[1. The Institute of Electrical and Electronics Engineers, „Guide to the Software Engineering Body of Knowledge,“ 2004. p. 120.]Search in Google Scholar
[2. Z. ROŠKO. 2012. Strategy Pattern as a Variability Enabling Mechanism in Product Line Architecture.]Search in Google Scholar
[3. L. N. Paul Clements, Software Product Lines: Practices and Patterns, 3 ed., Westford, MA: Addison-Wesley Professional, 2001, p. 608.]Search in Google Scholar
[4. V. S. S. P. Kyo C. 2011. Kang. Applied Software Product Line Engeenering. Taylor andFrancis Group, p.]Search in Google Scholar
[5. G. B. a. F. J. v. d. L. Klaus Pohl. 2005. „Software Product Line Engineering:Foundations, Principles and Techniques,“ Springer-Verlag, pp. 12, 14, 15, 46, 62, 156, 157.]Search in Google Scholar
[6. C. PARRA. 2011. Towards Dynamic Software Product Lines: Unifying Design and Runtime Adaptations.]Search in Google Scholar
[7. M. G. J. C. M. Edson A Oliveira Junior. 2001. Empirical Validation of Variability-based Complexity Metrics for Software Product Line Architecture.]Search in Google Scholar
[8. K. H. D. c. S. Frank Buschmann. 2007. Pattern-Oriented Software Architecture, zv. 4, p. 187.]Search in Google Scholar
[9. J. Robert G. Crispen and Lynn D. Stuckey. 1994. STRUCTURAL MODEL: Architecture for Software Designers.10.1145/197694.197729]Search in Google Scholar
[10. K. K. K. &. L. J. Lee. 2002. Concepts and guidelines of feature modeling for product line software engineering. Lecture Notes in Computer Science, pp. 62,77.]Search in Google Scholar
[11. R. MARTIN. 1994. OO design quality metrics. An analysis of dependencies.]Search in Google Scholar
[12. Rahman. 2004. Metrics for the Structural Assessment of Product Line Architecture.]Search in Google Scholar
[13. N. M. a. A. v. d. H. Ebru Dincel. 2002. Measuring Product Line Architectures. SoftwareProduct-Family Engineering, pp. 151-170.]Search in Google Scholar
[14. Z. ROŠKO. 2013. Assessing the Responsibility of Software Product Line Platform Framework for Business Applications. CECIIS.]Search in Google Scholar
[15. G. a. G. D. ". a. f. f. s. m. c. D. R. R. 9. (. 1.-4. Poels, DISTANCE: a framework for software measure construction. DTEW Research Report 9937, pp. 1-47, 1999.]Search in Google Scholar
[16. L. C. S. M. a. V. R. B. Briand. 1996. Property-based software engineering measurement. Software Engineering, IEEE Transactions on 22.1, pp. 68-86.]Search in Google Scholar
[17. „An Industrial Case Study of Product Family Development Using a Component Framework“.]Search in Google Scholar
[18. K. S. E. R. Frank van der Linden. 2010. Software product lines in action, the best industrial practice in product line engineering. Springer, p. 8.]Search in Google Scholar
[19. D. G. Ebrahim Bagheri. 2011. Assessing the maintainability of software product line feature models using structural metrics. ]Search in Google Scholar