Trajectory knowledge for improving topology control in mobile ad-hoc networks

Subscribe (Full Service)


	Search: The ACM Digital Library The Guide

	Feedback

Trajectory knowledge for improving topology control in mobile ad-hoc networks

Full text

Pdf (487 KB)

Source

International Conference On Emerging Networking Experiments And Technologies archive
Proceedings of the 2005 ACM conference on Emerging network experiment and technology table of contents

Toulouse, France

SESSION: Wireless networks table of contents

Pages: 1 - 9

Year of Publication: 2005

ISBN:1-59593-197-X

Authors

Jérôme Härri	Institut Eurécom, Sophia Antipolis, France
Navid Nikaein	Institut Eurécom, Sophia Antipolis, France
Christian Bonnet	Institut Eurécom, Sophia Antipolis, France

Sponsor

ACM: Association for Computing Machinery

Publisher

ACM New York, NY, USA

Bibliometrics

Downloads (6 Weeks): 2, Downloads (12 Months): 36, Citation Count: 1

Additional Information:

abstract references cited by index terms collaborative colleagues

Tools and Actions:	Review this Article Save this Article to a Binder Display Formats: BibTeX EndNote ACM Ref

DOI Bookmark:	Use this link to bookmark this Article: http://doi.acm.org/10.1145/1095921.1095923 What is a DOI?

ABSTRACT

While most topology control protocols only address limited network mobility, we propose in this paper a quasi-localized topology control algorithm that considers mobility predictions in order to construct and maintain a power efficient topology without relying on periodic beacons. Indeed, a node is capable of extracting linear trajectories of its neighboring nodes based on their positions and velocities. Based on such information, a node obtains a local prediction of neighborhood evolution and can thereafter proactively adapt the topology without relying on periodic beacons. Maintenance is driven on a per-event basis. It is therefore only when a node changes course that messages are exchanged in order to adapt the structure. Our approach is able to create and keep a stable kinetic backbone at a linear message and time complexity. It also improves concurrent communications by providing a significant reduction on local power assignments, therefore reducing interferences, increasing battery life and improving the overall network lifespan.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	P. Gupta and P. R. Kumar,"The capacity of wireless networks", in IEEE Trans. Inform. Theory, vol. 46, no. 2, pp. 388--404, March 2000.
	2	S. Narayanaswamy, V. Kawadia, R. S. Sreenivas, and P. R. Kumar,"Power control in ad-hoc networks: Theory, architecture, algorithm and implementation of the compow protocol", in Proc. of the European Wireless'02, pp. 156--162, Florence, Italy, February 2002.
	3	Li Li , Joseph Y. Halpern , Paramvir Bahl , Yi-Min Wang , Roger Wattenhofer, Analysis of a cone-based distributed topology control algorithm for wireless multi-hop networks, Proceedings of the twentieth annual ACM symposium on Principles of distributed computing, p.264-273, August 2001, Newport, Rhode Island, United States [doi>10.1145/383962.384043]
	4	R. Ramanathan and R. Rosales-Hain,"Topology control of multihop wireless networks using transmit power adjustment", in Proc. IEEE INFOCOM 2000, pp. 404--413, Tel Aviv, Israel, March 2000.
	5	V. Rodoplu and T. H. Meng,"Minimum energy mobile wireless networks", in IEEE J. Select. Areas Commun., pp. 1333--1344, vol. 17, no. 8, August 1999.
	6	Li Li and Joseph Y. Helpern,"A Minimum-energy Path-preserving Topology-control Algorithm", in IEEE Transactions on Wireless Communications, pp. 910--921, vol. 3, no. 3, 2004.
	7	Navid Nikaein , Houda Labiod , Christian Bonnet, DDR: distributed dynamic routing algorithm for mobile ad hoc networks, Proceedings of the 1st ACM international symposium on Mobile ad hoc networking & computing, November 20, 2000, Boston, Massachusetts
	8	C. Gentile, J. Haerri, and R. E. Van Dyck, "Kinetic minimum-power routing and clustering in mobile ad-hoc networks," IEEE Proc. Vehicular Technology Conf. Fall 2002, pp. 1328--1332, September 2002.
	9	R.J. Fontana and S.J. Gunderson, "Ultra-wideband precision asset location system", IEEE Conf. on Ultra Wideband Systems and Technologies, pp. 147--150, 2002.
	10	C. Gentile and Luke Klein-Berndt, "Robust Location using System Dynamics and Motion Constraints", in Proc. of the IEEE International Conference on Communications (ICC'04), Paris, June 2004.
	11	A. Laouiti et al, "Multipoint Relaying: An Efficient Technique for Flooding in Mobile Wireless Networks", 35th Annual Hawaii International Conference on System Sciences (HICSS'2001), Hawaii, USA, 2001.
	12	T. Clausen et al, "Optimized Link State Routing Protocol", IEEE INMIC, Pakistan, 2001.
	13	C.E. Perkins et al. "Ad Hoc On-Demand Distance Vector Routing", http://www.ietf.org/rfc/rfc3561.txt.
	14	N. Li, J.C. Hou, L. Sha, "Design and analysis of an MST-based topology control algorithm", in Proc. of the IEEE Infocom Conference, pp. 1702--1712, Vol. 3, San Francisco, 2003.
	15	J. Haerri and Christian Bonnet, "A Lower Bound for Vehicles' Trajectory Duration", in Proc of the IEEE 62nd Semiannual Vehicular Technology Conference (VTCFall'05), Dallas, USA, September 2005.
	16	Ravi Prakash et al., "A Lower Bound for Broadcasting in Mobile Ad Hoc Networks", in EPFL Technical Report IC/2004/37, EPFL, Switzerland, 2004.
	17	Xiang-Yang Li , Yu Wang , Wen-Zhan Song, Applications of k-Local MST for Topology Control and Broadcasting in Wireless Ad Hoc Networks, IEEE Transactions on Parallel and Distributed Systems, v.15 n.12, p.1057-1069, December 2004 [doi>10.1109/TPDS.2004.77]
	18	Francisco Javier Ovalle-Martínez , Ivan Stojmenović , Fabián García-Nocetti , Julio Solano-González, Finding minimum transmission radii for preserving connectivity and constructing minimal spanning trees in ad hoc and sensor networks, Journal of Parallel and Distributed Computing, v.65 n.2, p.132-141, February 2005 [doi>10.1016/j.jpdc.2004.09.010]
	19	Roger Wattenhofer, Aaron Zollinger "XTC: A Practical Topology Control Algorithm for Ad-Hoc Networks", in 4th IEEE Workshop on Algorithms for Wireless, Mobile, Ad Hoc and Sensor Networks (WMAN), Santa Fe, April 2004.
	20	Paolo Santi , Douglas M. Blough , Feodor Vainstein, A probabilistic analysis for the range assignment problem in ad hoc networks, Proceedings of the 2nd ACM international symposium on Mobile ad hoc networking & computing, October 04-05, 2001, Long Beach, CA, USA [doi>10.1145/501445.501446]
	21	S. Basagni, D. Turgut, and S. K. Das, "Mobility-adaptive protocols for managing large ad hoc networks", in Proc. IEEE International Conference on Communications (ICC 2002), pp. 1539--1543, Helsinki, Finland, June 2001.