- 1.M. Weiser, "Some Computer Science Issues in Ubiquitous Computing," Communications of the ACM, vol. 36, pp. 75-85, 1993. Google ScholarDigital Library
- 2.B. N. Schilit, N. Adams, and R. Want, "Context-Aware Computing Applications," presented at Workshop on Mobile Computing Systems and Applications, 1994.Google Scholar
- 3.J. Gecsei, "Adaptation in Distributed Multimedia Systems," IEEE Multimedia, pp. 58-65, 1997. Google ScholarDigital Library
- 4.D. Chalmers and M. S. Sloman, "A Survey of Quality of Service in Mobile Computing Environments," IEEE Communications Surveys, 1999. Google ScholarDigital Library
- 5.B. D. Noble, M. Satyanarayanan, D. Narayanan, J. E. Tilton, J. Flinn, and K. R. Walker, "Agile Application-Aware Adaptation for Mobility," presented at 16th Symp. on Operating System Principles (SOSP-16), Saint-Malo, France, 1997. Google ScholarDigital Library
- 6.A. Fox, S. D. Gribble, Y. Chawathe, and E. A. Brewer, "Adapting to Network and Client Variation Using Infrastructural Proxies: Lessons and Perspectives," IEEE Personal Communications, 1998.Google Scholar
- 7.K. Holtman and A. Mutz, "Transparent Content Negotiation in HTTP," IETF RFC 2295, 1998. Google ScholarDigital Library
- 8.W3C, "Composite Capability / Preference Profiles (CC/PP): A User Side Framework for Content Negotiation," W3C NOTE-CCPP- 19990727, 27th July 1999.Google Scholar
- 9.G. Klyne, "A Syntax for Describing Media Feature Sets," IETF RFC 2533, 1999. Google ScholarDigital Library
- 10.Dublin Core Metadata Initiative http://purl.org/dcGoogle Scholar
- 11.J. Walpole, C. Krasic, L. Liu, D. Maier, C. Pu, D. McNamee, and D. Steere, "Quality of Service for Multimedia Database Systems," presented at Data Semantics (DS-8), Rotorua, NZ, 1999. Google ScholarDigital Library
- 12.C. Lee, J. Lehoczky, R. Rajkumar, and D. Siewiorek, "On Quality of Service Optimization with Discrete QoS Options," presented at IEEE Real-time Technology and Applications Symposium, 1999. Google ScholarDigital Library
- 13.W.-Y. Ma, I. Bedner, G. Chang, A. Kuchinsky, and H. J. Zhang, "A Framework for Adaptive Content Delivery in Heterogeneous Network Environments," presented at Multimedia Computing and Networking (MMCN00), San Jose, California, USA, 2000.Google Scholar
- 14.R. Mohan, J. R. Smith, and C.-S. Li, "Adapting Multimedia Internet Content for Universal Access," IEEE Trans. Multime-dia, vol. 1, pp. 104-114, 1999. Google ScholarDigital Library
- 15.Hori, M., Kondoh, G., Ono, K., Hirose, S., Singhal, S., "Annotation-Based Web Content Transcoding," presented at WWW-9, Amsterdam, Holland, May 2000. Google ScholarDigital Library
- 16.D. C. A. Bulterman, "User-Centered Abstractions for Adaptive Hypermedia Presentations," presented at ACM Multimedia'98, Bristol, UK, 1998. Google ScholarDigital Library
- 17.W3C, "Synchronized Multimedia Integration Language (SMIL) 1.0 Specification," W3C REC-smil-19980615, 15th June 1998.Google Scholar
- 18.T. Ye, H. A. Jacobsen, and R. Katz, "Mobile awareness in a wide area wireless network of info-stations," presented at MobiCom'98, Dallas,TX,USA,1998. Google ScholarDigital Library
Index Terms
- Map adaptation for users of mobile systems
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