Interactive Graphic Simulation: An Advanced Methodology to Improve the Teaching-Learning Process in Nuclear Engineering Education and Training

Nowadays, computer simulators are becoming basic tools for education and training in many engineering fields. In the nuclear industry, the role of simulation for training of operators of nuclear power plants is also recognized of the utmost relevance. As an example, the International Atomic Energy Agency sponsors the development of nuclear reactor simulators for education, and arranges the supply of such simulation programs. Aware of this, in 2008 Gas Natural Fenosa, a Spanish gas and electric utility that owns and operate nuclear power plants and promotes university education in the nuclear technology field, provided the Department of Nuclear Engineering of Universidad Politécnica de Madrid with the Interactive Graphic Simulator (IGS) of “José Cabrera” (Zorita) nuclear power plant, an industrial facility whose commercial operation ceased definitively in April 2006. It is a state-of-the-art full-scope real-time simulator that was used for training and qualification of the operators of the plant control room, as well as to understand and analyses the plant dynamics, and to develop, qualify and validate its emergency operating procedures.

How Blended Learning Reduce Underachievement in Higher Education: An Experience in Teaching Computer Sciences.

This paper presents a blended learning approach and a study evaluating instruction in a software engineering-related course unit as part of an undergraduate engineering degree program in computing. In the past, the course unit had a lecture-based format. In view of student underachievement and the high course unit dropout rate, a distance-learning system was deployed, where students were allowed to choose between a distance-learning approach driven by a moderate constructivist instructional model or a blended-learning approach. The results of this experience are presented, with the aim of showing the effectiveness of the teaching/learning system deployed compared to the lecture-based system previously in place. The grades earned by students under the new system, following the distance-learning and blended-learning courses, are compared statistically to the grades attained in earlier years in the traditional face-to-face classroom (lecture-based) learning.

Metaphor and Genre: An Approach to improve the learning process of English for Aeronautics

This study suggests a theoretical framework for improving the teaching/ learning process of English employed in the Aeronautical discourse that brings together cognitive learning strategies, Genre Analysis and the Contemporary theory of Metaphor (Lakoff and Johnson 1980; Lakoff 1993). It maintains that cognitive strategies such as imagery, deduction, inference and grouping can be enhanced by means of metaphor and genre awareness in the context of content based approach to language learning. A list of image metaphors and conceptual metaphors which comes from the terminological database METACITEC is provided. The metaphorical terms from the area of Aeronautics have been taken from specialised dictionaries and have been categorised according to the conceptual metaphors they respond to, by establishing the source domains and the target domains, as well as the semantic networks found. This information makes reference to the internal mappings underlying the discourse of aeronautics reflected in five aviation accident case studies which are related to accident reports from the National Transportation Safety Board (NTSB) and provides an important source for designing language teaching tasks. La Lingüística Cognitiva y el Análisis del Género han contribuido a la mejora de la enseñanza de segundas lenguas y, en particular, al desarrollo de la competencia lingüística de los alumnos de inglés para fines específicos. Este trabajo pretende perfeccionar los procesos de enseñanza y el aprendizaje del lenguaje empleado en el discurso aeronáutico por medio de la práctica de estrategias cognitivas y prestando atención a la Teoría del análisis del género y a la Teoría contemporánea de la metáfora (Lakoff y Johnson 1980; Lakoff 1993). Con el propósito de crear recursos didácticos en los que se apliquen estrategias metafóricas, se ha elaborado un listado de metáforas de imagen y de metáforas conceptuales proveniente de la base de datos terminológica META-CITEC. Estos términos se han clasificado de acuerdo con las metáforas conceptuales y de imagen existentes en esta área de conocimiento. Para la enseñanza de este lenguaje de especialidad, se proponen las correspondencias y las proyecciones entre el dominio origen y el dominio meta que se han hallado en los informes de accidentes aéreos tomados de la Junta federal de la Seguridad en el Transporte (NTSB)

Laboratorios virtuales y docencia de la automática en la formación tecnológica de base

Recientemente, ha surgido un interés por aprender a programar, debido a las oportunidades profesionales que da este tipo de estudios universitarios. Es fácil de entender porque el número de trabajos para programadores e ingenieros informáticos está creciendo rápidamente. Por otro lado, un amplio grupo de psicólogos opinan que el pensamiento computacional es una destreza fundamental para cualquiera, no sólo para los ingenieros informáticos. Para leer, escribir y realizar operaciones aritméticas, deberíamos utilizar el pensamiento computacional y por lo tanto, para desarrollar todas las habilidades analíticas de los niños. Es necesario cambiar los requerimientos de las destrezas necesarias para trabajar, los nuevos trabajadores necesitarán destrezas más sofisticadas en ciencias, matemáticas, ingeniería y tecnología. Consecuentemente, los contenidos sobre Tecnología de la Información tales como electrónica, programación, robótica y control se incrementan en la educación tecnológica en enseñanza secundaria. El desarrollo y utilización de los Laboratorios Virtuales de Control y Robótica ayuda a alcanzar este objetivo. Nos vamos a centrar en control y robótica porque un proyecto de control y robótica incluye contenidos de otras tecnologías tales como electrónica, programación, … Se ha implementado un sitio web con Laboratorios Virtuales de Control y Robótica. En este trabajo, se muestran seis grupos de laboratorios virtuales para la enseñanza del control y la robótica a niveles preuniversitarios. Estos laboratorios virtuales han sido usados para la docencia de alumnos de enseñanza secundaria. Las estadísticas del proceso de enseñanza-aprendizaje permiten validar ciertos aspectos de dicho trabajo. Se describen dichos laboratorios y la mejora del aprendizaje en cuanto a conocimientos procedimentales y conceptuales, así como la mejora de la interactividad respecto al aprendizaje con análogas aplicaciones con objetivos de aprendizaje idénticos, pero careciendo de la componente de laboratorio virtual. Se explican algunas de las experiencias realizadas con los alumnos. Los resultados sugieren, que dentro de la educación tecnológica de la educación secundaria, los laboratorios virtuales pueden ser explotados como un efectivo y motivacional entorno de aprendizaje. ABSTRACT Recently, there has been a surge of interest in learning to code, focusing especially on career opportunities. It is easy to understand why: the number of jobs for programmers and computer scientists is growing rapidly. On the other hand, the psychologists think that computational thinking is a fundamental skill for everyone, not just for computer scientists. To reading, writing, and arithmetic, we should add computational thinking to every child’s analytical ability. It is necessary to change workforce requirements mean that new workers will need ever more sophisticated skills in science, mathematics, engineering and technology. Consequently, the contents about Information Technology as well as electronics, coding, robotics and control increase in Technology Education in High School . The development and utilization of the Virtual Laboratories of Control and Robotics help to achieve this goal. We focus on control and robotics because a control and robotics project includes other technologies contents like electronics, coding,... A web site with Virtual Laboratories of Control and Robotics was implemented. In this work, six groups of virtual laboratories for teaching control and robotics in preuniversity level are shown. These Virtual Laboratories were used for teaching students at high school. The statistics of teaching-learning process allow to check some issues of this work. The laboratories, the improvement of learning (concepts and procedures) and interactivity are described and are compared to similar applications. They share identical learning objectives but they lack the virtual laboratory aspect. Some experiences with students are explained too. The results suggest that within high school technology education, virtual laboratories can be exploited as effective and motivational learning environments.