Anuja Meetoo and Kavi K. Khedo


  1. [1] A.K. Dey, Providing architectural support for building context-aware applications, Ph.D. Thesis, Georgia Institute of Tech-nology, 2000.199
  2. [2] M. Baldauf, S. Dustdar, and F. Rosenberg, A survey oncontext-aware systems, International Journal of Ad Hoc andUbiquitous Computing, 2(4), 2006, 263–277.
  3. [3] K.L. Mills, AirJava: networking for smart spaces, Proc.USENIX Embedded Systems Workshop, Cambridge, MA, 1999,29–34.
  4. [4] Information Society Technologies Research Group, The dis-appearing computer [Online], Available from [accessed 2006].
  5. [5] Electrical Engineering and Computer Science Department,University of California, Berkeley, The endeavour expedition:charting the fluid information utility [Online], Available from [accessed 2006].
  6. [6] Carnegie Mellon University, Project Aura, Distraction-freeubiquitous computing [Online], Available from∼aura [accessed 2006].
  7. [7] MIT Laboratory for Computer Science and MIT ArtificialIntelligence Laboratory, MIT project oxygen – project overview[Online], Available from [accessed2006].
  8. [8] Department of Computer Science and Engineering, Universityof Washington, Portolano: an expedition into invisible comput-ing [Online], Available from[accessed 2006].
  9. [9] Microsoft Research, Easy living [Online], Available from [accessed 2006].
  10. [10] S. Shafer, J. Krumm, B. Brumitt, B. Meyers, M. Czerwinski,and D. Robbins, The new easyliving project at microsoftresearch, Joint DARPA/NIST Smart Spaces Workshop, MD,1998.
  11. [11] M. Lucente, IBM Research, DreamSpace: natural interac-tion [Online], Available from[accessed 2006].
  12. [12] G. Chen and D. Kotz, A survey of context-aware mobilecomputing research, Technical Report TR2000-381 Departmentof Computer Science, Dartmouth College, 2000.
  13. [13] G.D. Abowd, C.G. Atkeson, J. Hong, S. Long, R. Kooper, andM. Pinkerton, Cyberguide: a mobile context-aware tour guide,Wireless Networks, 3(5), 1997, 421–433.
  14. [14] S. Meyer and A. Rakotonirainy, A survey of research oncontext-aware homes, Proc. Workshop Conf. on Wearable,Invisible, Context-Aware, Ambient, Pervasive and UbiquitousComputing, Australia, 21, 2003, 159–168.
  15. [15] R.M. Gustavsen, Condor – an application framework formobility-based context-aware applications. Proc. UBICOMP2002 Workshop on Concepts and Models for Ubiquitous Com-puting, Goeteborg, Sweden, 2002.
  16. [16] T. Strang and C. Linnhoff-Popien, A context modeling survey,The First International Workshop on Advanced Context Mod-eling, Reasoning and Management, Nottingham, 6th Interna-tional Conference on Ubiquitous Computing (UbiComp1004),UK, 2004, 33–40.
  17. [17] Z. Abid, S. Chabridon, and D. Conan, A framework for qualityof context management, quality of context, First InternationalWorkshop, QuaCon 2009, Stuttgart, Germany, 25–26 June2009, 120–131.
  18. [18] A. Manzoor, H.-L. Truong, and S. Dustdar, Quality awarecontext information aggregration system for pervasive envi-ronment, The 5th International Symposium on Web and Mo-bile Information Services (WAMIS 2009), (c) IEEE ComputerSociety, Bradford, UK, 26–29 May 2009.
  19. [19] H.-L. Truong and S. Dustdar, A survey on context-aware webservice systems, Invited Paper, International Journal of WebInformation Systems, (c) Emerald, 5(1), 2009, 5–31.
  20. [20] M.J. Franklin, K. Tan, and C. Lui, Mobile data man-agement [Online], Available from[acessed 2006].
  21. [21] J. Ensing, Software architecture for the support of contextaware applications, Koninklijke Philips Electronics N.V. 2002,UR 2002/841, 2002.
  22. [22] A.K. Dey and G.D. Abowd, The context toolkit: aidingthe development of context-aware applications, Workshop onSoftware Engineering for Wearable and Pervasive Computing,Limerick, Ireland, 2000.
  23. [23] A.K. Dey, D. Salber, M. Futakawa, and G. Abowd, An archi-tecture to support context-aware applications, GVU Techni-cal Report, GIT-GVU-99-93, Georgia Institute of Technology,1999.
  24. [24] A.K. Dey, G.D. Abowd, and D. Salber, A context-based infras-tructure for smart environments, Proc. 1st Int. Workshop onManaging Interactions in Smart Environments (MANSE’99),Ireland, 1999, 114–128.
  25. [25] P. Fahy and S. Clarke, CASS – middleware for mobile context-aware applications, Proc. 2nd ACM SIGMOBILE Int. Conf.on Mobile Systems, Applications and Services (Mobisys’2004),USA, 2004.
  26. [26] T. Gu, H.K. Pung, and D.Q. Zhang, A middleware for buildingcontext-aware mobile services. Proc. IEEE Vehicular Technol-ogy Conf. (VTC-Spring 2004), Italy, 2004.
  27. [27] T. Gu, H.K. Pung, and D.Q. Zhang, A service-oriented middle-ware for building context-aware services, Journal of Networkand Computer Applications, 28(1), 2005, 1–18.
  28. [28] A. Ranganathan, J. Muhtadi, S. Chetan, R. Campbell, andM.D. Mickunas, MiddleWhere: A middleware for locationawareness in ubiquitous computing applications, Proc. 5thACM/IFIP/USENIX Int. Conf. on Middleware, Canada, 2004,397–416.
  29. [29] A. Ranganathan and R.H. Campbell, A middleware forcontext-aware agents in ubiquitous computing environments,ACM/IFIP/USENIX Int. Middleware Conf. 2003, Germany,2003, 143–161.
  30. [30] O. Davidyuk, J. Riekki, V. Rautio, and J. Sun, Context-awaremiddleware for mobile multimedia applications. Proc. 3rd Int.Conf. on Mobile and Ubiquitous Multimedia (MUM’04), MD,83, 2004, 213–220.
  31. [31] H. Naguib, G. Coulouris, and S. Mitchell, Middleware sup-port for context-aware multimedia applications, Proc. IFIPTC6/WG6.1 3rd Int. Working Conf. on New Developmentsin Distributed Applications and Interoperable Systems, theNetherland, 198, 2001, 9–22.
  32. [32] S. Khungar and J. Riekki, A Context based storage for ubiqui-tous computing applications, Proc. 2nd European Union Sym-posium on Ambient Intelligence, the Netherlands, 84, 2004,55–58.
  33. [33] H. Chen, T. Finn, and A. Joshi, An ontology for context-aware pervasive computing environments, IJCAI Workshopon Ontologies and Distributed Systems, Great Britain, 18(3),2003, 197–207.
  34. [34] O. Riva, Contory: a Middleware for the provisioning of contextinformation on smart phones, Proc. 7th ACM Int. MiddlewareConf. (Middleware’06), Springer, 4290, 2006, 219–239.
  35. [35] C.G. Carlson and D.E. Clay, The earth model – calculatingfield size and distances between points using GPS coordinates,Site Specific Management Guidelines series-11, Potash &Phosphate Institute (PPI), 1999.
  36. [36] G. Meditskos and N. Bassiliades, Towards an object-orientedreasoning system for OWL, International Workshop on OWLExperiences and Directions, B. Cuenca Grau, I. Horrocks, B.Parsia, P. Patel-Schneider (Eds.), Ireland, 2005.
  37. [37] D.L. McGuiness and F. Harmelen, OWL web ontology lan-guage overview, W3C Recommendation February 2004 [On-line], Available from[accessed 2006].
  38. [38] M.K. Smith, C. Welty, R. Voltz, and D. McGuiness, OWL webontology language guide, W3C Recommendation February 2004[Online], Available from[accessed 2006].
  39. [39] Z. Zhang and J.A. Miller, Ontology query languages for thesemantic web: A performance evaluation, Master Thesis,University of Georgia, 2005.
  40. [40] I. Horrocks, P.F. Patel-Schneider, H. Boley, S. Tabet, B. Grosof,and M. Dean, SWRL: A semantic web rule language combiningOWL and RuleML, W3C Member Submission May 2004 [On-line], Available from[accessed 2006].
  41. [41] C. Bettstetter and C. Renner, A Comparison of service discov-ery protocols and implementation of the service location proto-col, Proc. 6th EUNICE Open European Summer School: Inno-vative Internet Applications, EUNICE 2000, the Netherlands,2000.200
  42. [42] R. Marin-Perianu, P. Hartel, and H. Scholten, A classification ofservice discovery protocols, Technical Report TR-CTIT-05-25Centre for Telematics and Information Technology, Universityof Twente, the Netherlands, 2005.
  43. [43] T. Urnes, A.S. Hatlen, P.S. Malm, and Ø. Myhre, Building dis-tributed context-aware applications, Personal and UbiquitousComputing, London, UK, 5(1), 2001, 38–41.
  44. [44] K. Muthukrishnan, M. Lijding, and P. Havinga, Towardssmart surroundings: enabling techniques and technologies forlocalisation, Proc. 1st Int. Workshop on Location and Context-Awareness (LoCA’05), Germany, 3479, 2005, 350–362.
  45. [45] S. Gifford, Experiences with location sensing systems at theUniversity of Michigan, Electrical Engineering and ComputerScience Department, University of Michigan, 2005.
  46. [46] J. Hoebeke, I. Moerman, B. Dhoedt, and P. Demeester, Anoverview of mobile ad hoc networks: applications and chal-lenges, Proc. FITCE 2004, 43rd European TelecommunicationsCongress, Journal of the Communications Network, 3, 2004,60–66.
  47. [47] V. Lipset, Sensing location [Online], Available from [accessed 2006].
  48. [48] Ubisense Website [Online], Available from [accessed 2006].
  49. [49] M. Peretz, Ultra wideband: the ultimate disruptive technology[Online], Available from[accessed 2006].
  50. [50] J. Reed, R.M. Buehrer, and D.S. Ha, Introduction to UWB:impulse radio for radar and wireless communications, Mo-bile and Portable Radio Research Group (MPRG), VirginiaPolytechnique Institute and State University, 2003.
  51. [51] M.C. O’Connor, FCC certifies Ubisense’s UWB, RFID jour-nal, The World’s RFID authority [Online], Available from [accessed 2006].
  52. [52] G. Roussos, Location sensing technologies and applications,School of Computer Science and Information Systems BirkbeckCollege, University of London, 2002.
  53. [53] J.A. Tauber, Indoor location systems for pervasive computing,Technical Report, Massachusetts Institute of Technology, 2002.
  54. [54] R. Bridgelall, Characterization of protocol-compatibleBluetooth/802.11 RFID tags [Online], Available from [accessed 2006].
  55. [55] J. Hightower and G. Borriello, A survey and taxonomy of loca-tion systems for ubiquitous computing, Technical Report UWCSE 01-08-03, University of Washington, Computer Scienceand Engineering, Seattle, WA, 2001.
  56. [56] A. Parker, A guide for the clueless: IEEE 802.15.4 standard forlow-rate wireless personal areas networks (LR-WPAN) [Online],Available from∼adparker/ [accessed2006].
  57. [57] A. Madhavapeddy and A. Tse, A study of bluetooth prop-agation using accurate indoor location mapping, Proc. 7thInt. Conf. on Ubiquitous Computing, Germany, 3660, 2005,105–122.
  58. [58] L.M. Ni, Y. Liu, Y.C. Lau, and A.P. Patil, LANDMARC:indoor location sensing using active RFID, Journal of WirelessNetworks, the Netherlands, 10(6), 2004, 701–710.
  59. [59] P. R¨Oder, M. Hoffmann, and M. Ritscher, A distributedframework for location sensing systems, Proc.1st Workshopon Positioning, Navigation and Communication (WPNC’04),Germany, 2004.
  60. [60] Sensys Networks Inc, VSN240 Vehicle Sensor Node [On-line], Available from [accessed2006].
  61. [61] J. Scheelings, Car park monitoring system, Electrical Engi-neering Thesis, University of Queensland, 2002.
  62. [62] P.T. Martin, Y. Feng, and X. Wang, Detector technologyevaluation, University of Utah Traffic Lab, Department of Civiland Environmental Engineering, 2003.
  63. [63] Honeywell Solid State Electronics Center, AN218 – Vehicledetection using AMR sensors, 2005.
  64. [64] Honeywell Solid State Electronics Center, Magnetic vehicledetection solutions [Online], Available from http://www. [accessed 2006].
  65. [65] D. Sathan, A. Meetoo, and R.K. Subramaniam, Contextaware lightweight energy efficient framework, world academyof science, engineering and technology, 52, 2009.

Important Links:

Go Back