Intelligent Data Analysis for Detecting Behaviour Patterns in iSpaces

Nauck, D D; Majeed, B; Lee, B-S

doi:10.1007/978-1-84628-429-8_22

D D Nauck⁴,
B Majeed⁴ &
B-S Lee⁵

Part of the book series: Computer Communications and Networks ((CCN))

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Abstract

Pervasive ICT or ubiquitous computing is a vision for the near-term future where computing and communications devices, services, and software agents act together seamlessly in order to support human users anywhere and at any time. The nature of ubiquitous computing was defined by Weiser as the type of computing that is invisible, and does not live on a personal device of any sort, but is in the woodwork everywhere [1]. In order to fulfil the vision of pervasive ICT [2], three main objectives have to be met.

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References

Weiser M. The World Is Not a Desktop. ACM Interactions, 1994:1:8:7–8.
Article Google Scholar
Abowd G, Mynatt E, and Rodden T. The Human Experience. IEEE Pervasive Computing, 2002:48–57.
Google Scholar
Cook D et al. MavHome: An Agent-based Smart Home. Proceedings of the First Intl Conf on Pervasive Computing and Communications (PerCom’03), 2003:521–524.
Google Scholar
Das S et al. The Role of Prediction Algorithms in the MavHome Smart Home Architecture. IEEE Wireless Communications, 2002:77–84.
Google Scholar
Lesser V et al. The UMASS Intelligent Home Project. Proceedings of the Association for Computing Machinery International Conference on Autonomous Agents, 1999:291–298.
Google Scholar
Huberman B and Clearwater S. A Multi-agent System for Controlling Building Environments. Proceedings of First International Conference on Multiagent Systems. AAAI Press, 1995:171–176.
Google Scholar
Centre for the Integrated Home Environment, December 2003 — http://www.cihe. lboro.ac.uk/
Google Scholar
Lee J and Hashimoto H. Controlling Mobile Robots in Distributed Intelligent Sensor Networks. IEEE Transactions on Industrial Electronics, October 2003:50:5:890–902.
Article Google Scholar
Haigh K, Phelps J and Geib C. An Open Agent Architecture for Assisting Elder Independence. First International Joint Conference on Autonomous Agents and MultiAgent Systems (AAMAS), Bologna, Italy, July 2002:578–586.
Google Scholar
Miller C, Haigh K, and Dewing W. First Cause No Harm: Issues in Building Safe, Reliable and Trustworthy Elder Care Systems. AAAI 02 Automation as Caregiver Workshop, July 2002:80–84.
Google Scholar
Ogawa M et al. Long-term Remote Behavioral Monitoring of the Elderly Using Sensors Installed in Domestic Houses. Proceedings of the Second Joint EMBS/BMES Conference, Houston, TX, USA, October 2002:1853–1854.
Google Scholar
Sixsmith A. An Evaluation of an Intelligent Home Monitoring System. Journal of Telemedicine and Telecare, 2002:6:63–72.
Article Google Scholar
Garner P et al. The Application of Telepresence in Medicine. BT Technol J, October 1997:15:4:181–187.
Article Google Scholar
Barnes N et al. Lifestyle Monitoring — Technology for Supported Independence. Computing and Control Engineering Journal, August 1998:9:4:169–174.
Article Google Scholar
Nauck D, Klawonn F and Kruse R. Foundations of Neuro-Fuzzy Systems. Wiley, Chichester, 1997.
Google Scholar
Nauck D, Spott M, and Azvine B. SPIDA — A Novel Data Analysis Tool. BT Technol J, October 2003:21:4:104–112.
Article Google Scholar
Zadeh L A. Soft Computing and Fuzzy Logic. IEEE Software, 1994:11:48–56.
Article Google Scholar
Nauck D. Measuring Interpretability in Rule-based Classification Systems. Proc IEEE Intl Conf on Fuzzy Systems, St Louis, MO, 2003:196–201.
Google Scholar
Kruse R, Gebhardt J, and Klawonn F. Foundations of Fuzzy Systems. Wiley, Chichester, 1994.
Google Scholar
Spott M. Efficient Reasoning with Fuzzy Words. Proc Intl Conf on Fuzzy Systems and Knowledge Discovery, Singapore, 2002.
Google Scholar
Chong C and Khumar S. Sensor Networks: Evolution, Opportunities, and Challenges. Proceedings of the IEEE, August 2003:91:8:1247–1256.
Google Scholar
Akyildiz I et al. Wireless Sensor Networks: A Survey. Computer Networks, 2002:38:14.
Google Scholar
Höppner F et al. Fuzzy Cluster Analysis. Wiley, Chichester, 1999.
MATH Google Scholar

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Authors and Affiliations

Intelligent Systems Research, BT, Adastral Park, UK
D D Nauck & B Majeed
Research Fellow, BT, Adastral Park, UK
B-S Lee

Authors

D D Nauck
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B Majeed
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B-S Lee
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Editors and Affiliations

Judal Associates Ltd, UK
Alan Steventon BSc, MTech, PhD, CPhys, MInstP
BT Group, Ipswich, UK
Steve Wright MA, PhD, CEng, MIEE

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Nauck, D.D., Majeed, B., Lee, BS. (2006). Intelligent Data Analysis for Detecting Behaviour Patterns in iSpaces. In: Steventon, A., Wright, S. (eds) Intelligent Spaces. Computer Communications and Networks. Springer, London. https://doi.org/10.1007/978-1-84628-429-8_22

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DOI: https://doi.org/10.1007/978-1-84628-429-8_22
Publisher Name: Springer, London
Print ISBN: 978-1-84628-002-3
Online ISBN: 978-1-84628-429-8
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