Maestría en Ingeniería (tesis)
URI permanente para esta colección
Examinar
Examinando Maestría en Ingeniería (tesis) por Autor "Agudelo Zapata, Mauricio"
Mostrando 1 - 1 de 1
Resultados por página
Opciones de ordenación
Ítem Estudio, implementación y evaluación de la arquitectura para una herramienta de integración continua de investigaciones en ingeniería de líneas de productos de software(Universidad EAFIT, 2023) Agudelo Zapata, Mauricio; Mazo Peña, RaúlOn repeated occasions, companies are faced with making decisions regarding what type of technology to use or how to redesign their technologicalbase. In some cases, these decisions are taken in an accelerated manner with the sole aim of generating optimal and competitive response times in the market with functional products that satisfy specific market needs and which, in turn, without seeking to do so, incorporate a zero vision of extensibility, growth, opportunity for improvement and a large number of quality attributes that provide high quality to their products, thus generating high rates of technical debt, coupling between components and rates of improvement, incorporate a null vision of extensibility, growth, opportunity for improvement and a large number of quality attributes that provide high quality to their products, thus generating high rates of technical debt, coupling between components and null rates of reusability causing a greater effort to maintain, extend or even think about rebuilding their software capabilities in the near future. In this work, we propose and evaluate the architecture of a Web application capable of enabling the modelling and simulation of systems (software and cyber-physical at various levels of abstraction) within the framework of a research software called VariaMos. The context of VariaMos, being a software of continuous integration of research results in an engineering framework, is characterized by a constant growth of modelling languages and reasoning mechanisms on the systems or families of systems to be created and simulated with the web application associated with the software (VariaMos). Therefore, the architecture of this web application must incorporate adequate standards for its correct maintainability, extensibility, and growth through the integration of the new proposals of the VariaMos work team. To achieve this, the master project reported in this manuscript followed the following process: First, we identified the most relevant quality attributes following the recommendations presented in the standard (ISO/IEC 25000). Subsequently, we built the solution framework to derive the candidate architecture for VariaMos, and we will detail the construction of the required architecture in several layers. The third step consists of familiarizing the proposal to the VariaMos team and a retrospective review of the benefits of this new proposal with respect to the previous version of the VariaMos tool. In the fourth step, we implement the improved version of the architecture and proceed to perform a usability evaluation of the resulting web application. The evaluation aims to answer the following research question: What are the architectural features of an engineering modelling and simulation platform that can be extended without having to redefine the platform architecture as engineering languages or reasoning mechanisms grow, and to what extent can they be applied in a collaborative Web application? These results constitute a preliminary empirical proof of the benefits that this new architecture has brought in favour of the strategic and technical objectives of the new VariaMos and give us a series of recommendations that allow us to further improve the tool. Finally, we consider the results of the evaluation to improve the web application that will serve as a working platform for the VariaMos working group in the coming years and document the new result in this manuscript.