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DARWIN: distributed and adaptive reputation mechanism for wireless ad-hoc networks

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International Conference on Mobile Computing and Networking archive
Proceedings of the 13th annual ACM international conference on Mobile computing and networking table of contents

Montréal, Québec, Canada

SESSION: Security and privacy table of contents

Pages: 87 - 98

Year of Publication: 2007

ISBN:978-1-59593-681-3

Authors

Juan José Jaramillo	University of Illinois at Urbana-Champaign
R. Srikant	University of Illinois at Urbana-Champaign

Sponsors

ACM: Association for Computing Machinery
SIGMOBILE: ACM Special Interest Group on Mobility of Systems, Users, Data and Computing

Publisher

ACM New York, NY, USA

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Downloads (6 Weeks): 12, Downloads (12 Months): 148, Citation Count: 5

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ABSTRACT

Mobile ad-hoc networks are deployed under the assumption that participating nodes are willing to forward other nodes' packets. In reputation-based mechanisms cooperation is induced by means of a threat of partial or total disconnection from the network if a node is non-cooperative; however packet collisions and interference may make cooperative nodes appear selfish sometimes. In this paper we use a simple network model to first study the performance of some proposed reputation strategies and then present a new mechanism that we call DARWIN (Distributed and Adaptive Reputation mechanism for WIreless ad-hoc Networks). The idea is to avoid a retaliation situation after a node has been falsely perceived as selfish so cooperation can be restored quickly. We prove that our strategy is robust to imperfect measurements, is collusion-resistant and can achieve full cooperation among nodes.

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	Luzi Anderegg , Stephan Eidenbenz, Ad hoc-VCG: a truthful and cost-efficient routing protocol for mobile ad hoc networks with selfish agents, Proceedings of the 9th annual international conference on Mobile computing and networking, September 14-19, 2003, San Diego, CA, USA [doi>10.1145/938985.939011]
	2	R. Axelrod. The emergence of cooperation among egoists. The American Political Science Review, 75(2):306--318, June 1981.
	3	S. Bansal and M. Baker. Observation-based cooperation enforcement in ad hoc networks. Technical report, Stanford University, Stanford, CA, July 2003.
	4	R. Boyd. Mistakes allow evolutionary stability in the repeated prisoner's dilemma game. Journal of Theoretical Biology, 136(1):47--56, Jan. 1989.
	5	Sonja Buchegger , Jean-Yves Le Boudec, Performance analysis of the CONFIDANT protocol, Proceedings of the 3rd ACM international symposium on Mobile ad hoc networking & computing, June 09-11, 2002, Lausanne, Switzerland [doi>10.1145/513800.513828]
	6	Levente Buttyán , Jean-Pierre Hubaux, Enforcing service availability in mobile ad-hoc WANs, Proceedings of the 1st ACM international symposium on Mobile ad hoc networking & computing, November 20, 2000, Boston, Massachusetts
	7	Levente Buttyán , Jean-Pierre Hubaux, Stimulating cooperation in self-organizing mobile ad hoc networks, Mobile Networks and Applications, v.8 n.5, p.579-592, October 2003 [doi>10.1023/A:1025146013151]
	8	J. Crowcroft, R. Gibbens, F. Kelly, and S. Östring. Modelling incentives for collaboration in mobile ad hoc networks. In Proc. WiOpt '03, France, Mar. 2003.
	9	D. Fudenberg and J. Tirole. Game Theory. The MIT Press, Cambridge, MA, Aug. 1991.
	10	Q. He, D. Wu, and P. Khosla. SORI: A secure and objective reputation-based incentive scheme for ad-hoc networks. In Proc. IEEE Wireless Communications and Networking Conference (WCNC '04), volume 2, pages 825--830, Atlanta, GA, Mar. 2004.
	11	Ratul Mahajan , Maya Rodrig , David Wetherall , John Zahorjan, Sustaining cooperation in multi-hop wireless networks, Proceedings of the 2nd conference on Symposium on Networked Systems Design & Implementation, p.231-244, May 02-04, 2005
	12	Sergio Marti , T. J. Giuli , Kevin Lai , Mary Baker, Mitigating routing misbehavior in mobile ad hoc networks, Proceedings of the 6th annual international conference on Mobile computing and networking, p.255-265, August 06-11, 2000, Boston, Massachusetts, United States [doi>10.1145/345910.345955]
	13	Pietro Michiardi , Refik Molva, Core: a collaborative reputation mechanism to enforce node cooperation in mobile ad hoc networks, Proceedings of the IFIP TC6/TC11 Sixth Joint Working Conference on Communications and Multimedia Security: Advanced Communications and Multimedia Security, p.107-121, September 26-27, 2002
	14	P. Michiardi and R. Molva. Analysis of coalition formation and cooperation strategies in mobile ad hoc networks. Ad Hoc Networks, 3(2):193--219, Mar. 2005.
	15	Fabio Milan , Juan José Jaramillo , R. Srikant, Achieving cooperation in multihop wireless networks of selfish nodes, Proceeding from the 2006 workshop on Game theory for communications and networks, October 14-14, 2006, Pisa, Italy [doi>10.1145/1190195.1190197]
	16	J. Mundinger and J.-Y. Le Boudec. The impact of liars on reputation in social networks. In Proc. of Social Network Analysis: Advances and Empirical Applications Forum, Oxford, UK, July 2005.
	17	M. Tamer Refaei , Vivek Srivastava , Luiz DaSilva , Mohamed Eltoweissy, A Reputation-based Mechanism for Isolating Selfish Nodes in Ad Hoc Networks, Proceedings of the The Second Annual International Conference on Mobile and Ubiquitous Systems: Networking and Services, p.3-11, July 17-21, 2005 [doi>10.1109/MOBIQUITOUS.2005.7]
	18	V. Srinivasan, P. Nuggehalli, C. F. Chiasserini, and R. R. Rao. Energy efficiency of ad hoc wireless networks with selfish users. In Proc. European Wireless Conference, Florence, Italy, Feb. 2002.
	19	V. Srinivasan, P. Nuggehalli, C. F. Chiasserini, and R. R. Rao. Cooperation in wireless ad hoc networks. In Proc. IEEE INFOCOM '03, volume 2, pages 808--817, San Francisco, CA, Mar./Apr. 2003.
	20	R. Sugden. The Economics of Rights, Cooperation and Welfare. Blackwell Publishing, 1986.
	21	J. Wu and R. Axelrod. How to cope with noise in the iterated prisoner's dilemma. The Journal of Conflict Resolution, 39(1):183--189, Mar. 1995.
	22	S. Zhong, J. Chen, and Y. R. Yang. Sprite: A simple, cheat-proof, credit-based system for mobile ad-hoc networks. In Proc. IEEE INFOCOM '03, volume 3, pages 1987--1997, San Francisco, CA, Mar./Apr. 2003.

CITED BY 5

	Lu Yan , Stephen Hailes, Optimal forwarding for wireless ad hoc networks with game theory, International Journal of Autonomous and Adaptive Communications Systems, v.1 n.4, p.447-464, November 2008
	Azzedine Boukerche , Yonglin Ren, A security management scheme using a novel computational reputation model for wireless and mobile ad hoc networks, Proceedings of the 5th ACM symposium on Performance evaluation of wireless ad hoc, sensor, and ubiquitous networks, October 27-28, 2008, Vancouver, British Columbia, Canada
	Iordanis Koutsopoulos , George Iosifidis, Distributed resource allocation algorithms for peer-to-peer networks, Proceedings of the 3rd International Conference on Performance Evaluation Methodologies and Tools, October 20-24, 2008, Athens, Greece
	Hamed Janzadeh , Kaveh Fayazbakhsh , Mehdi Dehghan , Mehran S. Fallah, A secure credit-based cooperation stimulating mechanism for MANETs using hash chains, Future Generation Computer Systems, v.25 n.8, p.926-934, September, 2009
	Chengqi Song , Qian Zhang, OMH: suppressing selfish behavior in ad hoc networks with One More Hop, Proceedings of the 5th International ICST Conference on Heterogeneous Networking for Quality, Reliability, Security and Robustness, July 28-31, 2008, Hong Kong