John Barr scite author profile

Context: Global Software Engineering (GSE) has become the predominant form of software development for global companies and has given rise to a demand for students trained in GSE. In response, universities are developing courses and curricula around GSE and researchers have begun to disseminate studies of these new approaches. Problem: GSE differs from most other computer science fields, however, in that practice is inseparable from theory. As a result, educators looking to create GSE courses face a daunting task: integrating global practice into the local classroom. Aim: This study aims to ameliorate the very difficult task of teaching GSE by delineating the challenges and providing some recommendations for overcoming them. Method:To meet our aims we pose two research questions ("When teaching GSE to students in Higher Education, what are the (a) challenges, and (b) recommendations for addressing them") and then conduct a systematic literature review (SLR) to determine the answers to these questions. Our SLR follows a carefully designed and validated protocol. Results: We found 82 papers that addressed our research questions. Our findings indicate that in addition to the challenges posed by GSE in general, particular problems arise in educational situations. The majority of these challenges fall into the "global distance" category, though teamwork challenges and people issues (such as trust) also commonly arise. Organizational differences between institutions, differing skill sets between students in different locations, and varying cultural work norms, for example, all operate within educational settings in quite different ways than in professional development teams. Integrating cultural training, conducting teamwork exercises to build trust, and instructor monitoring of team communication are all examples of techniques that have been used successfully by educators according to our review Conclusion: Despite the severity of the challenges in GSE education, many institutions have successfully developed courses and curricula targeting GSE. Indeed, for each of the challenges we have identified in the literature there are numerous recommendations for overcoming them. Instructors can use the recommendations given in this study as a starting point to running successful GSE courses.

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How Best to Teach Global Software Engineering? Educators Are Divided

Beecham

Clear

Damian

et al. 2017

IEEE Softw.

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A Generalized Kernel Method for Global Sensitivity Analysis

Barr¹,

Rabitz²

2022

SIAM/ASA J. Uncertainty Quantification

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A framework for enhancing the social good in computing education

Goldweber¹,

Barr

Clear

et al. 2013

ACM Inroads

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large, that endeavors to convey and reinforce computing's social relevance and potential for positive societal impact. Besides the obvious benefit to society, CSG-Ed endeavors to exploit the finding that students' desire to have a positive societal impact is a strong determinant regarding their selection of a major[14]. A side effect of incorporating CSG-Ed activities, particularly in the introductory curriculum, is that it could potentially broaden participation in computing. It is worth noting that this "positive societal impact" is considered an inclusive term: CSG-Ed therefore includes sustainability [57], ICT4D [42], ICT4Peace [44], HFOSS [84], value sensitive design [61] and so on.

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Preparing Tomorrow's Software Engineers for Work in a Global Environment

et al. 2017

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John Barr

Challenges and Recommendations for the Design and Conduct of Global Software Engineering Courses

How Best to Teach Global Software Engineering? Educators Are Divided

A Generalized Kernel Method for Global Sensitivity Analysis

A framework for enhancing the social good in computing education

Preparing Tomorrow's Software Engineers for Work in a Global Environment

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