491 research outputs found

    Computing Graduate Employability: Sharing Practice

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    Computing is one of the largest subject areas in Higher Education, and is taught in almost every institution, graduating around 9,000 students each year. However Computing graduates are recorded as having the highest unemployment rates for all subjects (11% for Computing compared with an overall rate of 7% for graduates of all subjects). This new report, jointly published by the Council of Professors and Heads of Computing (CPHC) and Higher Education Academy (HEA) highlights the depth, complexity and richness of employability practices in the sector, and aims to share those practices more widely. The report places practice in a comparative context so that departments may learn what works from each other. It draws on research gathered from over fifty Higher Education institutions in a series of workshops, focus groups and interviews. Throughout, participants’ voices are given priority, with the report structured around the common employability challenges faced by academics. Within that structure, clusters of similar practice (those which appear in several institutions) are presented, together with a series of showcases providing rich detail of specific interventions. Challenges discussed within the report’s three themes of ‘Addressing Employability’, ‘Curriculum Issues’ and ‘Placements’ include ‘the employability agenda’, ‘student engagement’, ‘curriculum design’, ‘reaching “tipping point”’ and ‘finding alternatives to the “sandwich year”’ and are balanced throughout with a ‘View from Employers’. Clusters identify good practice from ‘hackathons’, competitions, mentoring, ‘compulsion’, an employer-led curriculum, industry-focused projects and placement preparation, application, monitoring, return, assessment and alternatives. Showcases highlight practice in ‘auditing employability’, ‘dedicated placement support’, ‘multiplicity of opportunities’, ‘short placement modules’, ‘think future’, ‘summer internships’ and ‘transition week’ from the universities of York, Kent, London South Bank, West of Scotland, Edinburgh Napier, Southampton and Brunel London, amongst other

    Quantum games and interactive tools for quantum technologies outreach and education

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    We provide an extensive overview of a wide range of quantum games and interactive tools that have been employed by the quantum community in recent years. We present selected tools as described by their developers, including "Hello Quantum, Hello Qiskit, Particle in a Box, Psi and Delta, QPlayLearn, Virtual Lab by Quantum Flytrap, Quantum Odyssey, ScienceAtHome, and the Virtual Quantum Optics Laboratory." In addition, we present events for quantum game development: hackathons, game jams, and semester projects. Furthermore, we discuss the Quantum Technologies Education for Everyone (QUTE4E) pilot project, which illustrates an effective integration of these interactive tools with quantum outreach and education activities. Finally, we aim at providing guidelines for incorporating quantum games and interactive tools in pedagogic materials to make quantum technologies more accessible for a wider population. (C) The Authors. Published by SPIE under a Creative Commons Attribution 4.0 International License.Peer reviewe

    Framework for skill development through co-curricular and extracurricular involvement

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    Thesis (S.M. in Technology and Policy)--Massachusetts Institute of Technology, Engineering Systems Division, 2013.Cataloged from PDF version of thesis.Includes bibliographical references (p. 103-113).As the global marketplace becomes increasingly interconnected and multidisciplinary, graduates of undergraduate engineering programs face new challenges in communication, creative thinking, and teamwork as they enter the international workforce. To address this shift, over the last two decades American universities have adjusted educational objectives of undergraduate engineering programs to include new themes in international awareness, communication, teamwork, and other professional skills. Motivated by student leadership development programs at the new Singapore University of Technology and Design (SUTD), this thesis examines how student engagement in co-curricular and extracurricular activities promotes professional skill development in engineering education at the undergraduate level. Using a two-stage analysis of MIT student organizations and current literature in student involvement, this work presents a two-dimensional framework of the leadership and professional skills developed through participation in 22 categories of co-curricular and extracurricular involvement. The relevance of these skills to engineering education and practice is validated through interviews with managers and supervisors of entry-level engineers. In addition, these skills are compared with key educational outcomes specified by ABET, Inc. (previously known as the Accreditation Board for Engineering and Technology), further validating the relevance of the two-dimensional framework of skill development to engineering practice. Lastly, this thesis provides an analysis of strategies to promote student involvement and leadership development in engineering undergraduates.by Dara R. Fisher.S.M.in Technology and Polic

    DATAM: Digital Approaches to Teaching the Ancient Mediterranean

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    DATAM: Digital Approaches to Teaching the Ancient Mediterranean provides a series of new critical studies that explore digital practices for teaching the Ancient Mediterranean world at a wide range of institutions and levels. These practical examples demonstrate how gaming, coding, immersive video, and 3D imaging can bridge the disciplinary and digital divide between the Ancient world and contemporary technology, information literacy, and student engagement. While the articles focus on Classics, Ancient History, and Mediterranean archaeology, the issues and approaches considered throughout this book are relevant for anyone who thinks critically and practically about the use of digital technology in the college level classroom. DATAM features contributions from Sebastian Heath, Lisl Walsh, David Ratzan, Patrick Burns, Sandra Blakely, Eric Poehler, William Caraher, Marie-Claire Beaulieu and Anthony Bucci as well as a critical introduction by Shawn Graham and preface by Society of Classical Studies Executive Director Helen Cullyer.https://commons.und.edu/press-books/1015/thumbnail.jp

    International Student Projects and Sustainable Development Goals: A Perfect Match

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    Engineering Education is currently going through a transformation, driven by the need for educating better engineers and more engineers, and largely build on elements such as problem orientation, interdisciplinarity, internationalization, digitalization and sustainability. In 2020, the Erasmus+ Strategic Partnership EPIC (Improving Employability Through Internationalization and Collaboration) has combined all these elements, and demonstrated how international and interdisciplinary student projects, focusing on solving real-world problems related to sustainability, can be carried out in a setting where students mainly work together online. A total of 56 students from 7 EU and 2 international universities, with backgrounds ranging from Electrical Engineering and Mechanical Engineering to Textile Technologies and Business Informatics were working on 9 different projects throughout the spring of 2020. The paper presents the experiences from the setup and discusses some general recommendations for setting up this type of projects. The paper goes through the stages of defining and carrying out the projects: Defining the overall framework, identifying problems/project proposals in collaboration with relevant stakeholders, identifying the students and assigning students to projects, preparing students and supervisors, organising the physical kick-off seminar, and supporting the online collaboration. We also discuss evaluation and hand-over of the solutions, to ensure the projects have a lasting impact. We conclude that the sustainable development goals provide a highly motivating framework for interdisciplinary, international student projects based on problem-based learning. We also note that a careful design and execution of the all the preparatory stages are crucial in order for the projects to succeed, and discuss specific recommendations for these.</p

    PBL Student Projects and Sustainable Development Goals: A Case Study

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    Working with the Sustainable Development Goals can be a highly motivating factor in Problem Based Learning, especially if the solutions produced can be used afterwards and have an actual impact on people and communities. This paper describes how three engineering students from Aalborg University, Denmark, collaborated with the South African Organisation Green Shoots on bringing IT-supported Math education out to some of the most disadvantaged learners from townships and rural areas of the Western Cape. The project provided the Danish students with a unique learning experience and have a lasting impact on the communities involved. While the content of the project focused on bringing IT-supported Math education to learners in previously disadvantaged areas around the Western Cape, the project also provided valuable insight into how such students’ projects, where the outcomes benefit people and communities suffering from socio-economic challenges e.g. poverty, can be carried out. In addition to demonstrate that such projects are actually possible, we studied three critical aspects: How to ensure a good fit between learning objectives and project outcome, how to ensure that the project creates value for the partner organisation and communities, and how to ensure that the projects can be conducted without overloading the university supervisors. We believe that student projects focusing on SDGs have a big potential in terms of providing highly motivating student projects yet at the same time contribute to a better world through solutions that are being used even afterwards. However, our study was just a single case with one group of three students. We hope it will serve as inspiration for larger studies, where more quantitative data could be gathered in terms of how to establish a good framework around such projects, and in order to demonstrate the value for students and societies

    Makers at School, Educational Robotics and Innovative Learning Environments

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    This open access book contains observations, outlines, and analyses of educational robotics methodologies and activities, and developments in the field of educational robotics emerging from the findings presented at FabLearn Italy 2019, the international conference that brought together researchers, teachers, educators and practitioners to discuss the principles of Making and educational robotics in formal, non-formal and informal education. The editors’ analysis of these extended versions of papers presented at FabLearn Italy 2019 highlight the latest findings on learning models based on Making and educational robotics. The authors investigate how innovative educational tools and methodologies can support a novel, more effective and more inclusive learner-centered approach to education. The following key topics are the focus of discussion: Makerspaces and Fab Labs in schools, a maker approach to teaching and learning; laboratory teaching and the maker approach, models, methods and instruments; curricular and non-curricular robotics in formal, non-formal and informal education; social and assistive robotics in education; the effect of innovative spaces and learning environments on the innovation of teaching, good practices and pilot projects

    Learning Spaces

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    Edited by Diana G. Oblinger. Includes a chapter by former College at Brockport Faculty member Joan K. Lippincott: Linking the Information Commons to learning. Space, whether physical or virtual, can have a significant impact on learning. Learning Spaces focuses on how learner expectations influence such spaces, the principles and activities that facilitate learning, and the role of technology from the perspective of those who create learning environments: faculty, learning technologists, librarians, and administrators. Information technology has brought unique capabilities to learning spaces, whether stimulating greater interaction through the use of collaborative tools, videoconferencing with international experts, or opening virtual worlds for exploration. This e-book represents an ongoing exploration as we bring together space, technology, and pedagogy to ensure learner success.https://digitalcommons.brockport.edu/bookshelf/1077/thumbnail.jp
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