Adaptive model for web engineering methods to develop multi web applications in agile environment

Model Driven Web Engineering (MDWE) is an application of a model driven paradigm in the domain of web software development. MDWE is helpful because technologies and platforms of web applications constantly evolve into Web Engineering Methods (WEMs). The evolution of web applications has consequently introduced new features and challenges, therefore existing WEMs need to be improved. These WEMs have failed to develop modern web applications’ features. Furthermore, no single WEM is capable of covering the whole lifecycle phases. These issues decrease the usability. In addition, the Interaction Flow Modeling Language (IFML) as a recent method has also not been able to address them. This thesis developed a new WEM, Useable Adaptive Agile IFML (UAA-IFML) to solve these issues in several steps. In this research, mixed methods used were qualitative and quantitative methodologies. In the first step, a new adaptive model was defined for supporting the features of multi-web applications. The new model was developed via an adaptive model into the IFML metamodels known as Adaptive IFML (AIFML). In the second step, IFML was enriched through MockupDD for covering lifecycle, known as Agile IFML (A-IFML). This is because MockupDD provides an agile environment, hence agile lifecycle can solve the lifecycle issue. In the third step, a new adaptive model and agile process were combined as Adaptive Agile IFML (AAIFML). This integration increased the usability of the IFML method. In presenting the usability of AA-IFML, experimentation of the framework was extended to evaluate the usability of WEMs. Besides, feedbacks on the usability of AA-IFML were obtained from developers around the world using three instruments, namely performing tasks, answering questionnaires, and interviewing experts. Analysis on the feedback indicated a 20% improvement usability of the AA-IFML compared with current IFML. The findings have shown that the UAA-IFML is beneficial for developers, as they would only need to use one method to design modern web application features in the whole lifecycle phases

Web Engineering for Workflow-based Applications: Models, Systems and Methodologies

This dissertation presents novel solutions for the construction of Workflow-based Web applications: The Web Engineering DSL Framework, a stakeholder-oriented Web Engineering methodology based on Domain-Specific Languages; the Workflow DSL for the efficient engineering of Web-based Workflows with strong stakeholder involvement; the Dialog DSL for the usability-oriented development of advanced Web-based dialogs; the Web Engineering Reuse Sphere enabling holistic, stakeholder-oriented reuse

Web engineering for workflow-based applications: models, systems and methodologies

Workflow-based Web applications present a central pillar of companies\u27 endeavors towards increased business process efficiency and flexibility. Considering their particular characteristics, this book presents innovative approaches for their efficient, completely model-driven construction with particular emphasis on effective stakeholder involvement, usability-oriented dialog design and cross-methodological reuse

A web engineering approach for the development of business process-driven web applications

Actualmente, la World Wide Web se ha convertido en la plataforma más común para llevar a cabo el desarrollo de aplicaciones corporativas. Estas aplicaciones reciben el nombre de aplicaciones Web y entre otras funciones, deben de dar soporte a los Procesos de Negocio (PN) definidos por las corporaciones. Esta tesis presenta un método de Ingeniería Web que permite el modelado y la construcción sistemática de aplicaciones Web que soportan la ejecución de PN. En este trabajo se conciben los PN desde un punto de vista más amplio que el abordado por otros métodos de Ingeniería Web. El tipo de PN abordados incluye tanto procesos cortos como largos. A grosso modo, esta concepción más amplia permite considerar procesos que involucran diferentes participantes (personas y/o sistemas) los cuales cooperan para llevar a cabo un objetivo particular. Además, dependiendo del tipo de proceso que se esté ejecutando (corto o largo), la interacción del usuario con el sistema deberá adaptarse a cada caso. El método presentado en esta tesis ha sido desarrollado basándose en el Desarrollo de Software Dirigido por Modelos. De esta forma, el método propone un conjunto de modelos que permiten representar los diferentes aspectos que caracterizan las aplicaciones Web que soportan la ejecución de PN. Una vez el sistema ha sido representado en los modelos correspondientes, mediante la aplicación de transformación de modelos se obtiene otros modelos (transformaciones de modelo-a-modelo) e incluso el código que representa el sistema modelado en términos de un lenguaje de implementación (transformaciones de modelo-a-texto). El método propuesto en esta tesis está soportado por una herramienta llamada BIZZY. Esta herramienta ha sido desarrollada en el entorno de Eclipse y cubre el proceso de desarrollo desde la fase de modelado hasta la generación de código. En particular, el código generado corresponde con el framework Web Tapestry (framework que genera aplicaciones Web en Java) y con WS-BPEL,Torres Bosch, MV. (2008). A web engineering approach for the development of business process-driven web applications [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/2933Palanci