Information systems are built to last for decades; however, the reality suggests otherwise. Companies are often pushed to modernize their systems to reduce costs, meet new policies, improve the security, or to be more competitive. Model-driven engineering (MDE) approaches are used in several successful projects to migrate systems. MDE raises the level of abstraction for complex systems by relying on models as first-class entities. These models are maintained and transformed using model transformations (MT), which are expressed by means of transformation rules to transform models from source to target meta-models. The migration process for information systems may take years for large systems. Thus, many changes are going to be introduced to the transformations to reflect the new business requirements, fix bugs, or to meet the updated metamodels. Therefore, the quality of MT should be continually checked and improved during the evolution process to avoid future technical debts. Most MT programs are written as one large module due to the lack of refactoring/modularization and regression testing tools support. In object-oriented systems, composition and modularization are used to tackle the issues of maintainability and testability. Moreover, refactoring is used to improve the non-functional attributes of the software, making it easier and faster for developers to work and manipulate the code. Thus, we proposed an intelligent computational search approach to automatically modularize MT. Furthermore, we took inspiration from a well-defined quality assessment model for object-oriented design to propose a quality assessment model for MT in particular. The results showed a 45% improvement in the developer’s speed to detect or fix bugs, and developers made 40% less errors when performing a task with the optimized version. Since refactoring operations changes the transformation, it is important to apply regression testing to check their correctness and robustness. Thus, we proposed a multi-objective test case selection technique to find the best trade-off between coverage and computational cost. Results showed a drastic speed-up of the testing process while still showing a good testing performance. The survey with practitioners highlighted the need of such maintenance and evolution framework to improve the quality and efficiency of the existing migration process.Ph.D.College of Engineering & Computer ScienceUniversity of Michigan-Dearbornhttp://deepblue.lib.umich.edu/bitstream/2027.42/149153/1/Bader Alkhazi Final Dissertation.pdfDescription of Bader Alkhazi Final Dissertation.pdf : Restricted to UM users only
