BazEkon - Biblioteka Główna Uniwersytetu Ekonomicznego w Krakowie

BazEkon home page

Meny główne

Koulla Moulla Donatien (University of Ngaoundere, Ngaoundere, Cameroon), Abran Alain (École de Technologie Supérieure, Department of Software Engineering and Information Technology, Montréal, Canada), Kolyang
An Architecture for Effort Estimation of Solutions Based on Open Source
Roczniki Kolegium Analiz Ekonomicznych / Szkoła Główna Handlowa, 2016, nr 43, s. 69-85, rys., tab., bibliogr. 35 poz.
Słowa kluczowe
Otwarte oprogramowanie, Licencje, Norma ISO/IEC, Jakość projektu
Open source, Licences, ISO/IEC standard, Project quality
Much software development is now conducted using other software products with open licenses and using a cooperative and distributed model. However, most research works on effort estimation of software projects have focused on conventional (traditional) projects with commercial licenses and are therefore not taking into account the software built using Open Source. This paper proposes an architecture for effort estimation of solutions based on Open Source. (original abstract)
Dostępne w
Biblioteka Szkoły Głównej Handlowej w Warszawie
Biblioteka Główna Uniwersytetu Ekonomicznego w Poznaniu
Pełny tekst
  1. Albrecht A. J., Gaffney J. E., Software Function, Source Lines of Code, and Development Effort Prediction: A Software Science Validation, "IEEE Transactions on Software Engineering" 1983, vol. 9, no. 6, pp. 639-648.
  2. Albrecht A. J., Measuring Application Development Productivity, IBM Application Development Symposium, Monterey, October 1979, pp. 14-17.
  3. Amor J. J., Robles G., González-Barahona J. M., Effort Estimation by Characterizing Developer Activity, Proceedings of the 2006 International Workshop on Economics Driven Software Engineering Research, ACM 2006, pp. 3-6.
  4. Anbalagan P., Vouk M., On Predicting the Time Taken to Correct Bug Reports in Open Source Projects, Software Maintenance 2009, ICSM 2009, IEEE International Conference on, IEEE 2009, pp. 523-526.
  5. Asundi J., Kazman R., Klein M., An Architectural Approach to Software Cost Modeling,Second International Workshop on Economics-driven Software Engineering Research, Limerick 2000.
  6. Asundi J., The Need for Effort Estimation Models for Open Source Software Projects, 5-WOSSE Proceedings of the 5th Qorkshop on Open Source Software Engineering, New York 2005.
  7. Beyer D., Co-change Visualization Applied to PostgreSQL and ArgoUML, In Proceedings of the 3 rd International Workshop on Mining Software Repositories 2006,pp.165-166.
  8. Boehm B. W, Abts C., Brown A. W., Chulani S., Clark B. K., Horowitz E., Madachy R.,Reifer D. J., Teece B., Software Cost Estimation with COCOMO II, Prentice-Hall, New Jersey 2000.
  9. Boehm B. W., A Spiral Model for Software Development and Enhancement, "IEEE Computer"1988, vol. 21, no. 5, pp. 61-72.
  10. Boehm B. W., Software Engineering Economics Prentice-Hall, New Jersey 1981.
  11. Bollinger T., Nelson R., Self K. M., Turnbull S. J., Open Source Methods: Peering through the Clutter, "IEEE Software" 1999, vol. 16, no. 4, pp. 8-11.
  12. Capiluppi A., Izquierdo-Cortazar D., Effort Estimation of FLOSS Projects: A Study of the Linux Kernel, "Journal of Empirical Software Engineering" 2013, vol. 18, no. 1, pp. 60-88.
  13. Capra E., Francalanci C., Merlo F., An Empirical Study on the Relationship among Software Design Quality, Development Effort, and Governance in Open Source Projects,"IEEE Transactions on Software Engineering" 2008, vol. 34, no. 6, pp.765-782.
  14. Capra E., Francalanci C., Merlo F., The Economics of Community Open Source Software Projects: An Empirical Analysis of Maintenance Effort, "Advances in Software Engineering" 2010.
  15. COSMIC/IFPUG Glossary of Non-Functional Requirements and Project Terms, v. 1.0,June 2015.
  16. Dit B., Revelle M., Gethers M., Poshyvanyk D., Feature Location in Source Code: A Taxonomy and Survey, "Journal of Software: Evolution and Process" 2013, vol. 25, no. 1, pp. 53-95.
  17. Dongsun K., Yida T., Sunghun K., Andreas Z., Where Should We Fix This Bug? A Two Phase Recommendation Model, "IEEE Transactions on Software Engineering" 2013, vol. 39, issue 11, pp. 1597-1610.
  18. Ihara A., Monden A., Matsumoto K., Industry Questions about Open Source Software in Business: Research Directions and Potential Answers, 6th International Workshop on Empirical Software Engineering in Practice 2014, pp. 55-59.
  19. ISO/IEC 14143/1:2011, Information Technology = Software Measurement - Functional Size Measurement.
  20. ISO/IEC 24765:2010, Systems and Software Engineering Vocabulary.
  21. Kalliamvakou E., Gousios E., Spinellis G., Pouloudi D., Measuring Developer Contribution from Software Repository Data, MCIS 2009 4th Mediterranean Conference on Information Systems, Athens 2009, pp. 600-611.
  22. Koch S., Effort Modelling and Programmer Participation in Open Source Software Projects,Information Economics and Policy 2008.
  23. Koch S., Organisation of Work in Open Source Projects: Expended Effort and Efficiency,"Revue d'économie industrielle" 2011, no. 136, 4ème trimester.
  24. Koch S., Profiling an Open Source Ecology and its Programmers, "Electronic Markets"2004, vol. 14, no. 2, pp. 416-429.
  25. Koch S., Schneider G. Effort, Cooperation and Coordination in an Open Source Software Project: GNOME, "Information Systems Journal" 2002.
  26. Mielva Y. M., Dallmeier V., Burger M., Zeller A., Mining Trends of Library Usage, In Proceedings of the International Workshop on Principles of Software Evolution 2009, pp. 57-62.
  27. Mockus A., Fielding R., Herbsleb J., Two Case Studies of Open Source Software Development:Apache and Mozilla, "CM Transactions on Software Engineering and Methodology" 2002, vol. 11, no. 3, pp. 309-346.
  28. Moulla D. K., Damakoa I., Kolyang, Application of Function Points to Software Based on Open Source: A Case Study, Proceedings of the Joint Conference of the International Workshop on Software Measurement and the International Conference on Software Process and Product Measurement, Rotterdam 2014.
  29. Moulla D. K., Kolyang, COCOMO Model for Software Based on Open Source: Application to the Adaptation of TRIADE to the University System, "International Journal on Computer Science and Engineering" 2013, vol. 5, pp. 522-527.
  30. Raymond E. S., The Cathedral and the Bazaar, O'Reilly & Associates, Cambridge 1999.
  31. Robles G., González-Barahona J. M., Cervigón C., Capiluppi A., Izquierdo-Cortázar D.,Estimating Development Effort in Free/Open Source Software Projects by Mining Software Repositories: A Case Study of OpenStack, MSR 2014 Proceedings of the 11th Working Conference on Mining Software Repositories, Hyderabad 2014.
  32. Stamelos I., Angelis L., Oikonomou A., Bleris G. L., Code Quality Analysis in Open Source Software Development, "Information Systems Journal" 2002, vol. 12, no. 1, pp. 43-60.
  33. Tiwari V., Some Observations on Open Source Software Development on Software Engineering Perspectives, "International Journal of Computer Science & Information Technology", December 2010, vol. 2, no. 6.
  34. Vixie P., Software Engineering, in: Open Sources: Voices from the Open Source Revolution, eds. C. DiBona et al., O'Reilly, Cambridge 1999.
  35. Wieringa R., Daneva M., Six Strategies for Generalizing Software Engineering Theories, "Science of Computer Programming" 2015, no. 101, pp. 136-152.
Cytowane przez
Udostępnij na Facebooku Udostępnij na Twitterze Udostępnij na Google+ Udostępnij na Pinterest Udostępnij na LinkedIn Wyślij znajomemu