Attractive Educational Robotics Motivates Younger Students to Learn Programming and Computational Thinking

2020 ◽  
Author(s):  
Ilkka Jormanainen ◽  
Markku Tukiainen
Keyword(s):  
Computational Thinking ◽  
Educational Robotics

Educational Robotics for Creating Effective Computer Science Learning for All

2021 ◽  
pp. 44-69
Author(s):  
Amy Eguchi
Keyword(s):  
Computer Science ◽  
Effective Teachers ◽  
Computational Thinking ◽  
Thinking Skills ◽  
People Of Color ◽  
Underrepresented Minorities ◽  
Educational Robotics ◽  
Learning Tool ◽  
Real Picture ◽  
K 12

President Obama's initiative, “computer science for all,” has been a rallying slogan for promoting computer science in K-12 education. Although the participation of people of color in computer science (CS) has increased in the past several years, it is still drastically low and does not reflect the real picture of our society. This chapter explores how educational robotics as a learning tool can inspire underrepresented minorities including females and students of color to become interested in CS. Supported by Papert's constructionism theory, educational robotics effectively facilitates students' learning of various concepts in CS and STEM. Educational robotics is a learning tool which inspires students' interest in learning. It provides a learning environment that promotes students' learning of various CS concepts and computational thinking skills. Although robots naturally spark students' interests, to make it most effective, teachers are required effortfully to create learning opportunities that are authentic and meaningful for individual students.

Educational Robotics for Creating Effective Computer Science Learning for All

2022 ◽  
pp. 756-781
Author(s):  
Amy Eguchi
Keyword(s):  
Computer Science ◽  
Effective Teachers ◽  
Computational Thinking ◽  
Thinking Skills ◽  
People Of Color ◽  
Underrepresented Minorities ◽  
Educational Robotics ◽  
Learning Tool ◽  
Real Picture ◽  
K 12

President Obama's initiative, “computer science for all,” has been a rallying slogan for promoting computer science in K-12 education. Although the participation of people of color in computer science (CS) has increased in the past several years, it is still drastically low and does not reflect the real picture of our society. This chapter explores how educational robotics as a learning tool can inspire underrepresented minorities including females and students of color to become interested in CS. Supported by Papert's constructionism theory, educational robotics effectively facilitates students' learning of various concepts in CS and STEM. Educational robotics is a learning tool which inspires students' interest in learning. It provides a learning environment that promotes students' learning of various CS concepts and computational thinking skills. Although robots naturally spark students' interests, to make it most effective, teachers are required effortfully to create learning opportunities that are authentic and meaningful for individual students.

Enhancing High-School Students' Computational Thinking with Educational Robotics Learning

2018 ◽  
Author(s):  
Sasithorn Chookaew ◽  
Suppachai Howimanporn ◽  
Pornjit Pratumsuwan ◽  
Santi Hutamarn ◽  
Warin Sootkaneung ◽  
...  
Keyword(s):  
High School ◽  
High School Students ◽  
Computational Thinking ◽  
Educational Robotics ◽  
School Students

scholarly journals Teacher Coaching Program – the Idea Linea B3 Project

2019 ◽  
Author(s):  
Carole Salis ◽  
Davide Zedda ◽  
Giuliana Brunetti ◽  
Marie Florence Wilson
Keyword(s):  
Teaching Practice ◽  
Natural Extension ◽  
Computational Thinking ◽  
Educational Material ◽  
Educational Robotics ◽  
School Teachers ◽  
Project Organization ◽  
Training Activities ◽  
Teacher Coaching ◽  
Organizational Procedures

IDEA Line B3 is a two-year coaching program for teachers who wish to be updated on how to enhance their capacity to effectively implement specific technologies in their teaching practice. The project is a natural extension of a previous three-year project aiming at fighting students’ disengagement through the implementation of extracurricular technological activities. Activities resulted attractive to students and participating school teachers expressed the need to be coached and supported in using critically technologies in educational contexts, with special attention to their implementation to didactics. Technology is not only useful in delivering lessons, but it also is useful for course preparation. In this paper we shall illustrate the project organization, its objectives, the target group, the training activities. We shall also describe the platform developed to store and share educational material and scenarios produced during the training period, the communication activities carried out, the methodology adopted, the organizational procedures as well as the monitoring activities. We shall illustrate the 3 themes object of this year’s program and their related technologies: School Without Walls (with the use of Augmented Reality – AR); Computational Thinking (with coding, educational robotics, and Internet of Things – IoT); Interdisciplinarity (with Artificial Intelligence – AI).

scholarly journals Robotics to develop computational thinking in early Childhood Education

Comunicar ◽  
2019 ◽  
Vol 27 (59) ◽  
pp. 63-72 ◽  
Author(s):  
Ana García-Valcárcel-Muñoz-Repiso ◽  
Yen-Air Caballero-González
Keyword(s):  
Computational Thinking ◽  
Thinking Skills ◽  
Kindergarten Students ◽  
Three Dimensions ◽  
Educational Robotics ◽  
Control Groups ◽  
Post Test ◽  
Quasi Experimental ◽  
Programming Skills ◽  
And Control

The development of programming skills is currently promoting from an early school age, trying to get children to take an active and creative role in the use of technologies. The objective of this article is to verify the repercussion of educational robotics activities on kindergarten students in the acquisition of computational thinking and programming skills. The research design is quasi-experimental, with pre-test and post-test measures, using experimental and control groups. The sample consists of 131 students from the second cycle of early education (between 3 and 6 years old), all from the same Spanish school. Computational thinking is measured through three dimensions: sequences (algorithms), action-instruction correspondence and debugging. The intervention sessions, as well as the structure of the challenges that were used in the pre- and post-test evaluations, were designed based on the reference program of robotics studies called “TangibleK”. The intervention, carried out doing learning activities using educational robotics resources, presents positive results in relation to the computational thinking skills achieved. The differences between the pre-test and the post-test in the experimental and control groups are statistically significant, in that children engaged in robotics program achieves a greater advance in the three dimensions of computational competence through this method. Actualmente se promueve el desarrollo de habilidades de programación desde una edad escolar temprana, tratando de que los niños adquieran un rol activo y creativo en el uso de las tecnologías. El objetivo de este trabajo es comprobar la repercusión del desarrollo de actividades de robótica educativa en la adquisición de habilidades de pensamiento computacional y programación en escolares de educación infantil. El diseño de la investigación es de tipo cuasi-experimental, con medidas pretest y postest, utilizando grupo experimental y control. La muestra la conforman 131 estudiantes del segundo ciclo de educación infantil (entre 3 y 6 años de edad) de un centro educativo español. El pensamiento computacional se mide a través de tres dimensiones: secuencias (algoritmos), correspondencia acción-instrucción y depuración. Las sesiones de intervención, así como la estructura de los retos que se utilizaron en las evaluaciones pre y postest fueron diseñadas tomando como base el programa de estudios en robótica denominado «TangibleK». La intervención, centrada en actividades de aprendizaje mediante recursos de robótica educativa, presenta resultados positivos en relación a las habilidades de pensamiento computacional logradas. Las diferencias encontradas entre el pre y postest en el grupo experimental son estadísticamente significativas y superiores a las presentadas en el grupo control, de modo que se concluye que los niños que realizan el programa de robótica consiguen un mayor avance en las tres dimensiones de la competencia computacional.

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