Fostering the reduction of assortative mixing or homophily into the class

Human societies from the outset have been associated according to race, beliefs, religion, social level, and the like. These behaviors continue even today in the classroom at primary, middle, and superior levels. However, the growth of ICT offers educational researchers new ways to explore methods of team formation that have been proven to be efficient in the field of serious games through the use of computer networks. The selection process of team members in serious games through the use of computer networks is carried out according to their performance in the area of the game without distinction of social variables. The use of serious games in education has been discussed in multiple research studies which state that its application in teaching and learning processes are changing the way of teaching. This article presents an exploratory analysis of the team formation process based on collaboration through the use of ICT tools of collective intelligence called TBT (The best team). The process and its ICT tool combine the paradigms of creativity in swarming, collective intelligence, serious games, and social computing in order to capture the participants’ emotions and evaluate contributions. Based on the results, we consider that the use of new forms of teaching and learning based on the emerging paradigms is necessary. Therefore, TBT is a tool that could become an effective way to encourage the formation of work groups by evaluating objective variable of performance of its members in collaborative works.Postprint (published version

COEDU-IN Project: an inclusive co-educational project for teaching computational thinking and digital skills at early ages

Learning to program is the new literacy of the 21st century. Computational thinking, closely related to programming, requires thinking and solving problems with different levels of abstraction and is independent of hardware devices. The early childhood education stage provides teachers with the opportunity to lay the foundations for a comprehensive quality education using innovative tools and technologies. Educational robotics in early childhood education becomes a tool that facilitates the acquisition of knowledge to children, playfully, based on the principles of interactivity, social interrelationships, collaborative work, creativity, constructivist and constructionist learning, and a student-centered didactic approach, allowing in turn that student can acquire digital competencies and develop logical and computational thinking in an underlying way. This project explores the current state of teaching and learning computational thinking and programming in early childhood education in an inclusive manner. Moreover, the lack of diversity and inequality is particularly latent in science, Technology, Engineering, and Mathematics (STEM) fields. Therefore, this work considers this problem and presents an inclusive coeducation approach to this new literacy, eliminating gender stereotypes and extending them to people with Down syndrome and hospitalized minors

Orations relating to the conferment of Doctor of Science honoris causa to Professor William Bannister

We are gathered here today to recognise a distinguished international scientist and alumnus of this University and it is indeed my honour and privilege to present Professor William Bannister for the award of the degree of Doctor of Science honoris causa. His career spans almost six decades and during this time he has helped shape numerous individual careers, whole Departments and our understanding of several branches of Physiology.peer-reviewe

The Graaskamp Legacy

James A. Graaskamp\u27s perspective on classroom education and his alternative research paradigm pioneered or greatly enhanced several real estate principles that are more relevant today than during his life. These principles are summarized and presented in 5 sections: A Different Brand of Research, The Development Feasibility, How Appraisers Value, Who\u27s Watching the Chicken Coop, and Teaching an Ethical Vision

Computational thinking and robotics in education

After the computational thinking sessions in the previous 2016-2018 editions of TEEM Conference, the fourth edition of this track has been organized in the current 2019 edition. Computational thinking is still a very significant topic, especially, but not only, in pre-university education. In this edition, the robotic has a special role in the track, with a strength relationship with the STEM and STEAM education of children at the pre-university levels, seeding the future of our society

The Tyranny of Transparency: Auto-immunity in The Teaching Machine

This article proposes that the prime ideals of the university - those of truth, knowledge, justice, and emancipation - are also those that currently produce unjust practices "outside" and "within". Using the work of Jacques Derrida and Paul Virilio, the article argues that the central problem of the university today consists not so much of a neo-liberalisation, but of the speeding-up of these ideals through their enmeshment with techniques of calculation, vision, and prediction. The current university therefore suffers from what it with Derrida identifies as an "auto-immune disease," in which the acceleration of its foundational aspirations have led to a near-total subjugation of all and everything to an oppressive quest for transparency. However, the article proposes via Virilio that this totalising transparency paradoxically also produces more blindness, accidents, and unknowability. It hopes to illustrate this with some examples in the teaching scene as well by working through some of its own conceptual tensions. The other logic of the university today, the article finally proposes, consists of a "dark" or stealth functionality, opening up the promise of a radically different future and unanticipated resistance despite itself

Autism:Implications for Inclusive Education with respect to Software Engineering

Contains fulltext : 219448.pdf (preprint version ) (Open Access)CSERC '1

Computer Science Framework to Teach Community-Based Environmental Literacy and Data Literacy to Diverse Students

This study introduces an integrated curriculum designed to empower underrepresented students by combining environmental literacy, data literacy, and computer science. The framework promotes environmental awareness, data literacy, and civic engagement using a culturally sustaining approach. This integrated curriculum is embedded with resources to support language development, technology skills, and coding skills to accommodate the diverse needs of students. To evaluate the effectiveness of this curriculum, we conducted a pilot study in a 5th-grade special education classroom with multilingual Latinx students. During the pilot, students utilized Scratch, a block-based coding language, to create interactive projects that showcased locally collected data, which they used to communicate environmental challenges and propose solutions to community leaders. This approach allowed students to engage with environmental literacy at a deeper level, harnessing their creativity and community knowledge in the digital learning environment. Moreover, this curriculum equipped students with the skills to critically analyze political and socio-cultural factors impacting environmental sustainability. Students not only gained knowledge within the classroom but also applied their learning to address real environmental issues within their community. The results of the pilot study underscore the efficacy of this integrated approach.Comment: 4 figures, 1 tabl

Robots for inclusive classrooms: a scoping review

Robot-based activities have been proven to be a valuable tool for children with learning and developmental disabilities. However, their feasibility in general educational environments needs further exploration. This scoping review provides a critical examination of robot-based learning experiences involving children with disabilities, implemented either in mainstream schools or in specialized centers in order to gain insight into their potential to support inclusion. For this purpose, a search was conducted in the multidisciplinary Scopus and WoS databases, completed with Dialnet database. Based on PRISMA guidelines for literature reviews, we limited the systematic analysis to 33 papers published after 2009 that contain information on the instructional design and details of how the activities were implemented. On the other hand, studies reporting interventions with robots for clinical purposes were excluded as well as papers focused exclusively on technical developments. Content analysis shows that most experiences lead to improvements in terms of educational goals and/or stakeholders’ satisfaction. However, the analysis also reported issues that may hinder the adoption of these practices in general classrooms and integrated education services. The reported difficulties include the lack of stability and autonomy of the robots used, the need for aids and adaptations to enable children with sensory and physical impairments to interact easily with the robots, and the requirement of technical support with system’s setup, implementation and maintenance. We conclude that robots and robotics are a powerful tool to address the needs of diverse learners who are included in mainstream classrooms. This review aims at presenting evidences of good practices and recommendations for successful implementation.Open Access funding provided thanks to the CRUE-CSIC agreement with Springer Nature. The authors did not receive support from any organization for the submitted work.Peer ReviewedPostprint (published version

Sex differences in mathematical performance : what do we know about them?

It is generally accepted that mathematics is one academic field where male superiority of achievement is well-established. Far fewer women than men go into careers as mathematicians and those who do, generally do not reach equal employment status with men. Such facts seem to be the culmination of sex differences in mathematical performance which begin to appear around the age of 12 to 15. Up till then, the mathematical performance of boys and girls seems to be fairly equal at any of the three cognitive levels of computation, knowledge of concepts and problem-solving ability on which mathematical achievement is most common:y gauged. The change in performance at the secondary level of schooling tends to be in favour of males who are seen to perform better than females particularly on tasks involving visual spatialisation ability and mathematical reasoning. The girls' discontinuity of performance, even when they have had an identical learning background, has prompted researchers to investigate possible explanations for a phenomenon which Walden and Walkerdine (1982) stress should not be confused with an "overall failure."peer-reviewe