Software technology maturation
ICSE '85 Proceedings of the 8th international conference on Software engineering
ICSE '90 Proceedings of the 12th international conference on Software engineering
An integrating pedagogical tool based on writing articles
SIGCSE '92 Proceedings of the twenty-third SIGCSE technical symposium on Computer science education
ACM SIGSOFT Software Engineering Notes
Software process maturity: measuring its impact on productivity and quality
ICSE '93 Proceedings of the 15th international conference on Software Engineering
Systems development education and methodology adoption
ACM SIGCPR Computer Personnel
Software engineering technology watch
Information Sciences—Informatics and Computer Science: An International Journal - Special issue: Software engineering: Systems and tools
Marketing Technology to Software Practitioners
IEEE Software
IEEE Software
Software Engineering Technology Watch
IEEE Software
Business process reengineering and workflow automation: a technology transfer experience
Journal of Systems and Software
Comparing software development models using CDM
Proceedings of the 6th conference on Information technology education
Investigating Determinants of Software Developers' Intentions to Follow Methodologies
Journal of Management Information Systems
Developing legacy system migration methods and tools for technology transfer
Software—Practice & Experience
Evaluating legacy system migration technologies through empirical studies
Information and Software Technology
Understanding post-adoptive agile usage: An exploratory cross-case analysis
Journal of Systems and Software
A quantitative model for software engineering trends
Information Sciences: an International Journal
Secure development tool adoption in open-source
Proceedings of the 2013 companion publication for conference on Systems, programming, & applications: software for humanity
Social influences on secure development tool adoption: why security tools spread
Proceedings of the 17th ACM conference on Computer supported cooperative work & social computing
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The problems that surround software technology transfer are examined. It is suggested that for software engineers to understand these problems, they need to identify a conceptual framework that can provide a systematic understanding of diffusion processes and to identify priority areas through which the software-engineering community can effect the successful diffusion of its innovations. E.M. Roger's framework for diffusion of innovations (The Diffusion of Innovations, Free Press, NY, 1983) is discussed, and two ways to use it, as a descriptive model or as a prescriptive model, are described. A case study is presented to illustrate the arguments.