Comparative analysis of interaction flow modeling language tools

Modeling approaches based on standards are of paramount importance in the field of front-end design for web and mobile applications. Problems are often encountered during the selection of tools for designing applications for developers and researchers, particularly applications that are related to time and cost in the market and academia. The Interaction Flow Modeling Language (IFML) is a recently standardized modeling language designed for managing the content expression, user interaction and behavior control of front-end applications. IFML brings several benefits to the development process of web and mobile front-end applications. Thus, several tools have been developed for the exploitation of technical artifacts offered by current specifications. In this study, we discuss the tools proposed for modeling IFML to provide a comparative analysis while considering various criteria. The result can be used as a basis of tool selection for specific aspects

Auto-generation of rich Internet applications from visual mock-ups

Capturing and communicating software requirements accurately and quickly is a challenging activity. This needs expertise of people with unique skills. Traditionally this challenge has been compounded by assigning specialist roles for requirements gathering and analysis, design, and implementations. These multiple roles have resulted in information loss mainly due to miscommunication between requirement specialists, designers and implementers. Large enterprises have managed the information loss by using document centric approaches, leading to delays and cost escalations. But documentation centric and multiple role approaches are not suitable for Small to Medium Enterprises (SMEs) because they are vulnerable to market competitions. Moreover, SMEs require effective online applications to provide their service. Hence the motivation for carrying out this research is to explore the possibilities of empowering requirement specialists such as Business Analysts’ (BAs) to take on additional responsibilities of designers and implementers to generate web applications. In addition, SME owners and BAs can communicate better if they perceive the application requirements using a What You See Is What You Get (WYSIWYG) approach. Hence, this research explores the design and development of mock-up-based auto-generating tool to develop SME applications. A tool that auto-generates an application from a mock-up should have the capacity to extract the essential implementation details from the mock-up. Hence a visual mock-up language was created by extending existing research on meta-models of UIs for a class of popular modern web-based business applications called Rich Internet Applications (RIAs). The popularity of RIAs is due to their distinctive client-side processing power with desktop application like responsiveness and look and feel. The mock-ups drawn with the mock-up language should have sufficient level of details to auto-generate RIAs. To support this, the mock-up language includes constructs for specifying a RIA’s mock-up in terms of layouts and the widgets within them. In addition, the language uses annotations on the mock-up to specify the behaviour of the system. In such an approach the only additional effort required of a Business Analyst is to specify the requirements in terms of a mock-up of the expected interfaces of the SME application. Apart from the mock-up language, a tool was designed and developed to auto-generate the desired application from the mock-up. The tool is powered by algorithms to derive the database structure and the client-side and server-side components required for the auto-generated application. The validation of the mock-up language and auto-generating tool was performed by BAs to demonstrate its usability. The measurement and evaluation results indicate that the mock-up language and the auto-generator can be used successfully to help BAs in the development of SME application and thereby reduce delays, errors and cost overruns. The important contributions of this research are: (i) the design of a mock-up language that makes it easy to capture the structure and behaviour of SME web applications. (ii) algorithms for automatic derivation of the expected database schema from a visual mock-up. (iii) algorithms for automatic derivation of the client and server-side application logic. (iv) application of an existing measurement and evaluation process for the usability testing of the mock-up language and the auto-generated application. This research followed the Design Science Research (DSR) method for Information System to guide the IS design and to capture the knowledge created during the design process. DSR is a research method useful in solving wicked problems requiring innovative solutions for incomplete, contradictory or changing requirements that are often difficult to recognize. This research opens new ways of thinking about web application development for future research. Specifically, mock-ups with few easy to understand annotations can be used as powerful active artifacts to capture the structure and behaviour of applications not just of small but also large enterprises. Auto-generating tools can then create fully functional and usable applications holistically from such mock-ups, thereby reducing delays and cost overruns during software engineering

Reverse Engineering and Testing of Rich Internet Applications

The World Wide Web experiences a continuous and constant evolution, where new initiatives, standards, approaches and technologies are continuously proposed for developing more effective and higher quality Web applications. To satisfy the growing request of the market for Web applications, new technologies, frameworks, tools and environments that allow to develop Web and mobile applications with the least effort and in very short time have been introduced in the last years. These new technologies have made possible the dawn of a new generation of Web applications, named Rich Internet Applications (RIAs), that offer greater usability and interactivity than traditional ones. This evolution has been accompanied by some drawbacks that are mostly due to the lack of applying well-known software engineering practices and approaches. As a consequence, new research questions and challenges have emerged in the field of web and mobile applications maintenance and testing. The research activity described in this thesis has addressed some of these topics with the specific aim of proposing new and effective solutions to the problems of modelling, reverse engineering, comprehending, re-documenting and testing existing RIAs. Due to the growing relevance of mobile applications in the renewed Web scenarios, the problem of testing mobile applications developed for the Android operating system has been addressed too, in an attempt of exploring and proposing new techniques of testing automation for these type of applications

UNDERSTANDING ADVANCES IN WEB TECHNOLOGIES: EVOLUTION FROM WEB 2.0 TO WEB 3.0

The current generation of Web applications (Web 2.0) have made them an outright phenomenon in today’s society helping to redefine the way organisations and individuals communicate and collaborate with each other. The purpose of this paper is to conceptualise the evolution of Web technologies from a user perspective. Based on inference from existing studies, this paper attempts to identify the architectural direction that the next generation (Web 3.0) of Web applications would meld itself into. The paper emphasizes limitations of current Web technologies and how future trends may address these limitations by focusing on migration that has been witnessed in the scope of the applications presented and features delivered on the Web from a users’ perspective

25 Years of Model-Driven Web Engineering : What we achieved, what is missing

Model-Driven Web Engineering (MDWE) approaches aim to improve the Web applications development process by focusing on modeling instead of coding, and deriving the running application by transformations from conceptual models to code. The emergence of the Interaction Flow Modeling Language (IFML) has been an important milestone in the evolution of Web modeling languages, indicating not only the maturity of the field but also a final convergence of languages. In this paper we explain the evolution of modeling and design approaches since the early years (the 90’s) detailing the forces which drove that evolution and discussing the strengths and weaknesses of some of those approaches. A brief presentation of IFML is accompanied with a thorough analysis of the most important achievements of the MDWE community as well as the problems and obstacles that hinder the dissemination of model-driven techniques in the Web engineering field.Laboratorio de Investigación y Formación en Informática Avanzada (LIFIA

A Navigational Role-Centric Model Oriented Web Approach MoWebA

[ES] Entre los grandes desafíos actuales de las aplicaciones Web podemos citar la portabilidad, adaptabilidad y evolución. Estos desafíos se dan tanto en el ambiente en que operan así como en su desarrollo, ya que a menudo requieren de diferentes lenguajes, frameworks, herramientas, entornos, plataformas, etc. El Desarrollo Dirigido por Modelos (MDD) y en particular, la Arquitectura Dirigida por Modelos (MDA) contemplan estos desafíos proponiendo distintos niveles de abstracción para las diferentes fases de modelado, partiendo de modelos más orientados al problema, que no deberían contemplar aspectos de implementación (CIM, PIM), hasta llegar a los modelos más orientados a la solución planteada (PSM, ISM). Sin embargo, encarar adecuadamente este tema puede depender del grado de independencia que adquieren los modelos. Este trabajo de Tesis presenta un método que considera el problema de la evolución y portabilidad hacia diferentes entornos o arquitecturas en el diseño y desarrollo de aplicaciones Web. La propuesta se denomina MoWebA (del inglés, Model Oriented Web Approach). Durante el desarrollo de la tesis, hemos identificado una serie de aspectos que podrían tener un impacto positivo sobre los problemas de portabilidad y adaptabilidad que son: i) incorporación de un modelo específico de la arquitectura ASM (del inglés, Architecture Specific Model), que permita la portabilidad de los PIMs con respecto a la arquitectura (por ejemplo, RIA, SOA, Mobile); ii) clara separación de la capa de presentación con respecto a las capas navegacionales y de comportamiento; iii) definición de la estructura navegacional de acuerdo a un mecanismo orientado al comportamiento, que prevenga la modificación del diseño navegacional causada por cambios en la implementación; iv) uso de estándares para facilitar la independencia de las herramientas. Se ha llevado a cabo una revisión del estado de la literatura teniendo en cuenta los fundamentos de la Ingeniería Dirigida por Modelos MDE (Model Driven Engineering), las propuestas metodológicas para el desarrollo de Aplicaciones Web, las tendencias actuales, analizando en forma especial de qué manera las propuestas Web las contemplan, y las evidencias empíricas tanto en la academia como en la Industria. Presentamos así la propuesta MoWebA a partir de una serie de consideraciones sobre las aplicaciones Web que han sido identificadas durante el proceso de revisión del estado del arte. Posteriormente, detallamos cada una de las etapas del proceso de modelado, incluyendo los diagramas y notaciones propuestos, sus definiciones a través de sus metamodelos y ejemplos de uso. Seguidamente, presentamos el proceso de transformación adoptado por MoWebA, con los mecanismos de transformación Modelo-A-Modelo y Modelo-A-Código. Hemos dedicado un importante esfuerzo en la validación de la propuesta. Se realizó una primera validación, adoptando los modelos de MoWebA y en algunos casos generando aplicaciones para diferentes dominios. Con estas primeras experiencias de validación hemos podido identificar fortalezas y debilidades de la propuesta PIM de MoWebA, además de determinar en qué grado la misma cubre las necesidades de diferentes dominios. Como segunda experiencia, hemos realizado una validación preliminar con un grupo de estudiantes de último año de la carrera de Ingeniería Informática de la Universidad Católica "Nuestra Señora de la Asunción" (Paraguay), que consistió en la definición de ASM para tres arquitecturas diferentes. Finalmente, como tercera experiencia de validación, hemos llevado a cabo un Caso de Estudio que consistió en la definición de tres extensiones para MoWebA. Dicha validación fue desarrollada como parte de un proyecto de investigación liderado por la Universidad Católica "Nuestra Señora de la Asunción". La experiencia ha permitido analizar el grado de adaptabilidad de MoWebA y automatización en las transformacinoes PIM-ASM, así como el grado de independiencia del PIM.[CA] Entre els grans desafiaments actuals de les aplicacions Web podem citar la portabilitat, adaptabilitat i evolució. El Desenvolupament Dirigit per Models (MDD) contemple aquests desafiaments proposant diferents nivells d'abstracció per a les diferents fases de modelatge. No obstant això, encarar adequadament aquest tema pot dependre del grau d'independència que adquireixen els models. Aquest treball de Tesi presenta un mètode que considera el problema de l'evolució i la portabilitat, en diferents entorns o arquitectures, per al disseny i desenvolupament d'aplicacions Web. La proposta s'anomena MoWebA (Model Oriented Web Approach). Durant el desenvolupament de la tesi hem identificat una sèrie d'aspectes que podrien tenir un impacte positiu sobre els problemes de portabilitat i adaptabilitat. Aquestos són: i) la incorporació d'un model específic d'arquitectura ASM (Architecture Specific Model), que permet la portabilitat dels models PIM respecte a l'arquitectura (per exemple, RIA, SOA, Mobile); ii) la clara separació de la capa de presentació respecte a les capes navegacionals i de comportament; iii) la definició de l'estructura navegacional d'acord amb un mecanisme orientat al comportament, que restringisca la modificació del disseny navegacional causada per canvis en la implementació; i per últim, iv) l'ús d'estàndards per tal de facilitar la independència de les eines. S'ha realitzat una revisió de l'estat de la literatura considerant els fonaments de l'Enginyeria Dirigida per Models MDE (Model Driven Engineering), les propostes metodològiques per al desenvolupament d'Aplicacions Web, les tendències actuals (analitzant de forma especial la manera en que les propostes Web les consideren), i les evidències empíriques tant en l'acadèmia com en la Indústria. Presentem així la proposta MoWebA a partir d'una sèrie de consideracions sobre les aplicacions Web que són identificades durant el procés de revisió de l'estat de l'art. Posteriorment, detallem cadascuna de les etapes del procés de modelatge, incloent els diagrames i les notacions proposades, les seues definicions (a través dels seus metamodels), i alguns exemples d'ús. Seguidament, presentem el procés de transformació adoptat per MoWebA, emprant mecanismes de transformació Model-a-Model i Model-a-Codi. Hem dedicat un esforç considerable en la validació de la proposta. Es realitzà una primera validació adoptant els models de MoWebA, i en alguns casos es generaren aplicacions per a diferents dominis. Aquestes experiències van ser realitzades per modeladors amb poca experiència, així com també per modeladors i desenvolupadors experimentats. Les experiències van ser desenvolupades en ambients tant acadèmics com industrials. Amb aquestes primeres experiències de validació s'identificaren fortaleses i febleses de la proposta PIM de MoWebA. També permeteren determinar fins quin grau la proposta respon a les necessitats dels diferents dominis. Com a segona experiència es realitzà una validació preliminar amb un grup d'estudiants d'últim curs de la carrera d'Enginyeria Informàtica de la Universitat Catòlica "Nuestra Señora de la Asunción" (Paraguai), que va consistir en la definició del model d'arquitectura ASM per a tres arquitectures diferents. Amb aquesta segona experiència de validació s'aconseguí valorar com de factible és d'adaptar la proposta a altres arquitectures. Finalment, com a tercera experiència de validació, es dugué a terme un Cas d'Estudi que va consistir en la definició de tres extensions per a MoWebA. L'experiència permeté analitzar el grau d'adaptabilitat i d'automatització en les transformacions PIM-ASM que s'obté amb MoWebA, així com el grau de independència del PIM amb respecte als altres models. Durant aquesta validació, s'han realitzat a més experiències de satisfacció d'usuaris amb un grup de modeladors i desenvolupadors.[EN] Some of the major challenges facing Web applications today are those of portability, adaptability and evolution, not only in the environment in which they run, but also in the way in which they must be developed, often requiring different languages, frameworks, tools, environments, platforms, etc. MDD and MDA take into account these issues. However, to achieve portability, adaptability and evolution depends to some extent on the degree of independence that the models adopt. This Thesis presents a method that take into account the problem of evolution and portability towards different environments. The approach is called MoWebA (Model Oriented Web Approach). Some key aspects of MoWebA that could have a positive impact in the portability and adaptability are:i) incorporation of an Architecture Specific Model (ASM) as a new modeling layer, in order to keep the portability of the Platform Independent Model (PIM) regarding the different architectures (e.g., RIA, SOA, Mobile); ii) clear separation of the presentation layer with regard to the navigation and behavior layers; iii) definition of the navigational structure according to a function-oriented approach, which prevents the modification of the navigation design caused by implementation changes; iv) and use of standards in order to facilitate the independence from the tools. We justify MoWebA by highlighting a series of concerns for Web applications development. We present an overview of the method including the dimensions and the diagrams that we propose. Subsequently, we present each step in the modeling process, including the diagrams and notation, its definition (metamodels) and examples of use. Afterwards, we present the transformation process adopted by MoWebA, which includes model-to-model and model-to-code transformations. We have devoted special attention to the validation of the approach. As a first validation, MoWebA has been used for modelling and generating different types of applications by both novice and experienced modellers and developers. These experiences were done in academic and industrial contexts. The experiences have allowed to identify strengths and weaknesses of the PIM proposal, and to verify that the proposed notation covers the needs of different domains. Next, we present a preliminary validation of the ASM proposal, considering an experience of different ASM definitions made by a group of computer science students at the Catholic University "Nuestra Señora de la Asunción" (Paraguay). This preliminary validation has allowed us to determine how feasible is to adapt the proposal to other architectures. The analysis of the validation sought to answer the following questions: Can the same PIM model be used for different architectures?; Is it possible to specify clear limits between platform independent models (PIM) and architectural specific models (ASM)?; How does an architectural specific model facilitate the transformation rules definition?. Finally, we present a Case Study to validate the extensions of MoWebA to three different architectures. The experience was structured taking into account the framework of Runeson et al. This experience have allowed to carry out three complete extensions. In such extensions we could analysed the grade of adaptability of MoWebA and of automation PIM-ASM, as well as the grade of independence of the PIM metamodel. We have also conducted some user's satisfaction experiences with modelers and developers.González Toñánez, M. (2022). A Navigational Role-Centric Model Oriented Web Approach MoWebA [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/181470TESI

Temporal meta-model framework for Enterprise Information Systems (EIS) development

This thesis has developed a Temporal Meta-Model Framework for semi-automated Enterprise System Development, which can help drastically reduce the time and cost to develop, deploy and maintain Enterprise Information Systems throughout their lifecycle. It proposes that the analysis and requirements gathering can also perform the bulk of the design phase, stored and available in a suitable model which would then be capable of automated execution with the availability of a set of specific runtime components

autopsych : An R Shiny tool for the reproducible Rasch analysis, differential item functioning, equating, and examination of group effects

In this paper, we present autopsych, a novel online tool that allows school assessment experts, test developers, and researchers to perform routine psychometric analyses and equating of student test data and to examine the effect of student demographic and group conditions on student test performance. The app extends current open-source software by providing (1) extensive embedded result narration and summaries for written reports, (2) improved handling of partial credit data via customizable item-person Wright maps, (3) customizable item- and person-flagging systems, (4) item-response theory model constraints and controls, (5) many-facets Rasch analysis to examine item bias, (6) Rasch fixed item equating for mapping student ability across test forms, (7) tabbed spreadsheet outputs and immediate options for secondary data analysis, (8) customizable graphical color schemes, (9) extended ANOVA analysis for examining group differences, and (10) inter-rater reliability analyses for the verifying the consistency of rater scoring systems. We present the app’s architecture and functionalities and test its performance with simulated and real-world small-, medium-, and large-scale assessment data. Implications and planned future developments are also discussed

MODEL DRIVEN SOFTWARE PRODUCT LINE ENGINEERING: SYSTEM VARIABILITY VIEW AND PROCESS IMPLICATIONS

La Ingeniería de Líneas de Productos Software -Software Product Line Engineerings (SPLEs) en inglés- es una técnica de desarrollo de software que busca aplicar los principios de la fabricación industrial para la obtención de aplicaciones informáticas: esto es, una Línea de productos Software -Software Product Line (SPL)- se emplea para producir una familia de productos con características comunes, cuyos miembros, sin embargo, pueden tener características diferenciales. Identificar a priori estas características comunes y diferenciales permite maximizar la reutilización, reduciendo el tiempo y el coste del desarrollo. Describir estas relaciones con la suficiente expresividad se vuelve un aspecto fundamental para conseguir el éxito. La Ingeniería Dirigida por Modelos -Model Driven Engineering (MDE) en inglés- se ha revelado en los últimos años como un paradigma que permite tratar con artefactos software con un alto nivel de abstracción de forma efectiva. Gracias a ello, las SPLs puede aprovecharse en granmedida de los estándares y herramientas que han surgido dentro de la comunidad de MDE. No obstante, aún no se ha conseguido una buena integración entre SPLE y MDE, y como consecuencia, los mecanismos para la gestión de la variabilidad no son suficientemente expresivos. De esta manera, no es posible integrar la variabilidad de forma eficiente en procesos complejos de desarrollo de software donde las diferentes vistas de un sistema, las transformaciones de modelos y la generación de código juegan un papel fundamental. Esta tesis presenta MULTIPLE, un marco de trabajo y una herramienta que persiguen integrar de forma precisa y eficiente los mecanismos de gestión de variabilidad propios de las SPLs dentro de los procesos de MDE. MULTIPLE proporciona lenguajes específicos de dominio para especificar diferentes vistas de los sistemas software. Entre ellas se hace especial hincapié en la vista de variabilidad ya que es determinante para la especificación de SPLs.Gómez Llana, A. (2012). MODEL DRIVEN SOFTWARE PRODUCT LINE ENGINEERING: SYSTEM VARIABILITY VIEW AND PROCESS IMPLICATIONS [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/15075Palanci

Reengineering a Content Manager for Humanoid Robots with Web Technology

This project aims to reengineer a content manager for humanoid robots with web technology at PAL Robotics in order to abandon the current Adobe Flash implementation. This software runs in the robot, displays content applications and handles user interaction