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The Analysis of Mathematical Skills Used in the Software Industry

Yıl 2020, , 92 - 100, 31.12.2020
https://doi.org/10.47000/tjmcs.789945

Öz

Mathematical skills can provide a scientific basis for software engineering (SE) activities by helping practitioners comprehend the unambiguous logic, which is critical for both abstract thinking and problem solving besides development of any applications in the software industry. Many practitioners in different roles take different mathematics courses at the university education; however there are various perceptions about the necessity and the weight of these courses. \textit{"What are their usage in the software industry?}" or \textit{"do we need such a (heavy) mathematical curriculum at the university?}" are frequently asked questions for software teams. To better understand different opinions, we utilized the results of our survey, which investigated the skills gaps in the software industry. 628 Turkey-educated practitioners, whose undergraduate degree was completed in Turkey, working in 13 countries responded the survey. In this paper, we examined different perceptions (1) about the usage of the mathematics courses in the software industry; and (2) about current weight of these courses in the curriculum. The findings shed light on the perceptions about mathematical skills in the industry by presenting various cross-factor analysis.

Kaynakça

  • Akdur, D., \textit{A Survey on Bridging the Gap between Software Industry and Academia: Preliminary Results}, in 13th Turkish National Software Engineering Symposium, 2019, \url{https://www.researchgate.net/publication/334559697_A_Survey_on_Bridging_the_Gap_between_Software_Industry_and_Academia_Preliminary_Results.}
  • Akdur, D, Modeling Patterns and Cultures of Embedded Software Development Projects, Thesis, Doctor of Philosophy (PhD), Information Systems, Middle East Technical University (METU), 2018.
  • Akdur, D., \textit{The Design of a Survey on Bridging the Gap between Software Industry Expectations and Academia}, in 8th Mediterranean Conference on Embedded Computing (MECO), Montenegro: IEEE, 2019, doi:10.1109/MECO.2019.8760101.
  • Akdur, D., Raw Data Results: Survey on Bridging the Skills Gap, Mendeley Data, v1, http://dx.doi.org/10.17632/fx537tpw6f.1, 2020.
  • Akdur, D., {\em Survey Form: Bridging the Gap between Software Industry Expectations and Academic Activities}. Available: \url{https://drive.google.com/file/d/1-1DAexMmd4_om_kahwDXLBwYdCYJ_l2m/view}, (accessed Mar 15, 2019).
  • Bourque, P., Fairley, R. E., {\it Guide to the Software Engineering Body of Knowledge (SWEBOK(R)): Version 3.0}: IEEE Computer Society, 2014.
  • Devlin, K. J., The math gene: How mathematical thinking evolved and why numbers are like gossip: Basic Books, 2001.
  • Kitchenham B., Budgen D., Brereton P., Woodall P., {\em An investigation of software engineering curricula}, Journal of Systems and Software, \textbf{74}(3)(2005, 325-335, doi:https://doi.org/10.1016/j.jss.2004.03.016.
  • Lethbridge T. C., \textit{A survey of the relevance of computer science and software engineering education}, in Proceedings 11th Conference on Software Engineering Education, 1998, doi:10.1109/CSEE.1998.658300.
  • Lin\r{a}ker J., Sulaman S.M., Maiani de Mello R., H\"{o}st M., Runeson P., Guidelines for Conducting Surveys in Software Engineering, 2015.
  • Shull F., Singer J., and Sj\o{}berg D. I. K., Guide to Advanced Empirical Software Engineering, Springer-London, Inc., 2010.
  • Surakka S., {\em What subjects and skills are important for software developers?}, Commun. ACM, \textbf{50}(1)(2007), 73-78, doi:10.1145/1188913.1188920.
  • Wohlin C., Runeson P., H\"{o}st M., Ohlsson M. C., Regnell B., Wessl\'en A., Experimentation in Software Engineering, Springer Berlin Heidelberg, 2012.
Yıl 2020, , 92 - 100, 31.12.2020
https://doi.org/10.47000/tjmcs.789945

Öz

Kaynakça

  • Akdur, D., \textit{A Survey on Bridging the Gap between Software Industry and Academia: Preliminary Results}, in 13th Turkish National Software Engineering Symposium, 2019, \url{https://www.researchgate.net/publication/334559697_A_Survey_on_Bridging_the_Gap_between_Software_Industry_and_Academia_Preliminary_Results.}
  • Akdur, D, Modeling Patterns and Cultures of Embedded Software Development Projects, Thesis, Doctor of Philosophy (PhD), Information Systems, Middle East Technical University (METU), 2018.
  • Akdur, D., \textit{The Design of a Survey on Bridging the Gap between Software Industry Expectations and Academia}, in 8th Mediterranean Conference on Embedded Computing (MECO), Montenegro: IEEE, 2019, doi:10.1109/MECO.2019.8760101.
  • Akdur, D., Raw Data Results: Survey on Bridging the Skills Gap, Mendeley Data, v1, http://dx.doi.org/10.17632/fx537tpw6f.1, 2020.
  • Akdur, D., {\em Survey Form: Bridging the Gap between Software Industry Expectations and Academic Activities}. Available: \url{https://drive.google.com/file/d/1-1DAexMmd4_om_kahwDXLBwYdCYJ_l2m/view}, (accessed Mar 15, 2019).
  • Bourque, P., Fairley, R. E., {\it Guide to the Software Engineering Body of Knowledge (SWEBOK(R)): Version 3.0}: IEEE Computer Society, 2014.
  • Devlin, K. J., The math gene: How mathematical thinking evolved and why numbers are like gossip: Basic Books, 2001.
  • Kitchenham B., Budgen D., Brereton P., Woodall P., {\em An investigation of software engineering curricula}, Journal of Systems and Software, \textbf{74}(3)(2005, 325-335, doi:https://doi.org/10.1016/j.jss.2004.03.016.
  • Lethbridge T. C., \textit{A survey of the relevance of computer science and software engineering education}, in Proceedings 11th Conference on Software Engineering Education, 1998, doi:10.1109/CSEE.1998.658300.
  • Lin\r{a}ker J., Sulaman S.M., Maiani de Mello R., H\"{o}st M., Runeson P., Guidelines for Conducting Surveys in Software Engineering, 2015.
  • Shull F., Singer J., and Sj\o{}berg D. I. K., Guide to Advanced Empirical Software Engineering, Springer-London, Inc., 2010.
  • Surakka S., {\em What subjects and skills are important for software developers?}, Commun. ACM, \textbf{50}(1)(2007), 73-78, doi:10.1145/1188913.1188920.
  • Wohlin C., Runeson P., H\"{o}st M., Ohlsson M. C., Regnell B., Wessl\'en A., Experimentation in Software Engineering, Springer Berlin Heidelberg, 2012.
Toplam 13 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Matematik, Mühendislik
Bölüm Makaleler
Yazarlar

Deniz Akdur 0000-0001-8966-2649

Yayımlanma Tarihi 31 Aralık 2020
Yayımlandığı Sayı Yıl 2020

Kaynak Göster

APA Akdur, D. (2020). The Analysis of Mathematical Skills Used in the Software Industry. Turkish Journal of Mathematics and Computer Science, 12(2), 92-100. https://doi.org/10.47000/tjmcs.789945
AMA Akdur D. The Analysis of Mathematical Skills Used in the Software Industry. TJMCS. Aralık 2020;12(2):92-100. doi:10.47000/tjmcs.789945
Chicago Akdur, Deniz. “The Analysis of Mathematical Skills Used in the Software Industry”. Turkish Journal of Mathematics and Computer Science 12, sy. 2 (Aralık 2020): 92-100. https://doi.org/10.47000/tjmcs.789945.
EndNote Akdur D (01 Aralık 2020) The Analysis of Mathematical Skills Used in the Software Industry. Turkish Journal of Mathematics and Computer Science 12 2 92–100.
IEEE D. Akdur, “The Analysis of Mathematical Skills Used in the Software Industry”, TJMCS, c. 12, sy. 2, ss. 92–100, 2020, doi: 10.47000/tjmcs.789945.
ISNAD Akdur, Deniz. “The Analysis of Mathematical Skills Used in the Software Industry”. Turkish Journal of Mathematics and Computer Science 12/2 (Aralık 2020), 92-100. https://doi.org/10.47000/tjmcs.789945.
JAMA Akdur D. The Analysis of Mathematical Skills Used in the Software Industry. TJMCS. 2020;12:92–100.
MLA Akdur, Deniz. “The Analysis of Mathematical Skills Used in the Software Industry”. Turkish Journal of Mathematics and Computer Science, c. 12, sy. 2, 2020, ss. 92-100, doi:10.47000/tjmcs.789945.
Vancouver Akdur D. The Analysis of Mathematical Skills Used in the Software Industry. TJMCS. 2020;12(2):92-100.