Traceability Assessment Model to Estimate Quality of the Effective EProcurement Process in Adoption

Surabhi Saxena; Devendra Agarwal

doi:https://doi.org/10.14445/22315381/IJETT-V58P232

Research Article | Open Access | Download PDF

Volume 58 | Number 2 | Year 2018 | Article Id. IJETT-V58P232 | DOI : https://doi.org/10.14445/22315381/IJETT-V58P232

Traceability Assessment Model to Estimate Quality of the Effective EProcurement Process in Adoption

Surabhi Saxena, Devendra Agarwal

Citation :

Surabhi Saxena, Devendra Agarwal, "Traceability Assessment Model to Estimate Quality of the Effective EProcurement Process in Adoption," International Journal of Engineering Trends and Technology (IJETT), vol. 58, no. 2, pp. 177-180, 2018. Crossref, https://doi.org/10.14445/22315381/IJETT-V58P232

Abstract

Developing high quality software is a necessary for software system. Traceability is a significant aspect during the software development process. Software that is easily traceable is known as high quality software. Quantification is an essential aspect that is acquainted with the objective of producing high quality software. It is suggested to assessment of traceability with design construct. In this article, experts propose a traceability assessment model. The developed models for computing traceability point outs the possible influence of design characteristics and also discussion the impact analysis of computation with design stage metrics.

Keywords

Software Quality , Traceability , Assessment model

References

1. J. Castro, R. Candida, A. M. Castor, and J. Mylopoulos, “Requirements Traceability in Agent Oriented Software Engineering”. Book chapter In Software Engineering for Large-Scale Multi-Agent Systems: Research Issues and Practical Applications, LNCS 2603, Editors A. Garcia; C. Lucena; F. Zambonelli; A. Omicini; J. Castro Springer Verlag. 2003.
2. Antti Evesti, Eila Niemela, Katia Henttonen and MakoPalviainen, “A Tool Chain for Quality-driven Software Architecting”, 2008, IEEE International Software Product LineConference.
3. J. Castro, M. Kolp, and J. Mylopoulos, Towards Requirements-Driven Information Systems Engineering: The Tropos Project. Information Systems Journal, Elsevier, 2002. Vol 27, pp. 365-89
4. P. Bresciani, P. Giorgini, F. Giunchiglia, J. Mylopoulos, A. Perini “Tropos: An Agent –Oriented Software Development Methodology’”, in Autonomous Agents and Multi –Agent Systems 8 (3): 203- 236, May 2004.
5. B. Ramesh, and M. Jarke, Towards Reference Models For Requirements Traceability. IEEE Transactions on Software Eng., vol. 27, pp. 58-93, Jan. 2001
6. O. Gotel, Contribution Structures for Requirements Engineering. Ph.D Thesis. Department of Computing, Imperial College of Science, Technology, and Medicine, London, U.K., 1996.
7. Nikhat et. al. , “Model to Quantify Availability at Requirement Phase”, American Journal of Software Engineering and Applications Volume 4, Issue 5, October 2015.
8. Antti Evesti, Eila Niemela, Katia Henttonen and MakoPalviainen, “A Tool Chain for Quality-driven Software Architecting”, 2008, IEEE International Software Product LineConference.
9. NupurSoni, Dr. MazharKhaliq, 2015, “Maintainability Estimation of Object Oriented Software: Design Phase Perspective”. International Journal of Advanced Research in Computer and Communication EngineeringVol. 4, Issue 3, March 2015.
10. DevpriyaSoni, Dr. NamitaShrivastava and Dr. M. Kumar, 2010, “A Methodology for Empirical Quality Assessment ofObject-Oriented Design”. (IJCSIS) International Journal of Computer Science and Information Security, Vol. 7, No.2, 2010.
11. M. Jureczko & L. Madeyski, “Towards identifying software project clusters with regard to defect prediction”, IEEE, 2010.
12. Nikhat et. al., “Model to Quantify Integrity at Requirement Phase”, Indian Journal of Science and Technology, Vol 9(29), DOI: 10.17485/ijst/2016/v9i29/89280, August 2016.