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Smart Learning with Educational Robotics : Using Robots to Scaffold Learning Outcomes /

Contributor(s): Daniela, Linda, 1967- [editor.].
Publisher: Cham, Switzerland : Springer, [2019]Description: xxviii, 346 pages : ill. ; 26 cm.Content type: text Media type: unmediated Carrier type: volumeISBN: 9783030199142; 9783030199159.Subject(s): Artificial intelligence -- Educational applications | RoboticsDDC classification: 371.334
Contents:
Intro; Foreword; Foreword; Preface; References; Contents; About the Authors; Chapter 1: Beyond Coding: Back to the Future with Education Robots; Introduction; Jeannette Wing's Revolution; The Economic Need for More Coders; Computational Thinking; Coding in the Future; The Wealth of Information; What Education Do We Need?; Should We Teach Coding and Computational Thinking?; Seymour Papert; Logo; Papert and Learning; The Child Scientist; Children and Thinking; Constructivism and Constructionism; Papert's Paradigm; Difference between Papert and Wing; Can Papert's Ideas Work?; Education Robots
Papert the Father of Education RobotsOther Early Robots; EduRobot Taxonomy; Educational Robotic Application (ERA) Principle; Social Robots; Breaking Papert's Paradigm; Fast Forward to the Future; Machine Learning and Human Robot Interaction; Education, Policy, Schools and Teachers; Robots and the Curriculum; Making Effective Use of Robots in Schools; Opportunities to Use Robots; Everyday Lessons; Prior Knowledge; Classroom Strategies; Events; Cultural Events; Robots Versus Computers; Assessment; Conclusion; References
Chapter 2: Educational Robotics for Reducing Early School Leaving from the Perspective of Sustainable EducationIntroduction; Didactical Model of Activities; Methodology; Results; Conclusions; References; Chapter 3: Towards a Definition of Educational Robotics: A Classification of Tools, Experiences and Assessments; Section 1: A Classification of Experiences Carried Out in Education Using Robots; Learning Environment: Formal or Non-formal Projects; School Curriculum Impact: Curricular or Non-curricular Projects; Integration of Robotic Tools
Evaluation: Qualitative, Quantitative or Mixed MethodsSection 2: A Classification of ER Tools; Section 3: A Classification of the Assessment of ER Activities; First Steps Towards Educational Data Mining with Lego Mindstorms EV3; Discussions and Conclusion; Appendix; References; Chapter 4: Introducing Maker Movement in Educational Robotics: Beyond Prefabricated Robots and "Black Boxes"; Introduction; Connecting Robotics Education with the Maker Movement; The eCraft2Learn Project in Action; The Context; The Learning Methodology; Project-Based Learning; Teamwork
Ice-Breaking and Setting the Rules in the Informal Pilot SiteImplementing the eCraft2Learn Methodology; Bringing Ideas in the Plenary Sessions; Teamwork, Role Allocation and Challenges; A Closer Look into the Aspect of "Sharing"; The Role of the Teachers; The Technological Solution; The Hardware Components; The Software Components; The Unified User Interface (UUI); Indicative Projects Realised During the Pilots; The Lighthouse Project; The Sunflower Project; Evaluation: Did the Methodology Worked in Practice?; Lessons Learnt from Pedagogical Perspective; Conclusions and Future Plans
Summary: This book will offer ideas on how robots can be used as teachers' assistants to scaffold learning outcomes, where the robot is a learning agent in self-directed learning who can contribute to the development of key competences for today's world through targeted learning - such as engineering thinking, math, physics, computational thinking, etc. starting from pre-school and continuing to a higher education level.
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Holdings
Item type Current library Call number Status Date due Barcode Item holds
Standard Loan Standard Loan ATU Sligo Yeats Library Main Lending Collection 371.334 DAN (Browse shelf(Opens below)) Lost Checked out 14/12/2022 0084445
Total holds: 0

Includes bibliographical references and index.

Intro; Foreword; Foreword; Preface; References; Contents; About the Authors; Chapter 1: Beyond Coding: Back to the Future with Education Robots; Introduction; Jeannette Wing's Revolution; The Economic Need for More Coders; Computational Thinking; Coding in the Future; The Wealth of Information; What Education Do We Need?; Should We Teach Coding and Computational Thinking?; Seymour Papert; Logo; Papert and Learning; The Child Scientist; Children and Thinking; Constructivism and Constructionism; Papert's Paradigm; Difference between Papert and Wing; Can Papert's Ideas Work?; Education Robots

Papert the Father of Education RobotsOther Early Robots; EduRobot Taxonomy; Educational Robotic Application (ERA) Principle; Social Robots; Breaking Papert's Paradigm; Fast Forward to the Future; Machine Learning and Human Robot Interaction; Education, Policy, Schools and Teachers; Robots and the Curriculum; Making Effective Use of Robots in Schools; Opportunities to Use Robots; Everyday Lessons; Prior Knowledge; Classroom Strategies; Events; Cultural Events; Robots Versus Computers; Assessment; Conclusion; References

Chapter 2: Educational Robotics for Reducing Early School Leaving from the Perspective of Sustainable EducationIntroduction; Didactical Model of Activities; Methodology; Results; Conclusions; References; Chapter 3: Towards a Definition of Educational Robotics: A Classification of Tools, Experiences and Assessments; Section 1: A Classification of Experiences Carried Out in Education Using Robots; Learning Environment: Formal or Non-formal Projects; School Curriculum Impact: Curricular or Non-curricular Projects; Integration of Robotic Tools

Evaluation: Qualitative, Quantitative or Mixed MethodsSection 2: A Classification of ER Tools; Section 3: A Classification of the Assessment of ER Activities; First Steps Towards Educational Data Mining with Lego Mindstorms EV3; Discussions and Conclusion; Appendix; References; Chapter 4: Introducing Maker Movement in Educational Robotics: Beyond Prefabricated Robots and "Black Boxes"; Introduction; Connecting Robotics Education with the Maker Movement; The eCraft2Learn Project in Action; The Context; The Learning Methodology; Project-Based Learning; Teamwork

Ice-Breaking and Setting the Rules in the Informal Pilot SiteImplementing the eCraft2Learn Methodology; Bringing Ideas in the Plenary Sessions; Teamwork, Role Allocation and Challenges; A Closer Look into the Aspect of "Sharing"; The Role of the Teachers; The Technological Solution; The Hardware Components; The Software Components; The Unified User Interface (UUI); Indicative Projects Realised During the Pilots; The Lighthouse Project; The Sunflower Project; Evaluation: Did the Methodology Worked in Practice?; Lessons Learnt from Pedagogical Perspective; Conclusions and Future Plans

This book will offer ideas on how robots can be used as teachers' assistants to scaffold learning outcomes, where the robot is a learning agent in self-directed learning who can contribute to the development of key competences for today's world through targeted learning - such as engineering thinking, math, physics, computational thinking, etc. starting from pre-school and continuing to a higher education level.

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