Cross-factor analysis of software engineering practices versus practitioner demographics: An exploratory study in Turkey

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2016

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Elsevier Science inc

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Software Engineering
(2005)
Department of Software Engineering was founded in 2005 as the first department in Ankara in Software Engineering. The recent developments in current technologies such as Artificial Intelligence, Machine Learning, Big Data, and Blockchains, have placed Software Engineering among the top professions of today, and the future. The academic and research activities in the department are pursued with qualified faculty at Undergraduate, Graduate and Doctorate Degree levels. Our University is one of the two universities offering a Doctorate-level program in this field. In addition to focusing on the basic phases of software (analysis, design, development, testing) and relevant methodologies in detail, our department offers education in various areas of expertise, such as Object-oriented Analysis and Design, Human-Computer Interaction, Software Quality Assurance, Software Requirement Engineering, Software Design and Architecture, Software Project Management, Software Testing and Model-Driven Software Development. The curriculum of our Department is catered to graduate individuals who are prepared to take part in any phase of software development of large-scale software in line with the requirements of the software sector. Department of Software Engineering is accredited by MÜDEK (Association for Evaluation and Accreditation of Engineering Programs) until September 30th, 2021, and has been granted the EUR-ACE label that is valid in Europe. This label provides our graduates with a vital head-start to be admitted to graduate-level programs, and into working environments in European Union countries. The Big Data and Cloud Computing Laboratory, as well as MobiLab where mobile applications are developed, SimLAB, the simulation laboratory for Medical Computing, and software education laboratories of the department are equipped with various software tools and hardware to enable our students to use state-of-the-art software technologies. Our graduates are employed in software and R&D companies (Technoparks), national/international institutions developing or utilizing software technologies (such as banks, healthcare institutions, the Information Technologies departments of private and public institutions, telecommunication companies, TÜİK, SPK, BDDK, EPDK, RK, or universities), and research institutions such TÜBİTAK.

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Abstract

Context: Understanding the types of software engineering practices and techniques used in the industry is important. There is a wide spectrum in terms of the types and maturity of software engineering practices conducted in each software team and company. Furthermore, it is important to understand the cross-factor relationship of software engineering practices and practitioner demographics including their companies and projects, e.g., is it the case that practitioners developing software for sectors such as military would utilize software size measurement approaches more, or use different software development methodologies, compared to practitioners developing software for other sectors?, and what kinds of practices are conducted by practitioners in small versus large companies? Objective: Our objective is to get an understanding into the cross-factor correlation of various software engineering practices versus practitioner demographics including their companies and projects (e.g., target industry, size and work experience). Such an understanding will enable us to identify patterns and pinpoint special issues which should be studied and addressed in the context of each specific demographic (e.g., small versus large companies). Thus, we decided to conduct an exploratory study in this area and collected real industrial data in the context of Turkey which has a vibrant software industry. Method: To achieve the above objective, we use the data from a recent Turkish-wide survey of software engineering practices which was systematically designed with 46 questions based on our past experience in the Canadian context and using the Software Engineering Body of Knowledge (SWEBOK). 202 practicing software engineers participated in the survey. We raise a set of 12 research questions about the cross-factor correlation of software engineering practices and practitioner demographics, and address them using statistical analysis. Results: The exploratory study results reveal important and interesting findings about cross-factor relationship of software engineering practices and practitioner demographics. Among some of the most interesting findings are the followings: (1) By analyzing the trends, we were first surprised to see that as a practitioner gets more years of work experience, against what one would expect, s/he experiences more challenges in Software Development Life-Cycle (SDLC) phases and SE tasks; (2) Almost 55% of participants measure software size; (3) Agile/lean development is used the least (16%) by the participants working in the companies serving the military and defense sector; (4) Usage of waterfall is low among participants employed by small sized companies whereas Agile/lean development is relatively popular among this class of participants; and (5) As company size increases, usage of spiral development slightly increases, whereas usage of extreme programming practices decreases. Conclusion: The results of this exploratory study will be useful to software engineering professionals and researchers both in Turkey and world-wide by revealing the cross-factor relationship of software engineering practices versus practitioner demographics. The study raises several new research directions, e.g., (1) Why are not many practitioners using any size nor project estimation metrics and how these fundamental engineering approaches could be utilized more frequently?, (2) What are the best practices, success stories and challenging experiences in using SE tools?, and (3) Why is Agile lean development is not popular in the military and defense sector and how these approaches could be utilized more frequently. (C) 2015 Elsevier Inc. All rights reserved.

Description

Coskuncay, Ahmet/0000-0002-7411-310X; Yazici, Ali/0000-0001-5405-802X; Demirors, Onur/0000-0001-6601-3937; Garousi, Vahid/0000-0001-6590-7576

Keywords

Cross-factor analysis, Software engineering practices, Practitioner demographics

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Citation

8

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Q2

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Volume

111

Issue

Start Page

49

End Page

73

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