SCAM 2005: 35-44 - [c31]David W. Binkley, Sebastian Danicic, Tibor Gyimóthy, Mark Harman, Ákos Kiss, Bogdan Korel:
Minimal Slicing and the Relationships Between Forms of Slicing. SCAM 2005: 45-56 - [c30]Dóra Csendes, János Csirik, Tibor Gyimóthy, András Kocsor:
The Szeged Treebank. TSD 2005: 123-131 - [p1]Rudolf Ferenc, Árpád Beszédes, Tibor Gyimóthy:
Extracting Facts with Columbus from C++ Code. Tools for Software Maintenance and Reengineering 2005: 16-31 - 2004
- [j12]Mark van den Brand, Gerardo Canfora, Tibor Gyimóthy:
Seventh European Conference on Software Maintenance and Reengineering (CSMR 2003). J. Softw. Maintenance Res. Pract. 16(4-5): 217-218 (2004) - [c29]Rudolf Ferenc, István Siket, Tibor Gyimóthy:
Extracting Facts from Open Source Software. ICSM 2004: 60-69 - [c28]