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M. Fayad (1997)
Software development process: a necessary evilCommun. ACM, 40
Y. Wang, I. Court, M. Ross, G. Staples, G. King, A. Dorling (1997)
Quantitative evaluation of the SPICE, CMM, ISO 9000 and BOOTSTRAPProceedings of IEEE International Symposium on Software Engineering Standards
M. C. Paulk, B. Curtis, M. B. Chrissis, C.V. Weber (1993)
Capability Maturity Model, Version 1.1IEEE Software, 10
T. Gilb (1988)
Principles of software engineering management
B. Curtis, H. Krasner, V. Shen, N. Iscoe (1987)
On building software process models under the lamppost
W. Humphrey (1988)
Characterizing the software process: a maturity frameworkIEEE Software, 5
Y. Wang, I. Court, M. Ross, G. Staples (1996)
Proceedings of International Conference on Software Process Improvement (SPI'96)
Y. Wang, H. Wickberg, A. Dorling, M. Kaartinen (1999)
Establishment of a national benchmark of software engineering practicesProceedings 4th IEEE International Software Engineering Standards Symposium and Forum (ISESS'99). 'Best Software Practices for the Internet Age'
M. Paulk, B. Curtis, Mary Chrissis, C. Weber (1991)
Capability Maturity Model
Yingxu Wang, G. King, A. Dorling, H. Wickberg (1999)
A unified framework for the software engineering process system standards and modelsProceedings 4th IEEE International Software Engineering Standards Symposium and Forum (ISESS'99). 'Best Software Practices for the Internet Age'
G. Koch (1993)
Process assessment: the 'BOOTSTRAP' approachInf. Softw. Technol., 35
Y. Wang, G. King, A. Dorling, M. Ross, G. Staples, I. Court (1999)
A Worldwide Survey on Best Practices Towards Software Engineering Process ExcellenceASQ Journal of Software Quality Professional, 2
M. Evans, J. Marciniak (1987)
Software quality assurance and management
M. Paulk, C. Weber, B. Curtis, Mary Chrissis (1994)
The Capability Maturity Model: Guidelines for Improving the Software Process
Yingxu Wang, G. King, A. Dorling, D. Patel, I. Court, G. Staples, M. Ross (1998)
A worldwide survey of base process activities towards software engineering process excellenceProceedings of the 20th International Conference on Software Engineering
A. Bryant (2000)
Metaphor, myth and mimicry: The bases of software engineeringAnnals of Software Engineering, 10
A. Bryant (2000)
Chinese Encyclopaedias and Balinese Cockfights - Lessons for Business Process Change and Knowledge Management
W. S. Humphrey, W. L. Sweet (1987)
Technical Report CMU/SEI-87-TR-23
W. Humphrey, W. Sweet (1987)
A method for assessing the software engineering capability of contractors
(1996)
Software Development Performance and Practices in Europe: A Benchmark of Software Development in Europe - Self Assessment QuestionnaireIBM Eurocoordination, 2.0
V. Haase, Günter Koch, Hans-Jürgen Kugler, Paul Decrinis (1994)
Bootstrap: fine-tuning process assessmentIEEE Software, 11
Yingxu Wang (2002)
The Real-Time Process Algebra (RTPA)Annals of Software Engineering, 14
W. Humphrey (2012)
A discipline for software engineering
B. Curtis (1987)
Proceedings of the 9th International Conference on Software Engineering
W. S. Humphrey (1995)
A Discipline for Software Engineering, SEI Series in Software Engineering
Yingxu Wang, G. King (2000)
Software Engineering Processes: Principles and Applications
P. Kuvaja (1994)
Software Process Assessment and Improvement: The BOOTSTRAP Approach
A recent trend in software engineering is the shift from a focus on laboratory-oriented software engineering to a more industry-oriented view of software engineering processes. This complements preceding ideas about software engineering in terms of organization and process-orientation. From the domain coverage point of view, many of the existing software engineering approaches have mainly concentrated on the technical aspects of software development. Important areas of software engineering, such as the technical and organizational infrastructures, have been left untouched. As software systems increase in scales, issues of complexity and professional practices become involved. Software development as an academic or laboratory activity, has to engage with software development as a key industrialized process.
Annals of Software Engineering – Springer Journals
Published: Oct 10, 2004
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