Managing the software process
On the feasibility of situational method engineering
Information Systems
Object-Process Methodology: A Holistic Systems Paradigm
Object-Process Methodology: A Holistic Systems Paradigm
Software Risk Management: Principles and Practices
IEEE Software
The Model Multiplicity Problem: Experimenting with Real-Time Specification Methods
IEEE Transactions on Software Engineering
Specifying the Reuse Context of Scenario Method Chunks
CAiSE '98 Proceedings of the 10th International Conference on Advanced Information Systems Engineering
A Method Engineering Approach to Information Systems Development
Proceedings of the IFIP WG8.1 Working Conference on Information System Development Process
Situational method engineering for informational system project approaches
Proceedings of the IFIP WG8.1 Working Conference on Methods and Associated Tools for the Information Systems Life Cycle
Introduction to Object-Oriented Systems Analysis and Design with Uml and the Unified Process
Introduction to Object-Oriented Systems Analysis and Design with Uml and the Unified Process
OPM vs. UML—Experimenting with Comprehension and Construction of Web Application Models
Empirical Software Engineering
Extreme Programming Explained: Embrace Change (2nd Edition)
Extreme Programming Explained: Embrace Change (2nd Edition)
Situational method engineering: combining assembly-based and roadmap-driven approaches
Requirements Engineering
Noesis: Towards a situational method engineering technique
Information Systems
A work product pool approach to methodology specification and enactment
Journal of Systems and Software
A Domain Engineering Approach for Situational Method Engineering
ER '08 Proceedings of the 27th International Conference on Conceptual Modeling
Utilizing domain models for application design and validation
Information and Software Technology
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Method Engineering ME and Situational Method Engineering SME aim at providing effective solutions for building and supporting evolution of software and information systems development methods. For this purpose, method components are specified and composed into general-purpose development methods or situational methods, i.e., development methods that best fit the characteristics of a given project and its environment. Recently ISO/IEC 24744 has emerged for defining a metamodel and a notation for development methods. However, this standard lacks a systematic support for situational classification and maintenance. In this work, the authors suggest incorporating ISO/IEC 24744 metamodel into a domain-based framework, called Application-based DOmain Modeling for Method Engineering ADOM-ME, which supports specifying both general-purpose and situational methods in a single, simple, accessible, and scalable frame of reference. An exploratory study on the usability of ADOM-ME indicates that the approach can be utilized by information systems students that represent non-experienced method engineers and software developers.