21 research outputs found
Improvement of learning through European educational projects
Proceedings TEEM 2020: Eighth International Conference on Technological Ecosystems for Enhancing Multiculturality.[EN]The purpose of this article is to set out the research plan for the doctoral thesis, which deals with the definition of a methodological guide for the successful use of digital technologies in education, especially in eLearning, taking as a reference European educational projects that have been successful in achieving an improvement in the teaching and learning process. We live in an increasingly digital society that requires citizens to be prepared to adapt to the needs of the moment and to solve the problems that arise. For this to be possible, the education system must be prepared to adequately train future citizens who will join a changing labor market. To this end, teachers must be trained and know how to carry out efficient educational projects that allow them to make the most of the potential of ICT in the classroom or in distance education. The situation experienced during the 2019-2020 school year with the COVID-19 pandemic has tested the education system and its ability to adapt to a situation where the use of distance education was required and where ICT was very much needed in most of the cases to bring education to the homes. These factors make it very necessary to work for a better teaching professionalization. Therefore, the main objective of this PhD work is to enable teachers to design their projects, involving electronic learning, in a more effective way. To achieve this, what better than to use the educational projects compiled in the Erasmus+ results platform, which allow the analysis of project typology, outcomes, topics and to see those that have been catalogued as a good practice or success story. This database will be a key tool to gather information together with the collaboration of the main actors of those projects that have been successful. A methodological guide would allow teachers and teacher trainers to know the key factors that help to achieve a good design of educational projects and allow an optimal use of ICT resources and the greatest impact on the teaching-learning process
Networked youth research for empowerment in digital society. The WYRED project
European Commision (EC). Funding H2020/CSA. Project Code: 72706
APFT: Active peer-based Flip Teaching
The Flip Teaching model1 (the lesson at home, the homework in class) has been used to actively engage students in their learning process during the lectures. In this method, passive learning (the lesson) is transferred to homework and the activity (exercises, debates, collaborative learning, etc.) to the class. More advanced Flip Teaching models carry out an intermediate phase in which the students can actively participate "at home", such as Micro Flip Teaching model. This model proposes an on-line activity composed by the learning of the lesson and the realization of an individual micro-activity on the same and then, in class, work on the obtained results in the micro-activity. In this work, the Micro Flip Teaching model has been adapted to carry out the online activity in a collaborative way in work teams. The main novelty of this proposal is that the active participation of the students generates resources that can be used as didactic material in future editions of the subject. To evaluate the impact of this proposal, an experimental group has been established that used resources generated by students from previous subject editions, while the control group used only resources generated by the teacher. The research shows that the resources generated by students are equally effective than those generated by teachers
Students' knowledge sharing to improve learning in academic engineering courses
This paper presents an example of scaffolding during the development of an engineering course, in which students are supported by teachers and other students. This proposal covers the benefits of the use of shared knowledge repositories in which content was created by students. Teamwork is the transversal competence that is considered to be the central knowledge topic. The cooperation among students through teamwork methodology has generated more than 500 learning resources and a knowledge management system, BRACO, which has been created with these resources to manage information and conduct searches according to each student''s profile and needs. The generated knowledge spiral is composed of knowledge circles that increase during each iteration of the action-research implementation. The reflection phase of this research consists of the evaluation of the impact on learning for students in the experimental group after using the knowledge resources generated by students in relation with teamwork competence, in contrast with the control group that does not experience this intervention. With regard to the assessments, several surveys and a learning analytics system, this paper explains the underlying methodological foundations and the empirical study. In comparison to the control group, the experimental group obtained better results in relation to indicators of positive learning results, such as studentstudent interaction, teamwork development and final grades during the teamwork process
Study of the flexibility of a learning analytics tool to evaluate teamwork competence acquisition in different contexts
Learning analytics tools and methodologies aim to facilitate teachers and/or decision makers with information and knowledge about what is happening in virtual learning environments in a straightforward and effortless way. However, it is necessary to apply these tools and methodologies in different contexts with a similar success, that is, that they should be flexible and portable enough. There exist several learning analytics tools that only works properly with very specific versions of learning platforms. In this paper, the authors aim to evaluate the flexibility and portability of a methodology and a learning analytics tool that supports individual assessment of teamwork competence. In order to do so the methodology and the tool are applied in a similar course from two different academic contexts. After the experiment, it is possible to see that the learning analytics tool seems to work properly and the suggested new functionalities are similar in both contexts. The methodology can be also applied but results could be improved if some meetings are carried out to check how team works are progressing with their tasks
Pilot test for validation of an instrument of Knowledge management in the massive open online context
Knowledge management is a systematic process that deals with looking for, filtering, introducing and using information with the support of information technologies. The objective of using knowledge management depends on the sector that uses it. In companies, it is a value in the balance, in education it is a way to improve the successful of students. The massive open online courses (MOOC) are a topic in which it has been done little researching into the area of knowledge management. In this work, it will be presented a measurement instrument of knowledge management processes on MOOC. The model is based on a previous model used in business who has been adapted to the intercultural, massive and informal context of MOOC. The model was made with the help of an expert panel and its internal consistence was assessing with the Alpha Cronbach technique obtaining general scores over 0.9
Aprendizaje, Innovación y Cooperación como impulsores del cambio metodológico. Actas del V Congreso Internacional sobre Aprendizaje, Innovación y Cooperación. CINAIC 2019 (9-11 de Octubre de 2019, Madrid, España)
La misión de CINAIC se basa en contribuir a mejorar el proceso de formación y aprendizaje a través de la innovación educativa. Para ello, y desde el año 2011, los años impares se organiza un congreso internacional y los años pares se desarrollan actividades experimentales y abiertas con un fuerte contenido innovador. CINAIC también tiene el compromiso de ayudar a mejorar la calidad de la innovación educativa llevada a cabo con planteamientos científicos y, en la medida de sus posibilidades, contribuir a divulgar dichas experiencias para que se produzca un mayor impacto en la educación. CINAIC se ha consolidado como un punto de encuentro del profesorado que realiza innovación, como un foro de debate con una activa participación de los asistentes, como un centro de divulgación de las buenas prácticas y como un espacio de aprendizaje y experimentación. Junto a las innovaciones ya consolidadas, como presentaciones en formato PechaKucha, como actividades participativas y cooperativas, como seminarios y talleres sobre temáticas útiles (tendencias, indicadores y divulgación científica de la innovación educativa), espacios abiertos de discusión como ECO-LAB. En esta edición se introduce la innovación: «mesa redonda de palabras» y «Escuela de cocina» Las “mesas redondas de palabras”. Son similares a una mesa redonda, pero es el público el que participa en ella. Inicialmente a cada persona del público se le asigna una palabra al entrar en la sesión. La mesa comienza con un moderador, una o dos personas invitadas y sillas vacías. Esas sillas se irán ocupando por personas del público que tengan las palabras que vayan saliendo en las reflexiones. La «Escuela de Cocina» está compuesta por un conjunto de talleres donde se trabajará con «recetas» concretas para aplicar diversas innovaciones educativas en el aula. Las recetas integran y secuencian ingredientes (tipos de contenidos), actividades (a realizar por el profesorado y alumnado) y herramientas (tecnologías educativas). Las personas que participen en estas actividades «cocinarán» las recetas para poder llevarse los platos a sus respectivas asignaturas. Desde los comités organizador, científico, editorial y de acción social les damos la bienvenida a esta nueva edición de CINAIC que tendrá lugar en Madrid del 9 al 11 de octubre de 2019
Initial learning scenarios based on the computational thinking evaluation for the course Programming fundamentals at INACAP
The paper’s objective is present the design and the planning of
initial learning scenarios for the course Programming
Fundamentals, from the evaluation of computational thinking to
new students of the careers Computer engineering and
Programmer analyst of the Technological University of Chile and
Training Center Technical respectively at INACAP, to favor the
motivation and autonomy of study through the recognition of
skills and the use of the instructional design of the face-to-face
course. The proposal is based on correspondence with three of five
change trends that integrated the educational model. Regarding
the Knowledge society, promote recognition of the individuality
of the student as a person who will do university studies, that is,
the scenarios respond to the fact that each person learns
differently. In the Training of competences, contribute with
preventive actions that the teacher communicates when there is a
lack of specific skills. Finally, in the Flexibility and articulation,
provide a diagnostic tool that favors the recognition of previous
competences to have an articulated beginning of studies based on
the needs of the student. Consequently, contribute to the
INACAP´s educational model
Pilot study on university students' opinion about STEM studies at higher education
The percentages of women enrolled in higher education in the
STEM sector are significantly lower than those of men. Overall,
gender representation in science, technology, engineering and mathematics
degrees in Europe is not balanced. The Leaky Pipeline phenomenon,
marked by gender stereotypes, makes the latent gender
gap a relevant topic of study. Studies exist on academic performance,
self-perception, self-efficacy, outcome expectations; however, studying
gender stereotypes linked to STEM studies is also essential. It
is necessary to know the social and family context in which young
people have grown up, as well as their perception of such studies.
To study gender stereotypes of university students about STEM
studies, a questionnaire has been designed for empirical validation.
For the design of the instrument, to be validated, items from other
instruments have been taken and adapted to Spanish. After the
design of the instrument, an online pilot study has been applied
in the University of Salamanca, the University of Valencia and the
Polytechnic University of Valencia. A total of 115 people answered
the questionnaire. The results of the pilot study reveal that the
study sample is not particularly marked by gender stereotypes
about gender equality in STEM. Also, the sample is receptive to
learning about science and applying it in their lives. On the other
hand, the idea that women have to give up their studies and careers
to look after their families and children is rejected. The idea that
men are more interested in university studies than women is also
rejected. At the same time, the sample is aware of the difficulties
that women encounter in the STEM sector. Another optimistic point
of the results is that there are no alarming data on bad experiences
due to gender. In the future, the study will be replicated on a larger
scale