APROXIMACIONES EN INGENIERÍA WEB PARA EL ANÁLISIS DE REQUISITOS: UNA REVISIÓN SISTEMÁTICA DE LA LITERATURA

Autores/as

  • Irene Garrigos Universidad de Alicante
  • José N. Mazón Universidad de Alicante

DOI:

https://doi.org/10.36825/RITI.02.03.004

Palabras clave:

Análisis de Requisitos, Ingeniería Web, Revisión Sistemática

Resumen

La tecnología aplicada al desarrollo de software en ingeniería Web (WE) enfrenta continuos cambios, lo cual implica un esfuerzo extra por parte de los analistas, desarrolladores y diseñadores en el diseño y mantenimiento de las aplicaciones Web. En este contexto, definir los requisitos (funcionales y no-funcionales) que el sistema debe cumplir para satisfacer las necesidades de los usuarios es una tarea compleja. En este artículo se presenta una revisión sistemática de la literatura con el fin de obtener: (i) el estado del arte actual sobre aproximaciones sistemáticas para el modelado, análisis y especificación de requisitos en ingeniería Web y (ii) una base conceptual para proponer áreas de investigación.

Citas

Garrigós, I.; Mazón, J.N.; Trujillo, J. A Requirement Analysis Approach for Using i* in Web Engineering. Proceedings of the 9th International Conference on Web Engineering. Springer-Verlag, San Sebastian, Spain, 2009, pp. 151-165.

Gotel, O.C.Z.; Finkelstein, C.W. An analysis of the requirements traceability problem. in Requirements Engineering. Proceedings of the 1st International Conference, 1994.

Melia, S.; Cachero, C.; Gomez, J. Using MDA in web software architectures. Proceedings of the 2nd International Workshop on Generative Techniques in the Context of MDA. Anaheim, California, USA, 2003.

Nicolás, J.; Toval, A. On the generation of requirements specifications from software engineering models: A systematic literature review. Information and Software Technologies, 51, 9 (2009), pp. 1291-1307.

Kitchenham, B. Procedures for performing systematic reviews. Keele University and National ICT Australia Ltd, 2004: p. 1-28.

Lisboa, L.B. A systematic review of domain analysis tools. Information and Software Technology, 2009. In Press, Corrected Proof.

Escalona, M. J.; Koch, N. Metamodeling the Requirements of Web Systems. Lecture Notes in Business Information Processing, 1 (2007), pp. 267-282.

Koch, N.; Zhang, G.; Escalona, M. J. Model transformations from requirements to web system design. Proceedings of the 6th international conference on Web engineering. ACM, Palo Alto, California, USA, 2006, pp. 281-288.

Escalona, M.; Koch, N. Requirements engineering for Web Applications: a comparative study. Journal of Web Engineering, 2 (2004), pp. 193-212.

Valderas, P.; Pelechano, V. Introducing requirements traceability support in model-driven development of web applications. Information and Software Technologies,. 51, 4 (2009), pp. 749-768.

Baresi, L.; Garzotto, F.; Paolini, P. Extending UML for Modeling Web Applications. Proceedings of the 34th Annual Hawaii International Conference on System Sciences (HICSS-34), vol 3. IEEE Computer Society, 2001, pp. 3055.

Montero, S.; Díaz, P.; Aedo, I. From requirements to implementations: a model-driven approach for web development. European Journal of Information Systems. 16, 4 (2007), pp. 407-419.

Molina, F.; Toval, A. Integrating usability requirements that can be evaluated in design time into Model Driven Engineering of Web Information Systems. Advances in Engineering Software, 40, 12 (2009) pp. 1306-1317.

Bolchini, D.; Mylopoulos, J. From task-oriented to goal-oriented Web requirements analysis. Proceedings of the Fourth International Conference on Web Information Systems Engineering (WISE), 2003.

Koch, N. Transformation techniques in the model-driven development process of UWE. Proceedings of the 6th international conference on Web engineering. ACM, Palo Alto, California,USA, 2006, pp. 3.

Escalona, M.J.; Aragon, G. A Model-Driven Approach for Web Requirements. IEEE Transactions on Software Engineering, 34, 3 (2008) pp. 377-390.

Ceri, S.; Fraternali, P.; Bongio, A. Web Modeling Language (WebML): a modeling language for designing Web sites. Computer Networks, 33, 1-6 (2000), pp. 137-157.

De Troyer, O.M.F.; Leune, C. J. WSDM: a user centered design method for Web sites. Computer Networks and ISDN Systems, 30 (1998), pp. 85-94.

Busch, M.; Koch, N. MagicUWE: A CASE Tool Plugin for Modeling Web Applications, Proceddings of the 9th International Conference on Web Engineering. Springer, San Sebastian, Spain, 2009, pp. 505-508.

Kroiss, C.; Koch, N.; Knapp, A. UWE4JSF: A Model-Driven Generation Approach for Web Applications. Proceedings of the 9th International Conference on Web Engineering. Springer-Verlag, San Sebastian, Spain, 2009, pp. 493-496.

Escalona, M.; Mejías, M; Torres, J. Developing systems with NDT & NDT-Tool. Proceedigns of the 13th Information System Development. Lithuania, 2004.

WebML. WebML: The Web Modeling Language. 2009. URL: http://www.webml.org. (01.07.2009).

Valverde, F.; Valderas, P.; Fons, J. OOWS Suite: Un Entorno de desarrollo para Aplicaciones Web basado en MDA. in Eleventh International Database Engineering & Applications Symposium. Banff, Canada, 2007.

Almeida, J. P.; van Eck, P.A.T.; Iacob, M. E. Requirements traceability and transformation conformance in model-driven development. Proceedings of the 10th IEEE International Enterprise Distributed Object Computing Conference (EDOC). IEEE Computer Society Press, Hong Kong, 2006, pp. 355-366.

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Publicado

2014-05-22

Cómo citar

Garrigos, I., & Mazón, J. N. (2014). APROXIMACIONES EN INGENIERÍA WEB PARA EL ANÁLISIS DE REQUISITOS: UNA REVISIÓN SISTEMÁTICA DE LA LITERATURA. Revista De Investigación En Tecnologías De La Información, 2(3), 21–26. https://doi.org/10.36825/RITI.02.03.004

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