His primary areas of investigation include Model transformation, Model-driven architecture, Programming language, Software development and Data mining. Benoit Baudry interconnects Correctness, Software engineering, Oracle and Systems engineering in the investigation of issues within Model-driven architecture. His research in Software engineering focuses on subjects like Software, which are connected to Data modeling.
His studies deal with areas such as Reliability engineering, Pairwise comparison and Automatic test pattern generation as well as Data mining. Benoit Baudry has included themes like Unified Modeling Language, Set, Pruning and Kermeta in his Metamodeling study. His work in Theoretical computer science tackles topics such as Scalability which are related to areas like Test case.
Benoit Baudry spends much of his time researching Software engineering, Software, Programming language, Set and Data mining. His Software engineering research is multidisciplinary, relying on both Software development and Systems engineering. The Software construction, Component-based software engineering and Social software engineering research Benoit Baudry does as part of his general Software development study is frequently linked to other disciplines of science, such as Model transformation, therefore creating a link between diverse domains of science.
His studies in Systems engineering integrate themes in fields like Model-driven architecture and Requirements analysis. In his research, Software deployment is intimately related to Distributed computing, which falls under the overarching field of Software. His study looks at the relationship between Set and fields such as Test case, as well as how they intersect with chemical problems.
His primary areas of study are Software, Programming language, Software engineering, Set and Software system. The Software study combines topics in areas such as Test suite, Test case, Algorithm and Language construct. His study in Test case is interdisciplinary in nature, drawing from both Machine learning and Artificial intelligence.
His Modeling language, Metamodeling, Executable and Domain-specific language study in the realm of Programming language interacts with subjects such as TRACE. His Software engineering research includes elements of Model-driven architecture, Software development, Software bug, Java and Cloud computing. His work carried out in the field of Set brings together such families of science as Test data, Reverse engineering, Traceability and Source code.
Benoit Baudry mainly focuses on Programming language, Modeling language, Software development, Set and TRACE. Benoit Baudry specializes in Programming language, namely Domain-specific language. His study looks at the relationship between Modeling language and topics such as Metamodeling, which overlap with Domain.
Benoit Baudry is involved in the study of Software development that focuses on Software construction in particular. As part of one scientific family, Benoit Baudry deals mainly with the area of Set, narrowing it down to issues related to the Traceability, and often Porting, Product description and Information extraction. His Software engineering study integrates concerns from other disciplines, such as Test suite and Testability.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Automated and Scalable T-wise Test Case Generation Strategies for Software Product Lines
Gilles Perrouin;Sagar Sen;Jacques Klein;Benoit Baudry.
international conference on software testing, verification, and validation (2010)
Improving test suites for efficient fault localization
Benoit Baudry;Franck Fleurey;Yves Le Traon.
international conference on software engineering (2006)
Beauty and the Beast: Diverting Modern Web Browsers to Build Unique Browser Fingerprints
Pierre Laperdrix;Walter Rudametkin;Benoit Baudry.
ieee symposium on security and privacy (2016)
Metamodel-based Test Generation for Model Transformations: an Algorithm and a Tool
E. Brottier;F. Fleurey;J. Steel;B. Baudry.
international symposium on software reliability engineering (2006)
A Generic Approach for Automatic Model Composition
Franck Fleurey;Benoit Baudry;Sudipto Ghosh.
model driven engineering languages and systems (2008)
Barriers to systematic model transformation testing
Benoit Baudry;Sudipto Ghosh;Franck Fleurey.
Communications of The ACM (2010)
Validation in model-driven engineering: testing model transformations
F. Fleurey;J. Steel;B. Baudry.
Proceedings. 2004 First International Workshop on Model, Design and Validation, 2004. (2004)
Pairwise testing for software product lines: comparison of two approaches
Gilles Perrouin;Sebastian Oster;Sagar Sen;Jacques Klein.
Software Quality Journal (2012)
Automatic Model Generation Strategies for Model Transformation Testing
Sagar Sen;Benoit Baudry;Jean-Marie Mottu.
international conference on model transformation (2009)
Model-driven engineering for software migration in a large industrial context
Franck Fleurey;Erwan Breton;Benoit Baudry;Alain Nicolas.
model driven engineering languages and systems (2007)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: