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ICGSE 2013 : 8th IEEE International Conference on Global Software EngineeringConference Series : International Conference on Global Software Engineering | |||||||||||||||||
Link: http://www.icgse.org/ | |||||||||||||||||
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Call For Papers | |||||||||||||||||
From Challenges to Opportunities of Global Software Engineering
Software and IT industries are today truly global – and so is software engineering. The diversity of culture and the dispersion over time and space require novel techniques, tools, and practices from many disciplines to overcome challenges and to take advantage of all the opportunities that global software engineering offers. The 8th International Conference on Global Software Engineering (ICGSE) brings together researchers and practitioners interested in solving the challenges of globally distributed teams. The ICGSE 2013 organizing committee invites academic and industrial communities to contribute to the expertise of the international global software engineering community. Practice: Global Software Engineering addresses real-world challenges, and so we especially seek industry knowledge. We invite industrial participants to share observations and experiences in the conference by publishing papers and making presentations. Industrial experiences can be submitted by means of a half-page abstract. Research: We also invite academic researchers to submit papers discussing GSE research and GSE education strategies. Papers presenting empirical evidence connecting industry and research are encouraged and will be given preference over systematic literature reviews and systematic mapping studies. Topics of interest include, but are not restricted to: Strategic issues in distributed development: business models (offshoring, nearshoring, outsourcing etc.), business case development, work distribution models, supplier selection and management, cost-benefit-risk analysis Managing distributed software development: planning, team building, project and SLA management, managing diversity, measurements and evaluation Methods and tools for distributed software development: requirements engineering, design, coding, verification, testing and maintenance Communication, coordination and collaboration Knowledge management in distributed development Getting started with global software engineering Empirical studies of distributed teams and lessons learnt Processes and methods for the global environment (planned, agile etc) Global software development education Authors of selected high-quality papers will be invited to submit an expanded version for a special section on Global Software Engineering in the Empirical Software Engineering Journal, published by Springer. |
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