ABSTRACT
Robotics offers a playful and tangible way for young children to engage with technology and engineering concepts during their foundational early childhood years. This paper describes the development of KIBO, a newly created robotics kit for children ages 4-7 developed at Tufts University through funding from the National Science Foundation. Designed explicitly for very young children, the KIBO kit has gone through several design iterations based on feedback from teachers and children over the past three years. The newest version of KIBO allows young children to become engineers by constructing robots using motors, sensors, and craft materials. Children also become programmers by exploring sequences, loops, and variables. In line with screen-time recommendations for young children, KIBO is programmed to move using tangible programming blocks- no computer, tablet, or screen required.
- American Academy of Pediatrics, (2003). Prevention of pediatric overweight and obesity: policy statement. Pediatrics, 112: 424--430.Google ScholarCross Ref
- Barlow SE, the Expert Committee (2007). Expert committee recommendations regarding the prevention, assessment, and treatment of child and adolescent overweight and obesity: Summary report. Pediatrics, 120: S164-S192.Google ScholarCross Ref
- Barron, B., Cayton-Hodges, G., Bofferding, L., Copple, C., Darling-Hammond, L., & Levine, M. (2011). Take a giant step: A blueprint for teaching children in a digital age. New York: The Joan Ganz Cooney Center at Sesame Workshop.Google Scholar
- Bers, M. (2008). Blocks to Robots: Learning with Technology in the Early Childhood Classroom. Teachers College Press, NY, NY.Google Scholar
- Bers, M. U., Seddighin, S., & Sullivan, A. (2013). Ready for robotics: Bringing together the T and E of STEM in early childhood teacher education. Journal of Technology and Teacher Education, 21(3), 355--377.Google Scholar
- Bers, M. U. (2012). Designing digital experiences for positive youth development: From playpen to playground. Cary, NC: Oxford.Google ScholarCross Ref
- Bers, M. U. (2014). Tangible kindergarten: Learning how to program robots in early childhood. In Sneider, C. I. (Ed.), The Go-To Guide for Engineering Curricula PreK-5: Choosing and using the best instructional materials for your students (pp. 133--145). Thousand Oaks, CA: Corwin.Google Scholar
- Brosterman, N. (1997). Inventing kindergarten. New York: H. N. Abrams.Google Scholar
- Clements, D. H. (1999). Young children and technology. In Dialogue on Early Childhood Science, Mathematics, and Technology Education. Washington, DC: American Association for the Advancement of Science.Google Scholar
- Elkin, M., Sullivan, A., & Bers, M. U. (2014). Implementing a robotics curriculum in an early childhood Montessori classroom. Journal of Information Technology Education: Innovations in Practice, 13, 153--169.Google ScholarCross Ref
- Manches, A., & Price, S. (2011). Designing learning representations around physical manipulation: Hands and objects. In 10th international conference on interaction design and children, Ann Arbor, MI, NY: ACM Press Google ScholarDigital Library
- NAEYC & Fred Rogers Center for Early Learning and Children's Media. (2012). Technology and interactive media as tools in early childhood programs serving children from birth through age 8." Joint position statement. Washington, DC: NAEYC; Latrobe, PA: Fred Rogers Center for Early Learning at Saint Vincent College. Retrieved from www.naeyc.org/files/naeyc/file/positions/PS_technology_WEB2.pdfGoogle Scholar
- Resnick, M., Martin, F., Berg, R., Borovoy, R., Colella, V., Kramer, K., and Silverman, B. (1998). Digital Manipulatives. Proceedings of the CHI '98 conference, Los Angeles, April 1998. Google ScholarDigital Library
- U. S. Department of Education, Office of Educational Technology (2010). Transforming American Education: Learning Powered by Technology. Washington, D. C., Retrieved from http://www.ed.gov/technology/netp-2010Google Scholar
Index Terms
- KIBO robot demo: engaging young children in programming and engineering
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