Reputation based approach for improved fairness and robustness in P2P protocols

Nwebonyi, F.N ORCID: 0000-0003-1566-2560, Martins, R and Correia, M.E (2018) 'Reputation based approach for improved fairness and robustness in P2P protocols.' Peer-to-Peer Networking and Applications, 12. pp. 951-968.

Abstract

Peer-to-Peer (P2P) overlay networks have gained popularity due to their robustness, cost advantage, network efficiency and openness. Unfortunately, the same properties that foster their success, also make them prone to several attacks. To mitigate these attacks, several scalable security mechanisms which are based on the concepts of trust and reputation have been proposed. These proposed methods tend to ignore some core practical requirements that are essential to make them more useful in the real world. Some of such requirements include efficient bootstrapping of each newcomer’s reputation, and mitigating seeder(s) exploitation. Additionally, although interaction among participating peers is usually the bases for reputation, the importance given to the frequency of interaction between the peers is often minimized or ignored. This can result in situations where barely known peers end-up having similar trust scores to the well-known and consistently cooperative nodes. After a careful review of the literature, this work proposes a novel and scalable reputation based security mechanism that addresses the aforementioned problems. The new method offers more efficient reputation bootstrapping, mitigation of bandwidth attack and better management of interaction rate, which further leads to improved fairness. To evaluate its performance, the new reputation model has been implemented as an extension of the BitTorrent protocol. Its robustness was tested by exposing it to popular malicious behaviors in a series of extensive PeerSim simulations. Results show that the proposed method is very robust and can efficiently mitigate popular attacks on P2P overlay networks.

Item Type:	Article
UN SDGs:	Goal 9: Industry, Innovation and Infrastructure
Keywords:	trust, P2P, edge clouds, reputation, security
Subjects:	Q Science > Q Science (General)
Divisions:	Bath School of Design
Date Deposited:	20 Mar 2025 15:50
Last Modified:	20 Mar 2025 15:50
ISSN:	1936-6450
URI / Page ID:	https://researchspace.bathspa.ac.uk/id/eprint/16854

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