Abstract
Since the time of Aristotle’s thinking of logic to being a tool for orderly think, has maintained its importance until the present times. So soon, studies of the non-classical logical calls (Abe in 4th International Workshop on Soft Computing Applications. IEEE, pp. 11–18, 2010 [1]) have become a powerful tool as an aid in the making of decisions. The Paraconsistent logic calls attention to the clarity of containing provisions contrary to some of the basic principles of Aristotelian logic, such as the principle of contradiction. In this article, the use of technology allows proposing a structured organization in the process for use of Paraconsistent artificial neural networks. This process aims to be a facilitator in supporting the construction of the decision support (Abe in 4th International Workshop on Soft Computing Applications. IEEE, pp. 11–18, 2010 [1]) with the announcements for project recount in the function point analysis technique.
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References
Abe, J.M.: Paraconsistent logics and applications. In: 4th International Workshop on Soft Computing Applications, pp. 11–18. IEEE (2010)
Pressman, R.S.: Software engineering: a practitioner’s approach, 7th edn. The McGraw-Hill Companies, Inc., New York (2011). ISBN: 0073375977/9780073375977
Jones, C.: Software Engineering Best Practices. McGraw-Hill (2010)
Jones, C.: A short history of lines of code (LOC) metrics (2008)
Boehm, B., Valerdi, R., Lane, J., Brown, A.: COCOMO suite methodology and evolution. Crosstalk 18(4), 20–25 (2005)
ENASE (conference), Leszekmaciaszek, and Kang Zhang (2015): Evaluation of Novel Approaches to Software Engineering: 9th International Conference, ENASE 2014, Lisbon, Portugal, 28–30 Apr, revised selected papers (2014). http://rave.ohiolink.edu/ebooks/ebc/9783319272184
ISO/IEC 24570: 2005 (NESMA FPA ver.2.1) preview software Engineering—NESMA Functional size measurement method version 2.1—definitions and counting guidelines for the application of function point analysis (2005)
IFPUG: If pug 4.3.1 Unadjusted functional size measurement method—counting practices manual, international organization for standardization, ISO/IEC 20926 (2010)
IFPUG: If pug 4.2 Unadjusted functional size measurement method—counting practices manual, international organization for standardization, ISO/IEC 20926 (2009)
Hevner, A.R., March, S.T., Park, J., Ram, S.: Design science in information systems research. MIS Q. 28, 75–105 (2004)
Hevner, Alan R.: A three cycle view of design science research. Scand. J. Inf. Syst. 19, 87–92 (2007)
Wrigley, C.D., Dexter, A.S.: Design science in information systems research. MIS Q. 15, 245–257 (1991)
Schneider, G., Winters, J.P.: Agile software development with Scrum. Prentice Hall. Applying Use Cases: A Practical Guide. Addison Wesley (1998)
Ribu, K.: Estimating object-oriented software projects with use Cases. Master of Science thesis, University of Oslo, Department of informatics. Schwaber, Ken, and Mike Beedle (2001)
BFPUG: Brazilian Function Point User Group, www.bfpug.com.br (2006)
Ash, C.: Convergence of IT Project Management and Change Management: A Comparative Study. Cepis Promotes 47 (2007)
PMI: Project Management Institute, Guide PMBOK®—6th edn. Project Management Institute Inc. (2017)
Abe, J.M., Akama, S., Nakamatsu, K.: Paraconsistent Intelligent-Based Systems—New Trends in the Applications of Paraconsistency, 1st edn, vol. 1. Springer International Publishing, Switzerland (2015). ISBN https://doi.org/10.1007/978-3-319-17912-4
Abe, J.M., Akama, S., Nakamatsu, K.: Introduction to Annotated Logics—Foundations for Paracomplete and Paraconsistent Reasoning, Intelligent Systems Reference Library, 1st edn., vol. 88, p. 190. Publisher Springer International Publishing (2015). https://doi.org/10.1007/978-3-319-17912-4, Hardcover ISBN: 978-3-319-17911-7, Series ISSN: 1868-4394
Abe, J.M.: Paraconsistent Intelligent Based-Systems: New Trends in the Applications of Paraconsistency. Intelligent Systems Reference Library, vol. 94, p. 306. Springer, Germany (2015). ISBN: 978-3-319-19721-0
Akama, S.: Towards Paraconsistent Engineering, Intelligent Systems Reference Library, vol. 110, p. 234. Publisher Springer International Publishing (2016). ISBN: 978-3-319-40417-2 (Print) 978-3-319-40418-9 (Online), Series ISSN: 1868-4394. https://doi.org/10.1007/978-3-319-40418-9
Görög, M.: A broader approach to organizational project management maturity assessment. Int. J. Project Manag. 34(8), 1658–1669 (2016)
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de Lima, L.A., Abe, J.M., Martinez, A.A.G., de Frederico, A.C., Nakamatsu, K., Santos, J. (2020). Process and Subprocess Studies to Implement the Paraconsistent Artificial Neural Networks for Decision-Making. In: Jain, V., Patnaik, S., Popențiu Vlădicescu, F., Sethi, I. (eds) Recent Trends in Intelligent Computing, Communication and Devices. Advances in Intelligent Systems and Computing, vol 1006. Springer, Singapore. https://doi.org/10.1007/978-981-13-9406-5_61
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DOI: https://doi.org/10.1007/978-981-13-9406-5_61
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