Ubiquitous learning: Difference between revisions
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== Definition == | == Definition == | ||
* For some, '''ubiquitous learning''' (or u-learning) is equivalent to [[mobile learning]], e.g. that learning environments can be accessed in various contexts and situations. | |||
However, [[User:DSchneider|DSchneider]] thinks that u-learning R&D programs more ambitious. E.g. according to Ogata & Yano (2003) based on Chen (2002) and Curtis (2002), the main characteristics of ubiquitous learning are the following: | |||
{{quotationbox | | {{quotationbox | | ||
* Permanency: Learners never lose their work unless it is | * '''Permanency''': Learners never lose their work unless it is purposefully deleted. In addition, all the learning processes are recorded continuously everyday. | ||
purposefully deleted. In addition, all the learning | |||
processes are recorded continuously everyday. | |||
* Accessibility: Learners have access to their documents, | * '''Accessibility''': Learners have access to their documents, data, or videos from anywhere. That information is provided based on their requests. Therefore, the learning involved is self-directed. | ||
data, or videos from anywhere. That information is | |||
provided based on their requests. Therefore, the | |||
learning involved is self-directed. | |||
* Immediacy: Wherever learners are, they can get any | * '''Immediacy''': Wherever learners are, they can get any information immediately. Thus, learners can solve problems quickly. Otherwise, the learner can record the questions and look for the answer later. | ||
information immediately. Thus, learners can solve | |||
problems quickly. Otherwise, the learner can | |||
record the questions and look for the answer later. | |||
* Interactivity: Learners can interact with experts, | * '''Interactivity''': Learners can interact with experts, teachers, or peers in the form of synchronies or asynchronous communication. Hence, the experts are more reachable and the knowledge becomes more available. | ||
teachers, or peers in the form of synchronies or | |||
asynchronous communication. Hence, the experts | |||
are more reachable and the knowledge becomes | |||
more available. | |||
* Situating of instructional activities: The learning could | * '''Situating of instructional activities''': The learning could be embedded in our daily life. The problems encountered as well as the knowledge required are all presented in their natural and authentic forms. This helps learners notice the features of problem situations that make particular actions relevant. | ||
be embedded in our daily life. The problems | |||
encountered as well as the knowledge required are | |||
all presented in their natural and authentic forms. | |||
This helps learners notice the features of problem | |||
situations that make particular actions relevant. | |||
Moreover, ubiquitous learning can be Computer | *''' Adaptability''': Learners can get the right information at the right place with the right way. [ Additional feature, from [http://www-yano.is.tokushima-u.ac.jp/ogata/clue/] ] | ||
Supported Collaborative Learning (CSCL) | |||
environments that focus on the socio-cognitive process | Moreover, ubiquitous learning can be Computer Supported Collaborative Learning ([[CSCL]]) environments that focus on the socio-cognitive process of social knowledge construction and sharing. | ||
of social knowledge construction and sharing. | |||
}} | }} | ||
== Links == | |||
[http://www-yano.is.tokushima-u.ac.jp/ogata/clue/ Research on Ubiquitous CSCL], Project lead by [Hiroaki Ogata]. | |||
== References == | == References == | ||
* Bomsdorf, Birgit, Adaptation of Learning Spaces: Supporting Ubiquitous Learning in Higher Distance Education, Dagstuhl Seminar Proceedings 05181, Mobile Computing and Ambient Intelligence: The Challenge of Multimedia, [http://drops.dagstuhl.de/opus/volltexte/2005/371 Abstract/PDF] | |||
* Chen, Y.S., Kao, T.C., Sheu, J.P., and Chiang, C.Y.:A Mobile Scaffolding-Aid-Based Bird -Watching Learning System, Proceedings of IEEE International Workshop on Wireless and Mobile Technologies in Education (WMTE'02), pp.15-22, IEEE Computer Society Press, 2002. | |||
* Curtis, M., Luchini, K., Bobrowsky, W., Quintana, C., and Soloway, E.: Handheld Use in K-12: A Descriptive Account, Proceedings of IEEE International Workshop on Wireless and Mobile Technologies in Education (WMTE'02), pp.23-30, IEEE Computer Society Press, 2002. | |||
Guozhen Zhang; Qun Jin; Shih, T.K. (200). Peer-to-peer based social interaction tools in ubiquitous learning environment, | * Guozhen Zhang; Qun Jin; Shih, T.K. (200). Peer-to-peer based social interaction tools in ubiquitous learning environment, | ||
Parallel and Distributed Systems, 2005. Proceedings. 11th International Conference on | Parallel and Distributed Systems, 2005. Proceedings. 11th International Conference on | ||
Volume 1, 20-22 July 2005 Page(s):230 - 236 Vol. 1 {{ar}}. | Volume 1, 20-22 July 2005 Page(s):230 - 236 Vol. 1 {{ar}}. | ||
Hiroaki Ogata and Yoneo Yano, Context-Aware Support for Computer Supported Ubiquitous Learning, IEEE WMTE2004, pp.27-34, Taiwan, March 23-25, 2004. [http://www-yano.is.tokushima-u.ac.jp/ogata/clue/WMTE-03-1-50.pdf PDF Preprint]. | * Hiroaki Ogata and Yoneo Yano, Context-Aware Support for Computer Supported Ubiquitous Learning, IEEE WMTE2004, pp.27-34, Taiwan, March 23-25, 2004. [http://www-yano.is.tokushima-u.ac.jp/ogata/clue/WMTE-03-1-50.pdf PDF Preprint]. | ||
* Li, L., Zheng, Y., Ogata, H., and Yano, Y.: A conceptual Framework of Computer-Supported Ubiquitous Learning Environment, International Journal of Advanced Technology for Learning. | * Li, L., Zheng, Y., Ogata, H., and Yano, Y.: A conceptual Framework of Computer-Supported Ubiquitous Learning Environment, International Journal of Advanced Technology for Learning. | ||
* Li, L., Zheng, Y., Ogata, H., and Yano, Y.: Ubiquitous Computing in Learning: Toward a Conceptual Framework of Ubiquitous Learning Environment, Int’l J. of Pervasive Comp. and Comm.. | * Li, L., Zheng, Y., Ogata, H., and Yano, Y.: Ubiquitous Computing in Learning: Toward a Conceptual Framework of Ubiquitous Learning Environment, Int’l J. of Pervasive Comp. and Comm.. |
Revision as of 11:54, 21 July 2006
Definition
- For some, ubiquitous learning (or u-learning) is equivalent to mobile learning, e.g. that learning environments can be accessed in various contexts and situations.
However, DSchneider thinks that u-learning R&D programs more ambitious. E.g. according to Ogata & Yano (2003) based on Chen (2002) and Curtis (2002), the main characteristics of ubiquitous learning are the following:
- Permanency: Learners never lose their work unless it is purposefully deleted. In addition, all the learning processes are recorded continuously everyday.
- Accessibility: Learners have access to their documents, data, or videos from anywhere. That information is provided based on their requests. Therefore, the learning involved is self-directed.
- Immediacy: Wherever learners are, they can get any information immediately. Thus, learners can solve problems quickly. Otherwise, the learner can record the questions and look for the answer later.
- Interactivity: Learners can interact with experts, teachers, or peers in the form of synchronies or asynchronous communication. Hence, the experts are more reachable and the knowledge becomes more available.
- Situating of instructional activities: The learning could be embedded in our daily life. The problems encountered as well as the knowledge required are all presented in their natural and authentic forms. This helps learners notice the features of problem situations that make particular actions relevant.
- Adaptability: Learners can get the right information at the right place with the right way. [ Additional feature, from [1] ]
Links
Research on Ubiquitous CSCL, Project lead by [Hiroaki Ogata].
References
- Bomsdorf, Birgit, Adaptation of Learning Spaces: Supporting Ubiquitous Learning in Higher Distance Education, Dagstuhl Seminar Proceedings 05181, Mobile Computing and Ambient Intelligence: The Challenge of Multimedia, Abstract/PDF
- Chen, Y.S., Kao, T.C., Sheu, J.P., and Chiang, C.Y.:A Mobile Scaffolding-Aid-Based Bird -Watching Learning System, Proceedings of IEEE International Workshop on Wireless and Mobile Technologies in Education (WMTE'02), pp.15-22, IEEE Computer Society Press, 2002.
- Curtis, M., Luchini, K., Bobrowsky, W., Quintana, C., and Soloway, E.: Handheld Use in K-12: A Descriptive Account, Proceedings of IEEE International Workshop on Wireless and Mobile Technologies in Education (WMTE'02), pp.23-30, IEEE Computer Society Press, 2002.
- Guozhen Zhang; Qun Jin; Shih, T.K. (200). Peer-to-peer based social interaction tools in ubiquitous learning environment,
Parallel and Distributed Systems, 2005. Proceedings. 11th International Conference on Volume 1, 20-22 July 2005 Page(s):230 - 236 Vol. 1 (Access restricted).
- Hiroaki Ogata and Yoneo Yano, Context-Aware Support for Computer Supported Ubiquitous Learning, IEEE WMTE2004, pp.27-34, Taiwan, March 23-25, 2004. PDF Preprint.
- Li, L., Zheng, Y., Ogata, H., and Yano, Y.: A conceptual Framework of Computer-Supported Ubiquitous Learning Environment, International Journal of Advanced Technology for Learning.
- Li, L., Zheng, Y., Ogata, H., and Yano, Y.: Ubiquitous Computing in Learning: Toward a Conceptual Framework of Ubiquitous Learning Environment, Int’l J. of Pervasive Comp. and Comm..