Abstract
Awareness has been identified as a key element that affects the quality of collaboration. Several studies indicate that awareness mechanisms to support collaborative learning activities should include factors and stimuli from the students’ context and social interactions. This contributes to enhance the collaboration process and the learning experience of the students. This paper proposes a behaviour awareness mechanism to support collaborative learning in undergraduate learning scenarios. This mechanism has been designed to provide personal and social awareness to students about both, their own and their peers learning behaviour. Moreover, this mechanism encourages reflection and promotes social interactions among students in order to improve the effectiveness of collaborative learning. The article also describes and evaluates a prototype of the proposed mechanism and its implementation in a collaborative mobile learning application, using a case study. The preliminary results show that this proposal helps promote collaborative learning in undergraduate learning contexts.
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References
Gress, C.L., Fior, M., Hadwin, A.F., Winne, P.H.: Measurement and assessment in computer-supported collaborative learning. Comput. Hum. Behav. 26(5), 806–814 (2010)
Strijbos, J.W.: Assessment of (computer-supported) collaborative learning. Learn. Technol. IEEE Trans. 4(1), 59–73 (2011)
Fransen, J., Kirschner, P.A., Erkens, G.: Mediating team effectiveness in the context of collaborative learning: The importance of team and task awareness. Comput. Hum. Behav. 27(3), 1103–1113 (2011)
Kwon, K., Hong, R.Y., Laffey, J.M.: The educational impact of metacognitive group coordination in computer-supported collaborative learning. Comput. Hum. Behav. 29(4), 1271–1281 (2013)
Kreijns, K., Kirschner, P.A., Jochems, W.: Identifying the pitfalls for social interaction in computer-supported collaborative learning environments: a review of the research. Comput. Hum. Behav. 19(3), 335–353 (2003)
Antunes, P., Herskovic, V., Ochoa, S.F., Pino, J.A.: Reviewing the quality of awareness support in collaborative applications. J. Syst. Softw. 89, 146–169 (2014)
Wu, K., Vassileva, J., Sun, X., Fang, J.: Motivating wiki-based collaborative learning by increasing awareness of task conflict: a design science approach. In: Baloian, N., Burstein, F., Ogata, H., Santoro, F., Zurita, G. (eds.) CRIWG 2014. LNCS, vol. 8658, pp. 365–380. Springer, Heidelberg (2014)
Schneider, J., Börner, D., van Rosmalen, P., Specht, M.: Augmenting the senses: a review on sensor-based learning support. Sensors 15(2), 4097–4133 (2015)
Phielix, C., Prins, F.J., Kirschner, P.A., Erkens, G., Jaspers, J.: Group awareness of social and cognitive performance in a CSCL environment: effects of a peer feedback and reflection tool. Comput. Hum. Behav. 27(3), 1087–1102 (2011)
Nicol, D.J., Macfarlane-Dick, D.: Formative assessment and self-regulated learning: a model and seven principles of good feedback practice. Stud. High. Educ. 31(2), 199–218 (2006)
Buder, J.: Group awareness tools for learning: Current and future directions. Comput. Hum. Behav. 27(3), 1114–1117 (2011)
Bodemer, D., Dehler, J.: Group awareness in CSCL environments. Comput. Hum. Behav. 27(3), 1043–1045 (2011)
Wang, Q.: Design and evaluation of a collaborative learning environment. Comput. Educ. 53(4), 1138–1146 (2009)
Meier, A., Spada, H., Rummel, N.: A rating scheme for assessing the quality of computer-supported collaboration processes. Int. J. Comput. Support. Collaborative Learn. 2(1), 63–86 (2007)
Chounta, I.-A., Hecking, T., Hoppe, H.U., Avouris, N.: Two make a network: using graphs to assess the quality of collaboration of dyads. In: Baloian, N., Burstein, F., Ogata, H., Santoro, F., Zurita, G. (eds.) CRIWG 2014. LNCS, vol. 8658, pp. 53–66. Springer, Heidelberg (2014)
Kahrimanis, G., Meier, A., Chounta, I.-A., Voyiatzaki, E., Spada, H., Rummel, N., Avouris, N.: Assessing collaboration quality in synchronous CSCL problem-solving activities: adaptation and empirical evaluation of a rating scheme. In: Cress, U., Dimitrova, V., Specht, M. (eds.) EC-TEL 2009. LNCS, vol. 5794, pp. 267–272. Springer, Heidelberg (2009)
Lin, C., Standing, C., Liu, Y.C.: A model to develop effective virtual teams. Decis. Support Syst. 45(4), 1031–1045 (2008)
Buja, A., Swayne, D.F., Littman, M.L., Dean, N., Hofmann, H., Chen, L.: Data visualization with multidimensional scaling. J. Comput. Graph. Stat. 17(2), 444–472 (2008)
Hardy, M.: Pareto’s law. Math. Intelligencer 32(3), 38–43 (2010)
Karlin, B., Ford, R.: The usability perception scale (UPscale): a measure for evaluating feedback displays. In: Marcus, A., (ed.) Design, User Experience, and Usability. Design Philosophy, Methods, and Tools. LNCS, vol. 8012, pp. 312–321. Springer, Heidelberg (2013)
Lewis, J.R.: Psychometric evaluation of the PSSUQ using data from five years of usability studies. Int. J. Hum. Comput. Interact. 14(3–4), 463–488 (2002)
Acknowledgements
This work has also been partially supported by Fondecyt (Chile), grants: 1150252; by the Spanish Ministry of Science and Innovation (MCI) and FEDER funds of the EU under the contracts TIN2013-47245-C2-1-R, by the Community Networks Testbed for the Future Internet (CONFINE), Large-scale Integrating Project: FP7-288535, and also by the Generalitat de Catalunya as a Consolidated Research Group 2014-SGR-881.
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Medina, E., Meseguer, R., Ochoa, S.F., Medina, H. (2015). A Behaviour Awareness Mechanism to Support Collaborative Learning. In: Baloian, N., Zorian, Y., Taslakian, P., Shoukouryan, S. (eds) Collaboration and Technology. CRIWG 2015. Lecture Notes in Computer Science(), vol 9334. Springer, Cham. https://doi.org/10.1007/978-3-319-22747-4_8
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