Chee-Kit Looi

Bio: Chee-Kit Looi is an academic researcher from Nanyang Technological University. The author has contributed to research in topics: Educational technology & Collaborative learning. The author has an hindex of 37, co-authored 232 publications receiving 5671 citations. Previous affiliations of Chee-Kit Looi include National University of Singapore & National Institute of Education.

One-to-one technology-enhanced learning: An opportunity for global research collaboration

Abstract: Over the next 10 years, we anticipate that personal, portable, wirelessly-networked technologies will become ubiquitous in the lives of learners - indeed, in many countries, this is already a reality. We see that ready-to-hand access creates the potential for a new phase in the evolution of technology-enhanced learning (TEL), characterized by "seamless learning spaces" and marked by continuity of the learning experience across different scenarios (or environments), and emerging from the availability of one device or more per student ("one-to-one"). One-to-one TEL has the potential to "cross the chasm" from early adopters conducting isolated design studies to adoption-based research and widespread implementation, with the help of research and evaluation that gives attention to the digital divide and other potentially negative consequences of pervasive computing. We describe technology-enhanced learning and the affordances of one-to-one computing and outline a research agenda, including the risks and challenges of reaching scale. We reflect upon how this compares with prior patterns of technology innovation and diffusion. We also introduce a community, called "G1:1," that brings together leaders of major research laboratories and one-to-one TEL projects. We share a vision of global research, inviting other research groups to collaborate in ongoing activities.

Leveraging mobile technology for sustainable seamless learning: a research agenda

Abstract: Chee-Kit Looi is Head of the Learning Sciences Lab of the National Institute of Education (LSL, NIE), Nanyang Technological University (NTU). He has over two decades of experience with educational technology research in research institutes and universities. He is an editorial member of the International Journal on AI & Education and the International Journal on CSCL. Peter Seow is a senior software engineer with the LSL, NIE. He has over 10 years of industrial experience in leading projects, consulting and systems development. Zhang BaoHui is an assistant professor in the Learning Sciences and Technologies Academic Group (LSTAG) and LSL, NIE, Nanyang Technological University (NTU). His current research foci are designing and assessing interactive environments when using computerbased modelling or mobile technologies for inquiry-based science learning. So Hyo-Jeong is an assistant professor in the LSTAG and LSL, NIE, NTU. Her research focuses on designing interactive online learning environments, and students’ scientific knowledge building through collaborative inquiry. Wenli Chen is an assistant professor in the LSTAG and LSL, NIE, NTU. Her research interests and expertise are computermediated communication, virtual learning environment, mobile learning and community of learners. Lung-Hsiang Wong is an assistant professor in the LSTAG and LSL, NIE, NTU. His research interests are information and communication technology-enhanced Chinese language learning, teachers’ professional development, agent technology for learning and mobile learning. Address for correspondence: LSL, NIE, NTU, 1 Nanyang Walk Singapore 637616. Email: cheekit.looi@nie.edu.sg

What seams do we remove in mobile-assisted seamless learning? A critical review of the literature

Abstract: Seamless learning refers to the seamless integration of the learning experiences across various dimensions including formal and informal learning contexts, individual and social learning, and physical world and cyberspace. Inspired by the exposition by Chan et al. (2006) on the seamless learning model supported by the setting of one or more mobile device per learner, this paper aims to further investigate the meaning of seamless learning and the potential ways to put it in practice. Through a thorough review of recent academic papers on mobile-assisted seamless learning (MSL), we identify ten dimensions that characterize MSL. We believe that such a framework allows us to identify research gaps in the stated area. A practitioner interested in adopting an MSL design or doing a new design can use our analysis to situate the dimensional space where the constraints or parameters of his or her design problem lie, and look at relevant design and research-based evidence of other related MSL systems to refine her own design.

Anatomy of a mobilized lesson: Learning my way

Abstract: With the mass adoption of mobile computing devices by the current school generation, significant opportunities have emerged for genuinely supporting differentiated and personalized learning experiences through mobile devices. In our school-based research work in introducing mobilized curricula to a class, we observe one compelling mobilized lesson that exploits the affordances of mobile learning to provide multiple learning pathways for elementary grade (primary) 2 students. Through the lesson, students move beyond classroom activities that merely mimic what the teacher says and does in the classroom, and yet they still learn in personally meaningful ways. In deconstructing the lesson, we provide an in-depth analysis of how the affordances of mobile computing enable personalized learning from four facets: (a) allowing multiple entry points and learning pathways, (b) supporting multi-modality, (c) enabling student improvisation in situ, and (d) supporting the sharing and creation of student artifacts on the move. A key property of mobile technology that enables these affordances lies with the small form factor and the lightweightness of these devices which make them non-obtrusive in the learning spaces of the student. This article makes a contribution on the design aspects of mobilized lessons, namely, what the affordances of mobile technologies can enable.

Understanding mobile learning from the perspective of self-regulated learning

Abstract: Cognizant of the research gap in the theorization of mobile learning, this paper conceptually explores how the theories and methodology of self-regulated learning (SRL), an active area in contemporary educational psychology, are inherently suited to address the issues originating from the defining characteristics of mobile learning: enabling student-centred, personal, and ubiquitous learning. These characteristics provide some of the conditions for learners to learn anywhere and anytime, and thus, entail learners to be motivated and to be able to self-regulate their own learning. We propose an analytic SRL model of mobile learning as a conceptual framework for understanding mobile learning, in which the notion of self-regulation as agency is at the core. The rationale behind this model is built on our recognition of the challenges in the current conceptualization of the mechanisms and processes of mobile learning, and the inherent relationship between mobile learning and SRL. We draw on work in a 3-year research project in developing and implementing a mobile learning environment in elementary science classes in Singapore to illustrate the application of SRL theories and methodology to understand and analyse mobile learning. © 2012 Wiley Periodicals, Inc.

Personal Knowledge: Towards a Post-Critical Philosophy

Abstract: The Study of Man. By Michael Polanyi. Price, $1.75. Pp. 102. University of Chicago Press, 5750 Ellis Ave., Chicago 37, 1959. One subtitle to Polanyi's challenging and fascinating book might be The Evolution and Natural History of Error , for Polanyi is at pains to expunge what he believes to be the false notion contained in the contemporary view of science which treats it as an object and basically impersonal discipline. According to Polanyi not only is this a radical and important error, but it is harmful to the objectives of science itself. Another subtitle could be Farewell to Detachment , for in place of cold objectivity he develops the idea that science is necessarily intensely personal. It is a human endeavor and human point of view which cannot be divorced from nor uprooted out of the human matrix from which it arises and in which it works. For a good while