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N. Koch, Andreas Kraus, Ludwig-Maximilians-Universitat Munchen (2002)
The Expressive Power of UML-based Web Engineering1
I. Manolescu, M. Brambilla, S. Ceri, S. Comai, P. Fraternali (2005)
Model-driven design and deployment of service-enabled web applicationsACM Trans. Internet Techn., 5
S. Ceri, P. Fraternali, Aldo Bongio, Marco Brambilla, S. Comai, M. Matera (2002)
Designing Data-Intensive Web Applications
L. Paulson (2005)
Building Rich Web Applications with AjaxComputer, 38
Jim Conallen (1999)
Building Web applications with UML
P. Fraternali (1999)
Tools and approaches for developing data-intensive Web applications: a surveyACM Comput. Surv., 31
Mitsuhisa Taguchi, T. Tokuda (2005)
Automatic Generation of Client-Server Collaborative Web Applications from Diagrams
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Macromedia Flash MX: A next-generation rich client
M. Özsu, P. Valduriez (1990)
Principles of Distributed Database SystemsPrinciples of Distributed Database Systems
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Rich Internet Applications Are the Next Evolution of the Web
J. Preciado, Marino Trigueros, Fernando Sánchez-Figueroa, S. Comai (2005)
Necessity of methodologies to model rich Internet applicationsSeventh IEEE International Symposium on Web Site Evolution
D. Shasha, Philippe Bonnet (2004)
Database tuning principles, experiments, and troubleshooting techniques
Conceptual Modeling and Code Generation for Rich Internet Applications Alessandro Bozzon alessandro.bozzon@polimi.it Piero Fraternali piero.fraternali@polimi.it Sara Comai sara.comai@polimi.it Giovanni Toffetti Carughi giovanni.toffetti@polimi.it Dipartimento di Elettronica e Informazione Politecnico di Milano P.zza L. da Vinci, 32 I-20133 Milano, Italy ABSTRACT This paper addresses conceptual modeling and automatic code generation for Rich Internet Applications, a variant of Web-based systems bridging desktop and thin-client Web interfaces. We show how classical Web modeling concepts are not enough to capture the speci city of RIAs, extend an existing Web modeling language, and provide an implementation of a CASE tool for visual modeling and code generation from RIA-aware speci cations. Experimentation of the proposed approach in real-world scenarios is also reported. Categories and Subject Descriptors: D.2.2 [Software Engineering]: Design Tools and Techniques, computer-aided software engineering (CASE), evolutionary prototyping, user interfaces, H.4.0 [Information Systems Applications]: General, H.5.4 [Information Interfaces and Presentation]: Hypertext / Hypermedia architectures, navigation, theory, user issues General Terms: Design. Keywords: Rich Internet Applications, Web Engineering, Web Site Design. 1. INTRODUCTION AND MOTIVATION In the last years the Web has become the reference platform for the development of all sorts of integrated business solutions. Due to the increasing complexity of these applications, current
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