Handbook of Re-Engineering Software Intensive Systems into Software Product Lines
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Handbook of Re-Engineering Software Intensive Systems into Software Product Lines
Martinez, Jabier; Vergilio, Silvia; Ziadi, Tewfik; Acher, Mathieu; Guez Assuncao, Wesley Klewerton; Lopez-Herrejon, Roberto E.
Springer International Publishing AG
11/2022
517
Dura
Inglês
9783031116858
15 a 20 dias
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Part I. Feature location and variability model extraction.- Chapter. 1. Feature Location in Software Variants Toward Software Product Line Engineering.- Chapter. 2. Feature & Variability Extraction From Natural Language Requirements.- Chapter. 3. Semantic History Slicing.- Chapter. 4. Feature Location in Models (FLiM): Design time and Runtime.- Chapter. 5. Search-Based Variability Model Synthesis from Variant Configurations.- Chapter. 6. Extending boolean variability relationship extraction to multi-valued software descriptions.- Chapter. 7. Machine learning for feature constraints discovery.- Part. II. Reengineering product line architectures.- Chapter. 8. Extraction of Software Product Line Architectures from Many System Variants.- Chapter. 9. ModelVars2SPL: from UML Class Diagram Variants to Software Product Line Core Assets.- Chapter. 10. Extraction and Evolution of a Software Product Line from Existing Web-Based Systems.- Chapter. 11. Re-Engineering Microservice Applications into Delta-Oriented Software Product Lines.- Chapter. 12. Understanding the Variability on the Recovery of Product Line Architectures.- Part III. Frameworks.- Chapter. 13. PAxSPL: A framework for aiding SPL Reengineering Planning.- Chapter. 14. Bottom-Up Technologies for Reuse: A Framework to Support Extractive Software Product Line Adoption Activities.- Chapter. 15. Systematic Software Reuse with Automated Extraction and Composition for Clone-and-Own.- Chapter. 16. Re-engineering Automation Software with the Variability Analysis Toolkit.- Chapter. 17. Managing Software Product Line Evolution by Filtered Editing: The SuperMod Approach.- Part. IV. Perspectives.- Chapter. 18. Challenges and Potential Benefits of Adopting Product Line Engineering in Start-Ups: A Preliminary Study.- Chapter. 19. Re-engineering Legacy Systems as Microservices: An industrial survey of criteria to deal with modularity and variability of features.- Chapter. 20. Evolution in Software Product Lines: An overview.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
software engineering;software product lines;configurable systems;variability management;reverse engineering;domain analysis;feature models;configuration management;customization;feature-oriented development;feature localization;Information retrieval;software mining;model-driven engineering;requirements engineering;microservices;software reuse;machine learning;artificial intelligence
Part I. Feature location and variability model extraction.- Chapter. 1. Feature Location in Software Variants Toward Software Product Line Engineering.- Chapter. 2. Feature & Variability Extraction From Natural Language Requirements.- Chapter. 3. Semantic History Slicing.- Chapter. 4. Feature Location in Models (FLiM): Design time and Runtime.- Chapter. 5. Search-Based Variability Model Synthesis from Variant Configurations.- Chapter. 6. Extending boolean variability relationship extraction to multi-valued software descriptions.- Chapter. 7. Machine learning for feature constraints discovery.- Part. II. Reengineering product line architectures.- Chapter. 8. Extraction of Software Product Line Architectures from Many System Variants.- Chapter. 9. ModelVars2SPL: from UML Class Diagram Variants to Software Product Line Core Assets.- Chapter. 10. Extraction and Evolution of a Software Product Line from Existing Web-Based Systems.- Chapter. 11. Re-Engineering Microservice Applications into Delta-Oriented Software Product Lines.- Chapter. 12. Understanding the Variability on the Recovery of Product Line Architectures.- Part III. Frameworks.- Chapter. 13. PAxSPL: A framework for aiding SPL Reengineering Planning.- Chapter. 14. Bottom-Up Technologies for Reuse: A Framework to Support Extractive Software Product Line Adoption Activities.- Chapter. 15. Systematic Software Reuse with Automated Extraction and Composition for Clone-and-Own.- Chapter. 16. Re-engineering Automation Software with the Variability Analysis Toolkit.- Chapter. 17. Managing Software Product Line Evolution by Filtered Editing: The SuperMod Approach.- Part. IV. Perspectives.- Chapter. 18. Challenges and Potential Benefits of Adopting Product Line Engineering in Start-Ups: A Preliminary Study.- Chapter. 19. Re-engineering Legacy Systems as Microservices: An industrial survey of criteria to deal with modularity and variability of features.- Chapter. 20. Evolution in Software Product Lines: An overview.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
software engineering;software product lines;configurable systems;variability management;reverse engineering;domain analysis;feature models;configuration management;customization;feature-oriented development;feature localization;Information retrieval;software mining;model-driven engineering;requirements engineering;microservices;software reuse;machine learning;artificial intelligence