Location-aware private service discovery in pervasive computing environment

Service discovery is an important and challenging issue in pervasive environments. Recent studies on service discovery mainly adopt Distributed Hash Tables (DHTs) based approaches without the consideration of private information protection. The main disadvantage of such approaches is that P2P overlay network does not reflect the physical topology and consequently generate substantial traffic overhead. In this paper, we propose a new service discovery scheme, considering both discovery efficiency and privacy protection. In the proposed scheme, we will present polar coordinate description and semantic service description to build location-aware overlay network. The polar coordinate description is able to efficiently build overlay networks, provide location-based searching, and alleviate traffic congestion. The physical hop counts and message overhead are significantly reduced due to the essentially distributed topology and ignorance of flooding operations. The usage of semantic description can find similar services more quickly and efficiently. We also consider the protection of mobile nodes private information. Results show that our proposed service discovery scheme is able to achieve much higher discovery success ratio and lower cost, compared to existing approaches.

[1]  Timothy W. Finin,et al.  Toward Distributed service discovery in pervasive computing environments , 2006, IEEE Transactions on Mobile Computing.

[2]  Stuart Cheshire,et al.  DNS-Based Service Discovery , 2013, RFC.

[3]  Amitava Mukherjee,et al.  Optimization of Service Discovery in Wireless Sensor Networks , 2010, WWIC.

[4]  Leandros Tassiulas,et al.  Network layer support for service discovery in mobile ad hoc networks , 2003, IEEE INFOCOM 2003. Twenty-second Annual Joint Conference of the IEEE Computer and Communications Societies (IEEE Cat. No.03CH37428).

[5]  Eyal Kushilevitz,et al.  Private information retrieval , 1995, Proceedings of IEEE 36th Annual Foundations of Computer Science.

[6]  David R. Karger,et al.  Chord: a scalable peer-to-peer lookup protocol for internet applications , 2003, TNET.

[7]  Jörg Kaiser,et al.  CHR: a distributed hash table for wireless ad hoc networks , 2005, 25th IEEE International Conference on Distributed Computing Systems Workshops.

[8]  Walid Osamy,et al.  Minimum perimeter coverage of query regions in a heterogeneous wireless sensor network , 2011, Inf. Sci..

[9]  S. Swamynathan,et al.  A Secure and Lightweight Service Discovery Model for Mobile Ad Hoc Networks , 2009, 2009 International Conference on Advances in Computing, Control, and Telecommunication Technologies.

[10]  Victor C. M. Leung,et al.  Directional Controlled Fusion in Wireless Sensor Networks , 2008, QShine '08.

[11]  Birgitta König-Ries,et al.  Service rings - a semantic overlay for service discovery in ad hoc networks , 2003, 14th International Workshop on Database and Expert Systems Applications, 2003. Proceedings..

[12]  Jaehoon Jung,et al.  Efficient service discovery mechanism for wireless sensor networks , 2008, Comput. Commun..

[13]  Lionel M. Ni,et al.  A private, secure, and user-centric information exposure model for service discovery protocols , 2006 .

[14]  Françoise Sailhan,et al.  Scalable Service Discovery for MANET , 2005, Third IEEE International Conference on Pervasive Computing and Communications.

[15]  Hans-Joachim Hof,et al.  Design of a Secure Distributed Service Directory for Wireless Sensornetworks , 2004, EWSN.

[16]  Kun Yang,et al.  Context modelling and a context-aware framework for pervasive service creation: A model-driven approach , 2010, Pervasive Mob. Comput..

[17]  William A. Arbaugh,et al.  Efficient Peer-to-Peer Lookup in Multi-hop Wireless Networks , 2009, KSII Trans. Internet Inf. Syst..

[18]  Athanasios V. Vasilakos,et al.  PIVOT: An adaptive information discovery framework for computational grids , 2010, Inf. Sci..

[19]  Abdelsalam Helal,et al.  Konark - a service discovery and delivery protocol for ad-hoc networks , 2003, 2003 IEEE Wireless Communications and Networking, 2003. WCNC 2003..

[20]  Robert Morris,et al.  Chord: A scalable peer-to-peer lookup service for internet applications , 2001, SIGCOMM 2001.

[21]  Roberto Beraldi,et al.  A Survey of Service Discovery Protocols in Multihop Mobile Ad Hoc Networks , 2009, IEEE Pervasive Computing.

[22]  Ying Cai,et al.  Location anonymity in continuous location-based services , 2007, GIS.

[23]  Ben Y. Zhao,et al.  An architecture for a secure service discovery service , 1999, MobiCom.

[24]  Tzung-Shi Chen,et al.  Service Discovery in Mobile Ad Hoc Networks Based on Grid , 2009, IEEE Trans. Veh. Technol..

[25]  Jim Waldo,et al.  The Jini Specification , 1999 .

[26]  Lionel M. Ni,et al.  Private and Secure Service Discovery via Progressive and Probabilistic Exposure , 2007, IEEE Transactions on Parallel and Distributed Systems.

[27]  Antony I. T. Rowstron,et al.  Pastry: Scalable, Decentralized Object Location, and Routing for Large-Scale Peer-to-Peer Systems , 2001, Middleware.

[28]  Urs Hengartner,et al.  A Distributed k-Anonymity Protocol for Location Privacy , 2009, PerCom.

[29]  Anura Gurugé,et al.  Universal Description, Discovery, and Integration , 2004 .

[30]  David E. Culler,et al.  Taming the underlying challenges of reliable multihop routing in sensor networks , 2003, SenSys '03.

[31]  Xingshe Zhou,et al.  Towards a semantic infrastructure for context-aware e-learning , 2009, Multimedia Tools and Applications.

[32]  Charles E. Perkins,et al.  Ad-hoc on-demand distance vector routing , 1999, Proceedings WMCSA'99. Second IEEE Workshop on Mobile Computing Systems and Applications.

[33]  Chun-Ta Li,et al.  A lightweight anonymous routing protocol without public key en/decryptions for wireless ad hoc networks , 2011, Inf. Sci..

[34]  David A. Maltz,et al.  Dynamic Source Routing in Ad Hoc Wireless Networks , 1994, Mobidata.

[35]  Mark Handley,et al.  A scalable content-addressable network , 2001, SIGCOMM 2001.

[36]  Wendi Heinzelman,et al.  Proceedings of the 33rd Hawaii International Conference on System Sciences- 2000 Energy-Efficient Communication Protocol for Wireless Microsensor Networks , 2022 .

[37]  Janne Riihijärvi,et al.  A survey on resource discovery mechanisms, peer-to-peer and service discovery frameworks , 2008, Comput. Networks.