31 resultados para Computer Engineering|Electrical engineering
em Universidad Politécnica de Madrid
Resumo:
The new degrees in Spanish universities generated as a result of the Bologna process, stress a new dimension: the generic competencies to be acquired by university students (leadership, problem solving, respect for the environment, etc.). At Universidad Polite¿cnica de Madrid a teaching model was defined for two degrees: Graduate in Computer Engineering and Graduate in Software Engineering. Such model incorporates the training, development and assessment of generic competencies planned in these curricula. The aim of this paper is to describe how this model was implemented in both degrees. The model has three components. The first refers to a set of seven activities for introducing mechanisms for training, development and assessment of generic competencies. The second component aims to coordinate actions that implement the competencies across courses (in space and time). The third component consists of a series of activities to perform quality control. The implementation of generic competencies was carried out in first year courses (first and second semesters), together with the planning for second year courses (third and fourth semesters). We managed to involve a high percentage of first-year courses (80%) and the contacts that have been initiated suggest a high percentage in the second year as well.
Resumo:
During the last three decades, FPGA technology has quickly evolved to become a major subject of research in computer and electrical engineering as it has been identified as a powerful alternative for creating highly efficient computing systems. FPGA devices offer substantial performance improvements when compared against traditional processing architectures via custom design and reconfiguration capabilities.
Resumo:
A recent study elaborated by Vicerrectorado de Ordenación Académica y Planificación Estratégica of Technical University of Madrid (UPM) defines the satisfaction of the university student body as "the response that the University offers to the expectations and demands of service of the students, considered in a general way ". Besides an indicator of academic and institutional insertion of the student, the assessment of student engagement allows us to adapt the academic offer and the extension services of the University to the real needs of the students. The process of convergence towards the European Higher Education Area (EHEA) raises the need to form in competitions, that is to say, of developing in our students capacities and knowledge beyond the purely theoretical-practical thing. Therefore, the perception and experience of the educational process and environment by the students is an important issue to be addressed to accomplish their expectations and achieve a curriculum accordingly to EHEA expectations. The present study aims to explore the student motivation and approval of the educational environment at the UPM. To this end a total of 97 students enrolled in the undergraduate program of Civil Engineering, Computer Engineering and Agronomic Engineering at UPM were surveyed. The survey consisted of 40 questions divided in three blocks. The first one of 20 questions of personal character in that they were gathering, besides the sex and the age, the degree of fulfilment, implication and dedication with the institution and the academic tasks. In the second block we identify 10 questions related to the perception of the student on the teaching quality, and finally a block of 10 questions regarding the Bologna Process. The students personal motivation was moderately high, with a score of 3.6 (all scores are provided on a 5-point scale), being the most valuable items obtaining a university degree (4,3) and the friendship between students (4,2). Any significant difference was shown between sexes (P=0.23) since the averages for this block of questions were of 3.7±0.3 and 3.5±0.4 for women and men respectively. The students are moderately satisfied with their graduate studies with an average score of 3,2, being the questions that reflect a minor satisfaction the research profile of the teachers (2,8) and the organization of the Schools (2,9). The best valued questions are related to the usefulness and quality of the degrees, with 3,5 and 3,4 respectively, and to the interest of the courses within the degree (3,4). For sexes, the results of this block of questions are similar (3.1±0.3 and 3.2±0.3 for men and women respectively=0.79). Also, there were no differences (P=0.39) between the students who arrange work and studies or do not work (3.1±0.2 and 3.2±0.3 respectively). In conclusion, students at UPM present an acceptable degree of motivation and satisfaction with regard to the studies and services that offer their respective Schools. Both characteristics receive the same value both for men and for women and so much for students who arrange work and studies as for those who devote themselves only to studying. In a significant way, students who are more engaged and are in-class attendants present the major degree of satisfaction.Overall, there is a great lack of information regarding the Bologna Process. In fact to the majority, they would like to know more on what it is, what it means and what changes will involve its implementation.
Resumo:
Antecedentes: Esta investigación se enmarca principalmente en la replicación y secundariamente en la síntesis de experimentos en Ingeniería de Software (IS). Para poder replicar, es necesario disponer de todos los detalles del experimento original. Sin embargo, la descripción de los experimentos es habitualmente incompleta debido a la existencia de conocimiento tácito y a la existencia de otros problemas tales como: La carencia de un formato estándar de reporte, la inexistencia de herramientas que den soporte a la generación de reportes experimentales, etc. Esto provoca que no se pueda reproducir fielmente el experimento original. Esta problemática limita considerablemente la capacidad de los experimentadores para llevar a cabo replicaciones y por ende síntesis de experimentos. Objetivo: La investigación tiene como objetivo formalizar el proceso experimental en IS, de modo que facilite la comunicación de información entre experimentadores. Contexto: El presente trabajo de tesis doctoral ha sido desarrollado en el seno del Grupo de Investigación en Ingeniería del Software Empírica (GrISE) perteneciente a la Escuela Técnica Superior de Ingenieros Informáticos (ETSIINF) de la Universidad Politécnica de Madrid (UPM), como parte del proyecto TIN2011-23216 denominado “Tecnologías para la Replicación y Síntesis de Experimentos en Ingeniería de Software”, el cual es financiado por el Gobierno de España. El grupo GrISE cumple a la perfección con los requisitos necesarios (familia de experimentos establecida, con al menos tres líneas experimentales y una amplia experiencia en replicaciones (16 replicaciones hasta 2011 en la línea de técnicas de pruebas de software)) y ofrece las condiciones para que la investigación se lleve a cabo de la mejor manera, como por ejemplo, el acceso total a su información. Método de Investigación: Para cumplir este objetivo se opta por Action Research (AR) como el método de investigación más adecuado a las características de la investigación, para obtener resultados a través de aproximaciones sucesivas que abordan los problemas concretos de comunicación entre experimentadores. Resultados: Se formalizó el modelo conceptual del ciclo experimental desde la perspectiva de los 3 roles principales que representan los experimentadores en el proceso experimental, siendo estos: Gestor de la Investigación (GI), Gestor del Experimento (GE) y Experimentador Senior (ES). Por otra parte, se formalizó el modelo del ciclo experimental, a través de: Un workflow del ciclo y un diagrama de procesos. Paralelamente a la formalización del proceso experimental en IS, se desarrolló ISRE (de las siglas en inglés Infrastructure for Sharing and Replicating Experiments), una prueba de concepto de entorno de soporte a la experimentación en IS. Finalmente, se plantearon guías para el desarrollo de entornos de soporte a la experimentación en IS, en base al estudio de las características principales y comunes de los modelos de las herramientas de soporte a la experimentación en distintas disciplinas experimentales. Conclusiones: La principal contribución de la investigación esta representada por la formalización del proceso experimental en IS. Los modelos que representan la formalización del ciclo experimental, así como la herramienta ISRE, construida a modo de evaluación de los modelos, fueron encontrados satisfactorios por los experimentadores del GrISE. Para consolidar la validez de la formalización, consideramos que este estudio debería ser replicado en otros grupos de investigación representativos en la comunidad de la IS experimental. Futuras Líneas de Investigación: El cumplimiento de los objetivos, de la mano con los hallazgos alcanzados, han dado paso a nuevas líneas de investigación, las cuales son las siguientes: (1) Considerar la construcción de un mecanismo para facilitar el proceso de hacer explícito el conocimiento tácito de los experimentadores por si mismos de forma colaborativa y basados en el debate y el consenso , (2) Continuar la investigación empírica en el mismo grupo de investigación hasta cubrir completamente el ciclo experimental (por ejemplo: experimentos nuevos, síntesis de resultados, etc.), (3) Replicar el proceso de investigación en otros grupos de investigación en ISE, y (4) Renovar la tecnología de la prueba de concepto, tal que responda a las restricciones y necesidades de un entorno real de investigación. ABSTRACT Background: This research addresses first and foremost the replication and also the synthesis of software engineering (SE) experiments. Replication is impossible without access to all the details of the original experiment. But the description of experiments is usually incomplete because knowledge is tacit, there is no standard reporting format or there are hardly any tools to support the generation of experimental reports, etc. This means that the original experiment cannot be reproduced exactly. These issues place considerable constraints on experimenters’ options for carrying out replications and ultimately synthesizing experiments. Aim: The aim of the research is to formalize the SE experimental process in order to facilitate information communication among experimenters. Context: This PhD research was developed within the empirical software engineering research group (GrISE) at the Universidad Politécnica de Madrid (UPM)’s School of Computer Engineering (ETSIINF) as part of project TIN2011-23216 entitled “Technologies for Software Engineering Experiment Replication and Synthesis”, which was funded by the Spanish Government. The GrISE research group fulfils all the requirements (established family of experiments with at least three experimental lines and lengthy replication experience (16 replications prior to 2011 in the software testing techniques line)) and provides favourable conditions for the research to be conducted in the best possible way, like, for example, full access to information. Research Method: We opted for action research (AR) as the research method best suited to the characteristics of the investigation. Results were generated successive rounds of AR addressing specific communication problems among experimenters. Results: The conceptual model of the experimental cycle was formalized from the viewpoint of three key roles representing experimenters in the experimental process. They were: research manager, experiment manager and senior experimenter. The model of the experimental cycle was formalized by means of a workflow and a process diagram. In tandem with the formalization of the SE experimental process, infrastructure for sharing and replicating experiments (ISRE) was developed. ISRE is a proof of concept of a SE experimentation support environment. Finally, guidelines for developing SE experimentation support environments were designed based on the study of the key features that the models of experimentation support tools for different experimental disciplines had in common. Conclusions: The key contribution of this research is the formalization of the SE experimental process. GrISE experimenters were satisfied with both the models representing the formalization of the experimental cycle and the ISRE tool built in order to evaluate the models. In order to further validate the formalization, this study should be replicated at other research groups representative of the experimental SE community. Future Research Lines: The achievement of the aims and the resulting findings have led to new research lines, which are as follows: (1) assess the feasibility of building a mechanism to help experimenters collaboratively specify tacit knowledge based on debate and consensus, (2) continue empirical research at the same research group in order to cover the remainder of the experimental cycle (for example, new experiments, results synthesis, etc.), (3) replicate the research process at other ESE research groups, and (4) update the tools of the proof of concept in order to meet the constraints and needs of a real research environment.
Resumo:
The use of Project Based Learning has spread widely over the last decades, not only throughout countries but also among disciplines. One of the most significant characteristics of this methodology is the use of ill-structured problems as central activity during the course, which represents an important difficulty for both teachers and students. This work presents a model, supported by a tool, focused on helping teachers and students in Project Based Learning, overcoming these difficulties. Firstly, teachers are guided in designing the project following the main principles of this methodology. Once the project has been specified at the desired level of depth, the same tool helps students to finish the project specification and organize the implementation. Collaborative work among different users is allowed in both phases. This tool has been satisfactorily tested designing two real projects used in Computer Engineering and Software Engineering degrees.
Resumo:
The Bologna Declaration and the implementation of the European Higher Education Area are promoting the use of active learning methodologies such as cooperative learning and project based learning. This study was motivated by the comparison of the results obtained after applying Cooperative Learning (CL) and Project Based Learning (PBL) to a subject of Computer Engineering. The fundamental hypothesis tested was whether the academic success achieved by the students of the first years was higher when CL was applied than in those cases to which PBL was applied. A practical case, by means of which the effectiveness of CL and PBL are compared, is presented in this work. This study has been carried out at the Universidad Politécnica de Madrid, where these mechanisms have been applied to the Operating Systems I subject from the Technical Engineering in Computer Systems degree (OSIS) and to the same subject from the Technical Engineering in Computer Management degree (OSIM). Both subjects have the same syllabus, are taught in the same year and semester and share also formative objectives. From this study we can conclude that students¿ academic performance (regarding the grades given) is greater with PBL than with CL. To be more specific, the difference is between 0.5 and 1 point for the individual tests. For the group tests, this difference is between 2.5 and 3 points. Therefore, this study refutes the fundamental hypothesis formulated at the beginning. Some of the possible interpretations of these results are referred to in this study.
Resumo:
Este Trabajo de Fin de Grado (TFG) tiene el objetivo de aportar un sistema de enseñanza innovador, un sistema de enseñanza mediante el cual se consiga involucrar a los alumnos en tareas y prácticas en las que se adquieran conocimientos a la vez que se siente un ambiente de juego, es decir, que se consiga aprender de forma divertida. Está destinado al sistema educativo de la Escuela Técnica Superior de Ingenieros Informáticos de la Universidad Politécnica de Madrid, en concreto a las asignaturas relacionadas con los Procesadores de Lenguajes. La aplicación desarrollada en este trabajo está destinada tanto a los profesores de las asignaturas de Procesadores de Lenguajes como a los alumnos que tengan alguna relación con esas asignaturas, consiguiendo mayor interacción y diversión a la hora de realizar la tareas y prácticas de las asignaturas. Para los dos tipos de usuarios descritos anteriormente, la aplicación está configurada para que puedan identificarse mediante sus credenciales, comprobándose si los datos introducidos son correctos, y así poder acceder al sistema. Dependiendo de qué tipo de usuario se identifique, tendrá unas opciones u otras dentro del sistema. Los profesores podrán dar de alta, ver, modificar o dar de baja las configuraciones para los analizadores de los lenguajes correspondientes a las diferentes asignaturas que están configurados previamente en el sistema. Además, los profesores pueden dar de alta, ver, modificar o dar de baja los fragmentos de código que formarán los ficheros correspondientes a las plantillas de pruebas del analizador léxico que se les ofrece a los alumnos para realizar comprobaciones de las prácticas. Mediante la aplicación podrán establecer diferentes características y propiedades de los fragmentos que incorporen al sistema. Por otra parte, los alumnos podrán realizar la configuración del lenguaje, definido por los profesores, para la parte del analizador léxico de las prácticas. Esta configuración será guardada para el grupo al que corresponde el alumno, pudiendo realizar modificaciones cualquier miembro del grupo. De esta manera, se podrán posteriormente establecer las relaciones necesarias entre los elementos del lenguaje según la configuración de los profesores y los elementos referentes a las prácticas de los alumnos.Además, los alumnos podrán realizar comprobaciones de la parte léxica de sus prácticas mediante los ficheros que se generan por el sistema en función de sus opciones de práctica y los fragmentos añadidos por los profesores. De esta manera, se informará a los alumnos del éxito de las pruebas o bien de los fallos ocasionados con sus resultados, bien por el formato del archivo subido como resultado de la prueba o bien por el contenido incorrecto de este mismo. Todas las funciones que ofrece esta aplicación son completamente on-line y tendrán una interfaz llamativa y divertida, además de caracterizarse por su facilidad de uso y su comodidad. En el trabajo realizado para este proyecto se cumplen tanto las Pautas de Accesibilidad para Contenidos Web (WCAG 2.0), así como las propiedades de un código HTML 5 y CSS 3 de manera correcta, para así conseguir que los usuarios utilicen una aplicación fácil, cómoda y atractiva.---ABSTRACT---This Final Year Project (TFG) aims to contribute the educational system of the School of Computer Engineering at the Polytechnic University of Madrid, especially in subjects related with Language Processors. This project is an interactive learning system whose goal is to learn in an amusing environment. To realize this target, the system involves students, using environments of games in tasks and practices. The application developed in this project is designed for both professors of the subjects of Language Processors and students who have some relation to these subjects. This perspective achieve more interaction and a funny environment during the subject‘s tasks. The application is configured in order to the users can be identified by their credentials, checking whether the identification data are correct to have access to the system. According on what type of user is identified, they will have different options within the system. Professors will be able to register, modify or delete settings for the scanner of languages for all the subjects preconfigured in the system. Additionally, professors can register, show, modify or remove the code of the templates from scanner tests that are offered to students for testing the practical exercises. The professors may provide also different characteristics and properties of fragments incorporated in the system. Moreover, students can make the configuration of languages, getting in the systems by the administrators, for the scanner module of their practical exercises. This configuration will be saved for the group of the student. This model can also be changed by any group member. The system permits also establish later the relationships between the elements of language fixes by professors and elements developed by the students. Students could check the lexical part of their practical exercises through files that are created according to their practical options and the fragments added by professors. Thus students will be informed of success or failure in the uploaded files format and in the content of them. All functions provide by this application are completely on-line and will have a striking and funny interface, also characterized by its ease of use and comfort.The work reaches both the Web Content Accessibility Guidelines (WCAG 2.0), and the properties of an HTML 5 and CSS 3 code correctly, in order to get the users to get an easy, convenient application and attractive.
Resumo:
El Trabajo de Fin de Grado (TFG) aquí descrito es el resultado de la necesidad de crear un sistema de gestión de seminarios que utilizarán los planes de postgrado de la Escuela Técnica Superior de Ingenieros Informáticos de la Universidad Politécnica de Madrid. Su objetivo es facilitar, tanto al alumnado como al personal de dicha institución, la creación de seminarios ofertados para el alumnado de los distintos planes de postgrado, además de permitir la inscripción de éstos de un modo cómodo e intuitivo. La aplicación de gestión de seminarios deberá permitir que los coordinadores de un plan de postgrado puedan crear seminarios de tal manera que puedan quedar publicados para el alumnado. Para ello, será necesario que sean recogidos todos los datos necesarios del seminario, así como el plan de postgrado organizador y los planes de postgrado para los que serán ofertados. La aplicación además deberá permitir la creación de seminarios sin ser publicados al alumno provisionalmente, la edición de los seminarios ya existentes así como la creación de un seminario nuevo importando los datos de otro ya realizado. Por otra parte, se deberá incorporar en las páginas web de planes de postgrado el listado de los seminarios ofertados para el curso actual, de tal manera que se permita a los alumnos inscribirse a éstos. Por último, el personal de administración del plan de postgrado organizador de un seminario deberá tener acceso a la lista de alumnos inscritos a los seminarios, para el caso de enviar información urgente o ver los alumnos inscritos. El módulo de gestión de seminarios deberá obtener los datos de los planes de postgrado actuales gracias a un módulo de gestión de postgrados, donde se deberá permitir crear, editar y dar de baja planes de postgrado, así como gestionar el personal del postgrado que podrá realizar acciones sobre los seminarios organizados por éste. Los módulos de gestión de seminarios y de gestión de postgrados estarán integrados en un módulo de administración.---ABSTRACT---The Final Project Degree (TFG) described here is the result of the need to create a management system that will use seminars postgraduate plans at the Higher Technical School of Computer Engineering at the Universidad Politécnica de Madrid. It aims to facilitate both the students and staff of the institution, creating seminars offered to the students of the various postgraduate plans, besides allowing the registration of these in a convenient and intuitive way. The management application will allow the coordinators of a postgraduate plan to create seminars so that they can be published for students. To do this, you will need to collect all the necessary details about the seminar, as well as the postgraduate plan owner and postgraduate plans for which it will be offered. The application must also enable the creation of seminars without being published provisionally to students, the editing of existing seminars and the creation of a new seminar importing data from another already done. Moreover, it should be incorporated into web pages of postgraduate plans seminars listing offered for the current course, so that students are allowed to enrol in these. Finally, the staff of the plan organizer should have access to the list of students enrolled at seminars, in the case of sending urgent information or to see students enrolled. The management module must obtain data from current postgraduate plans through a postgraduate management module, which should be allowed to create, edit and terminate postgraduate plans, and manage staff that can perform actions on seminars organized by it. Management modules of seminars and postgraduate programs will be integrated into a management pack.
Resumo:
Este trabajo contiene el diseño y análisis de dos modalidades de docencia de programación de aplicaciones móviles, con el objetivo de aumentar el interés de los estudiantes de enseñanza secundaria por la Ingeniería Informática. Primeramente se analizó la estructura y el contenido de las diferentes materias relacionadas con la informática que existen actualmente en la educación secundaria en España, con el fin de localizar las carencias del currículo. Estas carencias principales son: la falta de reconocimiento de la Ingeniería informática al mismo nivel que el resto de ingenierías y una falta de contenidos relacionados con el desarrollo de software, tanto a nivel de programación como de diseño. A continuación, una vez analizados diferentes posibilidades de entornos con los que desarrollar dichos cursos, se diseñaron los dos modelos de docencia utilizando App Inventor como herramienta conductora, con los que poder cubrir esos conocimientos. El primer modelo consiste en un curso de cuatro semanas a impartir directamente en el centro, mientras que el segundo se trata de un taller de una mañana a impartir en la Escuela Técnica Superior de Ingenieros Informáticos de la Universidad Politécnica de Madrid. De los resultados de esos modelos se han obtenidos resultados muy positivos en cuanto al incremento de los conocimientos de los alumnos sobre informática, además de aumentar su interés por la Ingeniería Informática y obtener una visión más ajustada a la realidad de la misma.---ABSTRACT---This work details the design and realization of a workshop and a course for teaching mobile application programming to Spanish high school students, with the aim of increasing their interest in Computing. In order to locate the shortcomings of the curriculum, the structure and contents of various subjects related to Computing in currently secondary education in Spain were analyzed. The results show a lack of recognition of computer engineering at the same level as the rest of engineering disciplines and a lack of content related to software development, both in terms of programming and design. Then, after analyzing existing programming environments available for covering the basic programming objectives, App Inventor was chosen as mobile programming environment for both teaching activities (the workshop and the course). The first activity consists of a four-week course to teach directly in the high school, while the second one is a 4-hour workshop to be held at the university. The workshop and the course were carried out with students of two secondary schools, obtaining very positive results in terms of increasing students’ knowledge about computers, increasing their interest in Computing, and making them get a more accurate vision of the discipline.
Resumo:
A high productivity rate in Engineering is related to an efficient management of the flow of the large quantities of information and associated decision making activities that are consubstantial to the Engineering processes both in design and production contexts. Dealing with such problems from an integrated point of view and mimicking real scenarios is not given much attention in Engineering degrees. In the context of Engineering Education, there are a number of courses designed for developing specific competencies, as required by the academic curricula, but not that many in which integration competencies are the main target. In this paper, a course devoted to that aim is discussed. The course is taught in a Marine Engineering degree but the philosophy could be used in any Engineering field. All the lessons are given in a computer room in which every student can use each all the treated software applications. The first part of the course is dedicated to Project Management: the students acquire skills in defining, using Ms-PROJECT, the work breakdown structure (WBS), and the organization breakdown structure (OBS) in Engineering projects, through a series of examples of increasing complexity, ending up with the case of vessel construction. The second part of the course is dedicated to the use of a database manager, Ms-ACCESS, for managing production related information. A series of increasing complexity examples is treated ending up with the management of the pipe database of a real vessel. This database consists of a few thousand of pipes, for which a production timing frame is defined, which connects this part of the course with the first one. Finally, the third part of the course is devoted to the work with FORAN, an Engineering Production package of widespread use in the shipbuilding industry. With this package, the frames and plates where all the outfitting will be carried out are defined through cooperative work by the studens, working simultaneously in the same 3D model. In the paper, specific details about the learning process are given. Surveys have been posed to the students in order to get feed-back from their experience as well as to assess their satisfaction with the learning process. Results from these surveys are discussed in the paper
Resumo:
Auxetic materials (or metamaterials) are those with a negative Poisson ratio (NPR) and display the unexpected property of lateral expansion when stretched, as well as an equal and opposing densification when compressed. Such geometries are being progressively employed in the development of novel products, especially in the fields of intelligent expandable actuators, shape morphing structures and minimally invasive implantable devices. Although several auxetic and potentially auxetic geometries have been summarized in previous reviews and research, precise information regarding relevant properties for design tasks is not always provided. In this study we present a comparative study of two-dimensional and three-dimensional auxetic geometries carried out by means of computer-aided design and engineering tools (from now on CAD–CAE). The first part of the study is focused on the development of a CAD library of auxetics. Once the library is developed we simulate the behavior of the different auxetic geometries and elaborate a systematic comparison, considering relevant properties of these geometries, such as Poisson ratio(s), maximum volume or area reductions attainable and equivalent Young's modulus, hoping it may provide useful information for future designs of devices based on these interesting structures.
Resumo:
En el presente trabajo se ha intentado obtener una visión, lo más exacta posible, de cuál ha sido el currículo académico seguido por los miembros de algunas de las universidades más prestigiosas en todo el mundo. Para ello se han tomado 36 centros, todos ellos impartiendo la misma titulación de "Electrical Engineering", situados entre los 50 más importantes del mundo.
Resumo:
This paper presents the rationale to build up a Telematics Engineering curriculum. Telematics is a strongly computing oriented area; then, the authors have initially intended to apply the common requirements described in the computing curricula elaborated by the ACM/EEEE-CS Joint Curriculum Task Force. This experience has revealed some problematic aspects in the ACM/IEEE-CS proposal. From the analysis of these problems, a model to guide the selection and specially the approach of the Telematics curriculum contents is proposed. This model can be easily generalized to other strongly computing oriented curricula, whose number is growing everyday
Resumo:
The present work is focused on studying two issues: the “teamwork” generic competence and the “academic motivation”. Currently the professional profile of engineers has a strong component of teamwork. On the other hand, motivational profile of students determines their tendencies when they come to work in team, as well as their performance at work. In this context we suggest four hypotheses: (H1) students improve their teamwork capacity by specific training and carrying out a set of activities integrated into an active learning process; (H2) students with higher mastery motivation have better attitude towards team working; (H3) students with higher mastery motivation obtain better results in academic performance; and (H4) students show different motivation profiles in different circumstances: type of courses, teaching methodologies, different times of the learning process. This study was carried out with computer science engineering students from two Spanish universities. The first results point to an improvement in teamwork competence of students if they have previously received specific training in facets of that competence. Other results indicate that there is a correlation between the motivational profiles of students and their perception about teamwork competence. Finally, and contrary to the initial hypothesis, these profiles appear to not influence significantly the academic performance of students.
Resumo:
The present work is aimed at discussing several issues related to the teamwork generic competence, motivational profiles and academic performance. In particular, we study the improvement of teamwork attitude, the predominant types of motivation in different contexts and some correlations among these three components of the learning process. The above-mentioned aspects are of great importance. Currently, the professional profile of engineers has a strong teamwork component and the motivational profile of students determines both their tendencies when they come to work as part of a team, as well as their performance at work. Taking these issues into consideration, we suggest four hypotheses: (H1) students improve their teamwork capacity through specific training and carrying out of a set of activities integrated into an active learning process; (H2) students with higher mastery motivation have a better attitude towards teamwork; (H3) students with different types of motivations reach different levels of academic performance; and (H4) students show different motivation profiles in different circumstances: type of courses, teaching methodologies, different times of the learning process. This study was carried out with Computer Science Engineering students from two Spanish universities. The first results point to an improvement in teamwork competence of students if they have previously received specific training in facets of that competence. Other results indicate that there is a correlation between the motivational profiles of students and their perception of teamwork competence. Finally, results point to a clear relationship between some kind of motivation and academic performance. In particular, four kinds of motivation are analyzed and students are classified into two groups according to them. After analyzing several marks obtained in compulsory courses, we perceive that those students that show higher motivation for avoiding failure obtain, in general, worse academic performance.