Abstract
Robotics Competitions as FIRST LEGO® League (FLL) Competition are gaining more and more popularity, however, what are the participants learning? The present study investigates participants’ perceptions regarding their learning with FLL Competition. In particular, it explores participants’ perceptions about their learning about the world, learning to solve problems, learning to engage, learning to apply knowledge, learning to communicate, learning to apply the technology cycle, studies participants’ perceptions on the competition activities, but, more importantly, it explores gender differences in students’ perceptions about their learning in the competition. A quantitative methodology is used, a questionnaire collecting data on participants’ perceptions was first validated by a team of experts and then completed by 84 participants of the Finals of FLL Competition 2018 in Greece. Results show that participants’ perceptions on their learning are very positive: (a) they report that they enjoy taking part in the competition as they are engaged in activities of their preference, (b) participants consider the competition as a great opportunity for learning about real word problems and for the acquisition of skills in STEM areas of studies, (c) participants view that they acquire social, collaborative and communication skills and (d) regarding gender, females tend to be more engaged, enthusiastic, creative, eager to experiment and more likely to adopt collaborative strategies than males.
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Notes
- 1.
The online questionnaire in Greek is available at https://goo.gl/forms/AvU6nAA1fBhhSE3g1.
References
Shapiro, H., Østergård, S.F., Hougard, K.F.: Does the EU need more STEM graduates? Publications Office of the European Union, Luxembourg (2015)
Caprile, M., Palmén, R., Sanzé, P., Dente, G.: Encouraging STEM studies labour market situation and comparison of practices targeted at young people in different member states. Publications Office of the European Union, Luxembourg (2015)
Johnson, J.: Children, robotics, and education. Artif. Life Robot. 7(1–2), 16–21 (2003)
Kaloti-Hallak, F., Armoni, M., Ben-Ari, M.: Students’ attitudes and motivation during robotics activities. In: Workshop in Primary and Secondary Computing Education, pp. 102–110 (2015)
Eguchi, A.: RoboCupJunior for promoting STEM education, 21st century skills, and technological advancement through robotics competition. Rob. Auton. Syst. 75, 692–699 (2016)
Ribeiro, C.R., Coutinho, C.P., Costa, M.F.M.: Robotics in child storytelling. In: Science for All, Quest for Excellence. 6th International Proceedings on Hands-on Science, Ahmedabad, vol. 9, pp. 198–205 (2009)
Benitti, F.B.V.: Exploring the educational potential of robotics in schools: a systematic review. Comput. Educ. 58(3), 978–988 (2012)
Eguchi, A.: Educational robotics for promoting 21st century skills. J. Autom. Mob. Robot. Intell. Syst. 8(1), 5–11 (2014)
Alimisis, D.: Educational robotics: open questions and new challenges. Themes Sci. Tecnol. Educ. 6(1), 63–71 (2013)
Petre, M., Price, B.: Using robotics to motivate ‘back door’ learning. Educ. Inf. Technol. 9(2), 147–158 (2004)
Hendricks, C.C., Alemdar, M., Ogletree, T.W.: The impact of participation in Vex robotics competition on middle and high school students’ interest in pursuing STEM studies and STEM-related careers. In: 2012 ASEE Annual Conference & Exposition, Texas (2012)
Welch, A.G.: Using the TOSRA to assess high school students’ attitudes toward science after competing in the first robotics competition: an exploratory study. Eurasia J. Math. Sci. Technol. Educ. 6(3), 187–197 (2010)
Theodoropoulos, A., Antoniou, A., Lepouras, G.: Teacher and student views on educational robotics: the Pan-Hellenic competition case. Appl. Theory Comput. Technol. 2(4), 1–23 (2017)
Rosen, J.H.: FIRST LEGO League participation: perceptions of minority student participants and their FLL coaches. In: 120th ASEE Annual Conference & Exposition (2013)
Welch, A.G.: The effect of robotics competition on high school students’ attitudes toward science. Sch. Sci. Math. 111(8), 416–424 (2011)
Chen, X.: How does participation in FIRST LEGO League robotics competition impact children’s problem-solving process? In: Lepuschitz, W., Merdan, M., Koppensteiner, G., Balogh, R., Obdržálek, D. (eds.) Robotics in Education. RiE 2018. Advances in Intelligent Systems and Computing, vol. 829. Springer, Cham (2018)
Varnado, Τ.Ε.: The effects of a technological problem solving activity on FIRST LEGO League participants’ problem solving style and performance. Virginia Tech (2005)
Melchior A., Cutter T., Cohen F.: Evaluation of FIRST LEGO league. Center for Youth and Communities, Heller Graduate School, Brandeis University, Waltham (2004)
Milto, E., Rogers, C., Portsmore, M.: Gender differences in confidence levels, group interactions, and feelings about competition in an introductory robotics course. In: 32nd Annual Frontiers in Education. IEEE (2002)
Bredenfeld, A.H., Leimbach, T.: The roberta initiative. In: Proceedings of SIMPAR 2010 Workshops International Conference on Simulation, Modeling and Programming for Autonomous Robots, Darmstadt, pp. 558–567 (2010)
Witherspoon, E.B., Schunn, C.D., Higashi, R.M., Baehr, E.C.: Gender, interest, and prior experience shape opportunities to learn programming in robotics competitions. Int. J. STEM Educ. 3(16), 18 (2016)
Chalmers, C.: Learning with FIRST LEGO League. In: Society for Information Technology and Teacher Education (SITE) Conference, pp. 5118–5124. Association for the Advancement of Computing in Education (AACE), New Orleans (2013)
eduACT Homepage. https://eduact.org. Accessed 23 Jan 2019
Cohen, L., Manion, L., Morrison, K.R.: Research Methods in Education, 6th edn. Routledge Falmer, London (2007)
Weintrop, D., Beheshti, E., Horn, M., Orton, K., Jona, K., Trouille, L.: Defining computational thinking for mathematics and science classrooms. J. Sci. Educ. Technol. 25(1), 127–147 (2016)
Ball, C., Moller, F., Pau, R.: The mindstorm effect: a gender analysis on the influence of LEGO mindstorms in computer science education. In: Proceedings of the 7th Workshop in Primary and Secondary Computing Education, pp. 141–142. ACM (2012)
Dasgupta, N., Stout, J.G.: Girls and women in science, technology, engineering and mathematics: STEMing the tide and broadening participation in STEM careers. Policy Insights Behav. Brain Sci. 1, 21–29 (2014)
Kotsopoulos, D., Floyd, L., Khan, S., Namukasa, I.K., Somanath, S., Weber, J., Yiu, C.: A pedagogical framework for computational thinking. Digit. Exp. Math. Educ. 3(2), 154–171 (2017)
Acknowledgements
This project received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No. 713679 and from the Universitat Rovira i Virgili (URV). The authors thank eduACT - The Organization For Future Education for their support.
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Schina, D., Usart, M., Esteve-Gonzalez, V. (2020). Participants’ Perceptions About Their Learning with FIRST LEGO® League Competition – a Gender Study. In: Merdan, M., Lepuschitz, W., Koppensteiner, G., Balogh, R., Obdržálek, D. (eds) Robotics in Education. RiE 2019. Advances in Intelligent Systems and Computing, vol 1023. Springer, Cham. https://doi.org/10.1007/978-3-030-26945-6_28
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