Collaboration in the Semantic Grid: a Basis for e-Learning

The CoAKTinG project aims to advance the state of the art in collaborative mediated spaces for the Semantic Grid. This paper presents an overview of the hypertext and knowledge based tools which have been deployed to augment existing collaborative environments, and the ontology which is used to exchange structure, promote enhanced process tracking, and aid navigation of resources before, after, and while a collaboration occurs. While the primary focus of the project has been supporting e-Science, this paper also explores the similarities and application of CoAKTinG technologies as part of a human-centred design approach to e-Learning

Investigating 6th Graders' Use of a Tablet-Based App Supporting Synchronous Use of Multiple Tools Designed to Promote Collaborative Knowledge Building in Science.

At this pivotal moment in time, when the proliferation of mobile technologies in our daily lives is influencing the relatively fast integration of these technologies into classrooms, there is little known about the process of student learning, and the role of collaboration, with app-based learning environments on mobile devices. To address this gap, this dissertation, comprised of three manuscripts, investigated three pairs of sixth grade students’ synchronous collaborative use of a tablet-based science app called WeInvestigate. The first paper illustrated the methodological decisions necessary to conduct the study of student synchronous and face-to-face collaboration and knowledge building within the complex WeInvestigate and classroom learning environments. The second paper provided the theory of collaboration that guided the design of supports in WeInvestigate, and described its subsequent development. The third paper detailed the interactions between pairs of students as they engaged collaboratively in model construction and explanation tasks using WeInvestigate, hypothesizing connections between these interactions and the designed supports for collaboration. Together, these manuscripts provide encouraging evidence regarding the potential of teaching and learning with WeInvestigate. Findings demonstrated that the students in this study learned science through WeInvestigate, and were supported by the app - particularly the collabrification - to engage in collaborative modeling of phenomena. The findings also highlight the potential of the multiple methods used in this study to understand students’ face-to-face and technology-based interactions within the “messy” context of an app-based learning environment and a traditional K-12 classroom. However, as the third manuscript most clearly illustrates, there are still a number of modifications to be made to the WeInvestigate technology before it can be optimally used in classrooms to support students’ collaborative science endeavors. The findings presented in this dissertation contribute in theoretical, methodological, and applied ways to the fields of science education, educational technology, and the learning sciences, and point to exciting possibilities for future research on students’ collaborations using future iterations of WeInvestigate with more embedded supports; comparative studies of students’ use of synchronous collaboration; and studies focused on elucidating the role of the teacher using WeInvestigate - and similar mobile platforms - for teaching and learning.PhDEducational StudiesUniversity of Michigan, Horace H. Rackham School of Graduate Studieshttp://deepblue.lib.umich.edu/bitstream/2027.42/116748/1/casher_1.pd

Bridgewater College Catalog, Session 2015-16

https://digitalcommons.bridgewater.edu/college_catalogs/1119/thumbnail.jp

A case study of collaborative learning among preparatory year students and their teachers at Hail University in Saudi Arabia

The concept of collaborative learning (CL) relates to the educational use of small groups, in which students work together to maximise their learning and to teach and learn from each other as much as possible, after receiving guidelines and instructions from their teachers. Collaborative learning in Saudi higher education (SHE) has been promoted at the government level in recent years as part of a trend to increase the adoption of e-learning. The policy also aligns with educational reforms and the drive to make the Saudi economy more competitive and diverse. Nevertheless, it is still enforcing itself to become a norm in the teaching and learning process as it is a radical shift from the traditional centralised decision making in educational settings and teacher-centred teaching, which indicate a high power distance structure. Therefore, this study investigates the perceptions of preparatory year students and teachers at Hail University regarding the implementation of CL. A qualitative research methodology was adopted. Data were gathered from observations, six focus groups (composed of five students in each group) and individual interviews with 12 teachers on the foundation year. The findings of this study indicated two modalities for deploying CL: traditional CL (TCL/non-computer- supported collaborative learning [CSCL]) and computer-supported CL (CSCL) in Saudi higher Education. Furthermore, the results showed that CL indeed provides personal, social, and academic benefits. It is still, however, marred by challenges such that effective implementation is curtailed and thus does not produce positive learning outcomes among students. Overall, given the cultural background, the preference for retaining a high power distance, and what teachers and students are accustomed to, the study suggests further research be conducted to implement an form of CL adapted to suit Saudi culture