HDM—a model-based approach to hypertext application design
ACM Transactions on Information Systems (TOIS)
RMM: a methodology for structured hypermedia design
Communications of the ACM
Frontiers of electronic commerce
Frontiers of electronic commerce
Systematic hypermedia application design with OOHDM
Proceedings of the the seventh ACM conference on Hypertext
Navigation in hypermedia applications: modeling and semantics
Journal of Organizational Computing and Electronic Commerce - Special issue on hypermedia in information systems and organizations
Design reuse in hypermedia applications development
HYPERTEXT '97 Proceedings of the eighth ACM conference on Hypertext
Analysis and design of Web-based information systems
Selected papers from the sixth international conference on World Wide Web
MMM: A Web-Based System for Sharing Statistical Computing Modules
IEEE Internet Computing
Extending the capabilities of RMM: Russian Dolls and Hypertext
HICSS '97 Proceedings of the 30th Hawaii International Conference on System Sciences: Digital Documents - Volume 6
Top-down vs bottom-up methodologies in multi-agent system design
Autonomous Robots
Surveying navigation modelling approaches
International Journal of Computer Applications in Technology
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The proliferation of intranets and extranets as well as the vast expansion of the World Wide Web (WWW) and electronic commerce indicate the need for a structured hypermedia design methodology that will guide the design, development, and maintenance of large multimedia and hypermedia information systems and collaborative systems. The Relationship Management Methodology (RMM) is a well-known hypermedia design methodology. In this paper we provide an extension to it that enhances the design process. We present an iterative process of application design that incorporates the design of the entire application as well as its components. The process includes the design of an application diagram in a top-down fashion, the design of the components or building blocks using the construct of an m-slice, and the regeneration of the application diagram in a bottom-up fashion. An iterative comparison and refinement of the two versions of the application diagram ensure a better final application.