An analysis of student collaborative problem solving activities mediated by collaborative simulations

Chia Jung Chang, Ming Hua Chang, Bing Cheng Chiu, Chen Chung Liu, Shih Hsun Fan Chiang, Cai Ting Wen, Fu-Kwun Hwang, Ying Tien Wu, Po Yao Chao, Chia Hsi Lai, Su Wen Wu, Chih Kang Chang, Wenli Chen

Research output: Contribution to journalArticle

13 Citations (Scopus)

Abstract

Collaborative problem solving (CPS) is considered as one of the core competencies of the 21st century. Collaborative simulations which allow multiple students to participate in CPS activities in a shared simulation session are now increasingly applied to better facilitate these activities. However, the literature has shown that students' collaboration often does not lead to an effective solution to problems. Guided by the PISA CPS framework, this study thus aimed to analyze students’ collaboration patterns and problem solving strategies in solving a physics problem, and to identify significant patterns which may lead to a successful or unsuccessful outcome. Multiple data sources including group discussions, problem solving activities in a collaborative simulation, and open-ended questionnaire feedback from 30 high school students were analyzed using the lag sequential analysis technique. It was found that collaborative simulation has the potential to help students situate their discussion in a joint concrete problem space, facilitating their formation of a path to solve the problem. More importantly, the results showed significant differences between the successful and unsuccessful groups in terms of their collaboration patterns and problem solving strategies. A considerable portion of the students could only apply an intuitive trial-and-error strategy, and failed to solve the problem in the end. These students showed an inability to monitor and analyze the problem solving process, and were unable to transform their discussion into an executable plan to solve the problem. Those students who applied analytical reasoning strategies were more likely to achieve a successful problem solving outcome. The implications for educational practice are discussed, and the directions for future studies addressed.

Original languageEnglish
Pages (from-to)222-235
Number of pages14
JournalComputers and Education
Volume114
DOIs
Publication statusPublished - 2017 Nov 1

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Students
simulation
student
educational practice
group discussion
physics
Physics
Feedback
questionnaire
school
Group

Keywords

  • Collaboration pattern
  • Collaborative problem solving
  • Discourse analysis
  • Lag sequential analysis
  • Science simulation

ASJC Scopus subject areas

  • Computer Science(all)
  • Education

Cite this

Chang, C. J., Chang, M. H., Chiu, B. C., Liu, C. C., Fan Chiang, S. H., Wen, C. T., ... Chen, W. (2017). An analysis of student collaborative problem solving activities mediated by collaborative simulations. Computers and Education, 114, 222-235. https://doi.org/10.1016/j.compedu.2017.07.008

An analysis of student collaborative problem solving activities mediated by collaborative simulations. / Chang, Chia Jung; Chang, Ming Hua; Chiu, Bing Cheng; Liu, Chen Chung; Fan Chiang, Shih Hsun; Wen, Cai Ting; Hwang, Fu-Kwun; Wu, Ying Tien; Chao, Po Yao; Lai, Chia Hsi; Wu, Su Wen; Chang, Chih Kang; Chen, Wenli.

In: Computers and Education, Vol. 114, 01.11.2017, p. 222-235.

Research output: Contribution to journalArticle

Chang, CJ, Chang, MH, Chiu, BC, Liu, CC, Fan Chiang, SH, Wen, CT, Hwang, F-K, Wu, YT, Chao, PY, Lai, CH, Wu, SW, Chang, CK & Chen, W 2017, 'An analysis of student collaborative problem solving activities mediated by collaborative simulations', Computers and Education, vol. 114, pp. 222-235. https://doi.org/10.1016/j.compedu.2017.07.008
Chang, Chia Jung ; Chang, Ming Hua ; Chiu, Bing Cheng ; Liu, Chen Chung ; Fan Chiang, Shih Hsun ; Wen, Cai Ting ; Hwang, Fu-Kwun ; Wu, Ying Tien ; Chao, Po Yao ; Lai, Chia Hsi ; Wu, Su Wen ; Chang, Chih Kang ; Chen, Wenli. / An analysis of student collaborative problem solving activities mediated by collaborative simulations. In: Computers and Education. 2017 ; Vol. 114. pp. 222-235.
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