Geometry with a STEM and Gamification Approach: A Didactic Experience in Secondary Education

Recent societal changes have meant that education has had to adapt to digital natives of the 21st century. These changes have required a transformation in the current educational paradigm, where active methodologies and ICT have become vehicles for achieving this goal, designing complete teaching sequences with STEM approaches that help students to learn. Under a gamified approach, this document addresses a didactic proposal in geometry focused on STEM disciplines. This proposal combines tools such as AR, VR, manipulative materials, and social networks, with techniques such as m-learning, cooperative-learning, and flipped-learning, which make methodological transformation possible. The research was carried out during two academic years under an action research framework. It departed from a traditional methodology and, in two cycles, methodology was improved with the benefits that gamification brings to STEM proposals in Secondary Education. The data gathered in the experiment were analysed following a mixed method. Learning produced, strategies employed, successes and errors, and results of a questionnaire are presented. Evidence shows an improvement in academic performance from 50% fails to 100% pass, most of the students ended up motivated, participation was of the whole group, more than 80% showed positive emotions, and thanks to the cooperative-learning, group cohesion was improved.This study was partially funded by the ERDF (European Regional Development Fund) research project from the FEDER-Andalusian Regional Government grant UAL2020-SEJ-B2086 and by University of Málaga (Spain). Partial funding for open access charge: Universidad de Málaga

Virtual learning scenarios for qualitative assessment in higher education 3D arts

Using enhanced learning technologies (TEL) including immersive virtual reality environments, we are seeking to achieve a new way of assessing subjects of 3D arts. We have developed a project based on Scenario Centered Curriculum (SCC), where the students have to think, design, convey, validate, and build a civil project using new technologies that help in the assessment process. We have used gamification techniques and game engines to evaluate planned tasks in which students can demonstrate the skills they developed in the scenarios. The assessment is integrated in the creation of a 3D complex model focused on the construction of a building in a virtual space. This whole process will be carried out by gamification techniques to embed the assessment of the 3D models with the objective of improving students learning.Author's final draf

Interactive virtual method applied in urban design education. Mixed Approach

La memòria d'aquesta tesi tracta sobre l'ús de la transformació digital en l'ensenyament i els processos de disseny urbà, a través de conceptes innovadors i metodologies pràctiques. L'objectiu és promoure l'ús de tecnologies digitals, en particular per avaluar la inclusió de la realitat virtual en diversos entorns d'ensenyament formals i informals del disseny urbà col·laboratiu, per tal de millorar, accelerar i augmentar el seu impacte social de forma positiva i millorar l'ensenyament universitària ajudant al fet que els estudiants consolidin amb major efectivitat les seves habilitats. Amb les característiques d’un sistema de realitat virtual, podem provar la nostra hipòtesi en funció de demostrar: (1) La implementació d'estratègies virtuals gamificades en el camp del disseny urbà generarà una millora i motivació en la participació ciutadana i dels estudiants, ja que l’entorn és més dinàmic, real i permet un disseny col·laboratiu àgil gràcies a les tecnologies visuals immersives, mentre avaluen críticament el resultat d'un disseny urbà i prenen decisions. (2) L'ús de sistemes virtuals interactius per a la comprensió de l'espai tridimensional millora en els estudiants i professionals la percepció de la comprensió de l'espai, generant major enteniment de les condicions d'ubicació, dimensions i relacions dels espais urbans, i defensar els arguments de projectes urbans i propostes urbanes definides interactivament que proven diverses estratègies d'acció. Per provar les nostres hipòtesis, fem servir un mètode quantitatiu i qualitatiu aplicat en diferents escenaris i als diferents perfils d'usuaris, estudiants, professionals i usuaris finals. Els resultats mostraran que és possible potenciar la transformació digital, millorar la motivació pública, la implicació i la satisfacció en els processos de presa de decisions urbanes, així com complementar l'adquisició de competències urbanes específiques necessàries per a la professió en estudiants d'Arquitectura.La memoria de esta tesis trata sobre el uso de la transformación digital en la enseñanza y los procesos de diseño urbano, a través de conceptos innovadores y metodologías prácticas. El objetivo es promover el uso de tecnologías digitales, en particular para evaluar la inclusión de la realidad virtual en diversos entornos de enseñanza formales e informales del diseño urbano colaborativo, con el fin de mejorarlo, acelerar y aumentar su impacto social positivo y mejorar la enseñanza universitaria ayudando a que los estudiantes consoliden con mayor efectividad sus habilidades. Con las características de un sistema de realidad virtual, podemos probar nuestra hipótesis en función de demostrar: (1) El uso de sistemas virtuales interactivos para la comprensión del espacio tridimensional mejora en los estudiantes y profesionales la percepción de la comprensión del espacio, generando mayor entendimiento de las condiciones de ubicación, dimensiones y relaciones de los espacios urbanos, y defender los argumentos de proyectos urbanos y propuestas urbanas definidas interactivamente que ensayan diversas estrategias de acción. (2) La implementación de estrategias virtuales gamificadas en el campo del diseño urbano generará una mejora y motivación en la participación ciudadana y en los estudiantes, ya que es un entorno de colaboración más dinámico, real y ágil gracias a las tecnologías visuales inmersivas, mientras evalúan críticamente el resultado de un diseño urbano y toman decisiones. Para probar nuestras hipótesis, utilizamos un método cuantitativo y cualitativo aplicado en diferentes escenarios y a diferentes perfiles de usuarios, estudiantes, profesionales y usuarios finales. Los resultados mostrarán que es posible potenciar la transformación digital, mejorar la motivación pública, la implicación y la satisfacción en los procesos de toma de decisiones urbanas, así como complementar la adquisición de competencias urbanas específicas necesarias para la profesión en estudiantes de Arquitectura.The memory of this thesis deals with the use of digital transformation in the teaching and processes of urban design, through innovative concepts and practical methodologies. The objective is to promote the use of digital technologies, in particular, to evaluate the inclusion of virtual reality in various formal and informal teaching environments of collaborative urban design, in order to improve it, speed up, and increase its positive social impact and improve university teaching by helping students consolidate their skills more effectively. With the characteristics of the VR system, we can test our hypothesis based on demonstrating: (1) The use of virtual-interactive systems for the understanding of three- dimensional space improve in students and professionals the perception of the comprehension of the space, generating a greater understanding of the location conditions, dimensions and relationships of urban spaces, and defend the arguments of urban projects and interactively defined urban proposals rehearsing various strategies of action. (2) The implementation of virtual gamified strategies in the field of urban design will generate improvement and motivation in citizen participation and students as it is a more dynamic, real and agile collaborative environment thanks to the immersive visual technologies as they critically evaluate the result of the urban design and make decisions. To validate our hypothesis, we use a quantitative and qualitative method applied in different scenarios and to a different profile of users, students, professionals and end users. The results will show that it is possible to empower digital transformation, to improve public motivation, implication, and satisfaction in urban decision-making processes as well as complementing the improvement of the perception of the comprehension of the space needed for the profession in Architecture students

Gamification and Advanced Technology to Enhance Motivation in Education

This book, entitled “Gamification and Advanced Technology to Enhance Motivation in Education”, contains an editorial and a collection of ten research articles that highlight the use of gamification and other advanced technologies as powerful tools for motivation during learning. Motivation is the driving force behind many human activities, especially learning. Motivated students are ready to make a significant mental effort and use deeper and more effective learning strategies. Numerous studies indicate that playing promotes learning, since when fun pervades the learning process, motivation increases and tension is reduced. Therefore, games can be very powerful tools in the improvement of learning processes from three different and complementary perspectives: as tools for teaching content or skills, as an object of the learning project itself and as a philosophy to be taken into account when designing the training process. Each contributions presented in this book falls into one of these categories; that is to say, they all deal with the use of games or related technologies, and they all study how playing enhances motivation in education

Impact of Gamification on Student Engagement in Graduate Medical Studies

Rapid technological advances have created major societal changes, transformed business sectors, and revolutionized enterprises. In contrast, the curricular structure of medical education has remained unchanged for the last 100 years, and, for the most part, medical education has been reluctant to embrace the use of technology. The prevalent pedagogical model is reliant on rote memorization. The conceptual framework that informed this study was the user-centered framework for meaningful gamification. This framework\u27s components are organismic integration theory, situational relevance, situated motivational affordance, and the universal design for learning. This quantitative study focused on key research questions related to identifying whether significant increases occurred over time in cooperative learning, cognitive level, and personal skills \u27the dependent variables\u27 when using a gamified learning method-the independent variable. The validated Student Engagement Survey was used to collect data from second-year medical students in a Southern California medical school, with N = 64. A repeated measures MANOVA with follow-up univariate ANOVAs was used, and statistical results indicated that there were significant differences over time in cooperative learning, cognitive level, and personal skills when using gamified learning methods. This research was conducted over a period of 3 months, divided into 3 Time Periods (TP). For all three variables, significant increases were noticed between TP 1 and TP 2, followed by significant decreases between TP 2 and TP 3. These findings pointed to the fact that more studies are needed to better understand whether certain types of gamification implementations are detrimental to student engagement in medical education, or whether more sound design principles ought to be explored to produce effective gamified learning components that could positively impact student engagement in medical education

Formative Research on an Instructional Design Theory for Fostering Self-Efficacy Through Gamification

The merits of gamification as a learner-centered pedagogy that positively influences learner engagement and motivation are widely established in the literature; yet, few studies have ventured beyond motivation to consider the impact gamification has on self-efficacy. Moreover, guidance for the effective design and development of gamified instruction is lacking. This study describes formative research conducted on the Gamification for Enhancing Learner Self-Efficacy (GELSE) instructional design theory, which was developed to guide the design of gamification aimed at fostering self-efficacy. The goal of formative research is to identify improvements for an instructional design theory based on a designed instance of the theory. The GELSE theory was applied to an undergraduate community health nursing course in a fully online, accelerated degree program. The theory was evaluated by answering the following questions: 1) What methods of the GELSE instructional design theory were perceived to be more effective?, 2) What methods of the GELSE instructional design theory were perceived to be less effective?, and 3) What improvements can be made to the GELSE instructional design theory?. Data was collected in this qualitative study through open-ended questionnaires, focus group interviews, semi-structured one-on-one interviews, and observations of online learner activities and social interactions. The results show that the GELSE instructional design theory is effectual for guiding the design of gamified instruction intended to foster learner self-efficacy. Additionally, the findings from the research yielded a number of recommendations for improving the GELSE theory

A Game-based Approach for Open Data in Education:A Systematic Mapping Review

Abstract Open Data is defined as digital data that is made available with the technical and legal characteristics necessary to be freely used, reused, and redistributed by anyone, anytime and anywhere. Examples of Open Data can be data on mobility or pollution, which an increasing number of cities are making available to citizens. In education, the novel field of Open Data has the potential of empowering a young generation with digital skills and critical thinking through work with real-life Open Data. However, the scarcity of methods and tools for skills development and insertion into educational designs reduces the possibility of achieving this potential. This study is part of the project ODECO, aimed at addressing challenges in the creation of Open Data ecosystems in several contexts, such as education. A systematic mapping review was conducted to uncover the research connections between Open Data education and educational games. Twenty-eight studies were identified and analysed through iterative searching and including keywords related to Gamification, Open Data and Education. In doing this, relevant themes and novel approaches in the current literature were found. This paper discusses how the fields of Open Data education and educational games methodologically and theoretically contribute to outline a game-based approach for Open Data in education. An Open Data Gamified Education Framework leads to authentic learning experiences for real-world problem solving in relation to eight actions: connecting classroom activities to real facts, empowering students to act with Open Data, supporting technical Open Data skills in the classroom, building literacy and developing skills, enhancing civic participation, creating more realistic and appealing narratives, extending teaching outside the classroom by collecting data in real time and local settings, and increasing engagement and motivation. Acknowledgments. This study is funded by the ODECO Marie Skłodowska-Curie Innovative Training Network (H2020-MSCA-ITN-2020, grant agreement 955569), which aims at addressing challenges in the creation of user driven, circular, skill-based, and inclusive Open Data ecosystems (ODECO - Towards a Sustainable Open Data ECOsystem, 2021)

Gaming in Action

The «Gaming in Action» project, which brought the publicaion of this book, involved institutions from different countries that deal with adult education. For almost three years, the partners worked with teachers and trainers who applied innovative pedagogical scenarios of game-based learning and gamification, all oriented from a rigorous pedagogical perspective. The project's main goal was to increase the acquisition of pedagogical innovation skills in these models and incorporate them into their pedagogical practices. The project searched to highlight the need for quality pedagogical training in a new, technologically digital, era: in this, education has less to do with reproducing information passively and has more to do with the development of creativity, critical thinking, problem- solving and decision-making.Erasmus Plus "Gaming in Action – engaging adult learners with games and gamification" Project number: 2018-1-TR01-KA204-05931

Virtual interactive innovations applied for digital urban transformations : mixed approach

© 2018 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY licenseThe cities in which we live are changing rapidly, presenting the scenery to debate future visions of transformative designs and its impact on the city. In order to take advantage of the changes and opportunities offered by the inclusion of digital technologies, an accommodation of the digital transformation into the visualization of Urbanism is required. It is a challenge for organizations and society to question the status quo and experiment often. The discussion about the increasing integration of digital technologies in urban spaces involves a number of questions relating to the complex processes of transformation that impact cities, like economic, social, political, and environmental. The main goal of the paper is to present the use of Digital Transformation in processes of urban design through technological innovation in which the diverse forms of active citizenship operate from below as agents of innovation, inclusion and social development. The results showed that it is possible to empower Digital Transformation –as for example the use Augmented and Virtual Reality (AR/VR) systems in collaborative urban design– to improve public motivation, implication, and satisfaction in urban decision-making processes.Peer ReviewedPostprint (published version

Innovation in urban design education

How can we incorporate into our educational system the emerging technologies, new processes and new habits of society to improve public motivation, implication, and satisfaction in urban decision-making processes? New technology implementations in the teaching field largely extend to all types of levels and educational frameworks. However, these innovations require approval validation and evaluation by the final users. The premise is that the technology used in Virtual Reality (VR), is familiar to the Architecture students, which preview to work on specific parameters and outcome, and on the contrary, citizens with a profile not related to the field get more excited and perceive the technology as a more efficient tool. To prove this, we use a quantitative method to evaluate the satisfaction of citizens related and not related to the Architecture field. Using an interactive visualization process in a real environment, we obtained adequate feedback that allowed the optimization of this type of experiment in future iterations. The results show that the degree of satisfaction when using an advanced visualization technology was satisfactory with a differentiation between user’s profilesPeer ReviewedPreprin