Information systems development: principles of computer-aided software engineering
Information systems development: principles of computer-aided software engineering
Software engineering provisioning process
ICSE '85 Proceedings of the 8th international conference on Software engineering
Application Development without Programmers
Application Development without Programmers
Software Engineering Economics
Software Engineering Economics
Software Engineering: A Practitioner's Approach
Software Engineering: A Practitioner's Approach
CASE Tools and the IS workplace: Some findings form empirical research
SIGCPR '88 Proceedings of the ACM SIGCPR conference on Management of information systems personnel
Evaluation of vendor products: CASE tools as methodology companions
Communications of the ACM
Case implementation: the importance of multiple perspectives
SIGCPR '92 Proceedings of the 1992 ACM SIGCPR conference on Computer personnel research
The effect of cultural fit/misfit on the productivity and turnover of IS personnel
SIGCPR '92 Proceedings of the 1992 ACM SIGCPR conference on Computer personnel research
The effective use of automated application development tools
IBM Systems Journal
An IDE framework for grid application development
GRID '08 Proceedings of the 2008 9th IEEE/ACM International Conference on Grid Computing
Analytical verification of information system requirements using petri net properties
Information and Software Technology
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Today, system developers are challenged to produce complex, high quality software to support explosive demand for new and revised computer applications. This challenge is complicated by severe resource constraints, forcing management to deploy new technologies, methods and procedures to manage this increasingly complex environment. Often the methods, procedures and technologies are not integrated. Therefore, they achieve less than desired improvements in productivity, or force management to make tradeoff decisions between software quality and developer efficiency.Computer-Aided Software Engineering (CASE) helps system developers meet their challenge by providing a new generation of integrated system development tools which provides an automated environment in which to design and implement system projects. CASE technology enables system developers to improve both quality and efficiency, resulting in a net improvement in maintenance and development productivity.The objectives of this paper are to provide the reader with sufficient information about CASE technology to develop an evaluation and implementation strategy for utilizing CASE to improve systems development productivity.