This paper presents a study of group cohesion as it arises in online small group different time and place collaboration. Cohesion is modeled in terms of the extent to which a group makes progress together through contentful and meaningful collaborative interactions. This paper makes the case that cohesion in a small group working collaboratively online emerges as a result of the overall level of engagement settled into by the group. As students participate in a collaborative task, they make choices in the extent and way in which they engage in a particular aspect of that task. The choices made by students in how to engage determine the scope and quality of the cohesion that emerges. Data were collected from a one-semester course where students worked on design problems in an online, different time and place, community in small groups. The collective pattern of engagement gives insights into characteristics of the cohesion that emerges within the community and within each small group.
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Anderson, T., & Shattuck, J. (2012). Design-based research: A decade of progress in education research? Educational Researcher, 41(1), 16–25.
Aragon, S. R. (2003). Creating social presence in online environments. New directions for adult and continuing education, 2003(100), 57–68.
Arnseth, H. C., Ludvigsen, S. R., Mørch, A. I., & Wasson, B. (2004). Managing intersubjectivity in distributed collaboration. PsychNology Journal, 2(2), 189–204.
Alterman, R., & Larusson, J. A. (2013). Participation and common knowledge in a case study of student blogging. International Journal of Computer-Supported Collaborative Learning, 8(2), 149–187.
Alterman, R., & Harsch, K. (2015). Collaborative and individual learning - mixing the two. CSEDU.
Alterman, R., & Harsch, K. (2017). A more reflective form of joint problem solving. International Journal of Computer-Supported Collaborative Learning, 12(1), 9–33.
Banki, S. (2010). Is a good deed constructive regardless of intent? Organization citizenship behavior, motive, and group outcomes. Small Group Research, 41(3), 354–375.
Barab, S., & Squire, K. (2004). Design-based research: Putting a stake in the ground. Journal of the Learning Sciences, 13(1), 1–14.
Barron, B. (2003). When smart groups fail. Journal of the Learning Sciences, 12(3), 307–359.
Bause, I. M., Brich, I. R., Wesslein, A.-K., and Hesse, F. W. (2018). Using technological functions on a multi-touch table and their affordances to counteract biases and foster collaborative problem solving. International journal of computer-supported collaborative learning, pages 1–27.
Beuchot, A., & Bullen, M. (2005). Interaction and interpersonality in online discussion forums. Distance Education, 26(1), 67–87.
Blumenfeld, P. C., Kempler, T. M., and Krajcik, J. S. (2006). Motivation and cognitive engagement in learning environments. Na.
Brown, J. S. (2000). Growing up: Digital: How the web changes work, education, and the ways people learn. Change: The Magazine of Higher Learning, 32(2), 11–20.
Carless, S. A., & De Paola, C. (2000). The measurement of cohesion in work teams. Small Group Research, 31(1), 71–88.
Carron, A. V., Widmeyer, W. N., & Brawley, L. R. (1985). The development of an instrument to assess cohesion in sport teams: The group environment questionnaire. Journal of sport psychology, 7(3), 244–266.
Casey-Campbell, M., & Martens, M. L. (2009). Sticking it all together: A critical assessment of the group cohesion–performance literature. International Journal of Management Reviews, 11(2), 223–246.
Clark, H. H., Brennan, S. E., et al. (1991). Grounding in communication. Perspectives on socially shared cognition, 13(1991), 127–149.
Collins, A., Joseph, D., & Bielaczyc, K. (2004). Design research: Theoretical and methodological issues. The Journal of the Learning Sciences, 13(1), 15–42.
Delahunty, J., Verenikina, I., & Jones, P. (2014). Socio-emotional connections: Identity, belonging and learning in online interactions. A literature review. Technology, Pedagogy and Education, 23(2), 243–265.
Dietrich, P., Eskerod, P., Dalcher, D., & Sandhawalia, B. (2010). The dynamics of collaboration in multipartner projects. Project Management Journal, 41(4), 59–78.
Dillenbourg, P. (1999). What do you mean by collaborative learning? In P. Dillenbourg (Ed.), Collaborative learning: Cognitive and computational approaches. Advances in learning and instruction series., pages 1–19. Elsevier Science.
Dillenbourg, P., Lemaignan, S., Sangin, M., Nova, N., & Molinari, G. (2016). The symmetry of partner modelling. International Journal of Computer-Supported Collaborative Learning, 11(2), 227–253.
Dillenbourg, P. and Traum, D. (1999). The long road from a shared screen to a shared understanding. In Proceedings CSCL.
Easterly, W., Ritzen, J., & Woolcock, M. (2006). Social cohesion, institutions, and growth. Economics and Politics, 18(2), 103–120.
Flyvbjerg, B. (2006). Five misunderstandings about case-study research. Qualitative Inquiry, 12(2), 219–245.
Forrest, R., & Kearns, A. (2001). Social cohesion, social capital and the neighbourhood. Urban Studies, 38(12), 2125–2143.
Garrison, D. R., Anderson, T., & Archer, W. (1999). Critical inquiry in a text-based environment: Computer conferencing in higher education. The Internet and Higher Education, 2(2–3), 87–105.
Gwet, K., et al. (2002). Inter-rater reliability: Dependency on trait prevalence and marginal homogeneity. Statistical Methods for Inter-Rater Reliability Assessment Series, 2, 1–9.
Hoadley, C. (2002). Creating context: Design-based research in creating and under- standing CSCL. In computer support for collaborative learning, pages 453–462.
Hogg, M. A., & Turner, J. C. (1985). Interpersonal attraction, social identification and psychological group formation. European Journal of Social Psychology, 15(1), 51–66.
Kawachi, I., Berkman, L., et al. (2000). Social cohesion, social capital, and health. Social epidemiology, 174, 190.
Kirschner, P. A., Sweller, J., Kirschner, F., & Zambrano, J. (2018). From cognitive load theory to collaborative cognitive load theory. International Journal of Computer-Supported Collaborative Learning, 13(2), 213–233.
Koschmann, T. (2002). Dewey’s contribution to the foundations of CSCL research. In CSCL conference, pages, 17–22.
Koschmann, T., Zemel, A., Conlee-Stevens, M., Young, N. P., Robbs, J. E., & Barn- hart, A. (2005). How do people learn? In barriers and biases in computer-mediated knowledge communication, pages 265–294. Springer.
Kreijns, K., Kirschner, P. A., & Vermeulen, M. (2013). Social aspects of CSCL environments: A research framework. Educational Psychologist, 48(4), 229–242.
McInnerney, J. M., & Roberts, T. S. (2004). Online learning: Social interaction and the creation of a sense of community. Educational Technology & Society, 7(3), 73–81.
Miyake, N., & Kirschner, P. A. (2014). The social and interactive dimensions of collaborative learning. In The Cambridge handbook of the learning sciences, pages, 418–438.
Mizruchi, M. S. (1993). Cohesion, equivalence, and similarity of behavior: A theoretical and empirical assessment. Social Networks, 15(3), 275–307.
Perkins, C., & Murphy, E. (2006). Identifying and measuring individual engagement in critical thinking in online discussions: An exploratory case study. Journal of Educational Technology & Society, 9(1), 298–307.
Roschelle, J. and Teasley, S. D. (1995). The construction of shared knowledge in collaborative problem solving. In computer supported collaborative learning, pages 69–97. Springer.
Schwartz, D. (1995). The emergence of abstract representations in dyad problem solving. Journal of the learning sciences, pages 321–354.
Shirky, C. (2008). Here comes everybody: The power of organizing without organizations. Penguin.
Sinha, S., Rogat, T. K., Adams-Wiggins, K. R., & Hmelo-Silver, C. E. (2015). Collaborative group engagement in a computer-supported inquiry learning environment. International Journal of Computer-Supported Collaborative Learning, 10(3), 273–307.
Slavin, R. E., Hurley, E. A., and Chamberlain, A. (2003). Cooperative learning and achievement: Theory and research. Handbook of psychology.
Stahl, G. (2006). Group cognition: Computer support for building collaborative knowledge. MIT Press.
Stahl, G. (2007). Meaning making in CSCL: Conditions and preconditions for cognitive processes by groups. In In proceedings of the 8th international conference on computer supported collaborative learning, pages 652–661. International: Society of the Learning Sciences.
Stahl, G. (2010). Editorial introductions to ijCSCL.
Stahl, G. (2015). Conceptualizing the intersubjective group. International Journal of Computer-Supported Collaborative Learning, 10(3), 209–217.
Stahl, G. (2016). From intersubjectivity to group cognition. Computer Supported Cooperative Work (CSCW), 25(4–5), 355–384.
Stahl, G., Koschmann, T., & Suthers, D. (2006). Computer-supported collaborative learning: An historical perspective. Cambridge handbook of the learning sciences, 2006, 409–426.
Stahl, G., Koschmann, T., and Suthers, D. (2014). Computer-supported collaborative learning, page 479?500. Cambridge handbooks in psychology. Cambridge University press, 2 edition.
Sun, J. C.-Y., & Rueda, R. (2012). Situational interest, computer self-efficacy and self-regulation: Their impact on student engagement in distance education. British Journal of Educational Technology, 43(2), 191–204.
Suthers, D. (2005). Technology affordances for intersubjective learning: A thematic agenda for CSCL. In Proceedings of the 2005 Conference on computer support for collaborative learning: Learning 2005: The next 10 years!, pages 662–671. International Society of the Learning Sciences.
Van den Bossche, P., Gijselaers, W. H., Segers, M., & Kirschner, P. A. (2006). Social and cognitive factors driving teamwork in collaborative learning environments: Team learning beliefs and behaviors. Small Group Research, 37(5), 490–521.
Vygotsky, L. S. (1964). Thought and language. Annals of Dyslexia, 14(1), 97–98.
Wainfan, L., & Davis, P. K. (2004). Challenges in virtual collaboration: Videoconferencing, audioconferencing, and computer-mediated communications. Rand Corporation.
Zaccaro, S. J., & Lowe, C. A. (1988). Cohesiveness and performance on an additive task: Evidence for multidimensionality. The Journal of Social Psychology, 128(4), 547–558.
Zaccaro, S. J., & McCoy, M. C. (1988). The effects of task and interpersonal cohesiveness on performance of a disjunctive group task 1. Journal of Applied Social Psychology, 18(10), 837–851.
Zhu, E. (2006). Interaction and cognitive engagement: An analysis of four asynchronous online discussions. Instructional Science, 34(6), 451–480.
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Altebarmakian, M., Alterman, R. Cohesion in online environments. Intern. J. Comput.-Support. Collab. Learn 14, 443–465 (2019) doi:10.1007/s11412-019-09309-y
- Online different time and place collaboration