RECON: A novel approach to fighting unreliability in peer-to-peer grids

Hailong Sun; Jinpeng Huai; Xudong Liu; Jing Li

doi:10.1504/IJGUC.2011.040595

RECON: A novel approach to fighting unreliability in peer-to-peer grids

Hailong Sun^*
, Jinpeng Huai
, Xudong Liu
, Jing Li

^*Corresponding author for this work

Beihang University

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Peer-to-peer and grid computing are two important and successful computing paradigms. In peer-to-peer grids, resources are usually unreliable due to the lack of centralised control. Thus, it is critical to design a mechanism to enable reliable task execution in unreliable resource environments like peer-to-peer grids. In this work, we present RECON, which combines reliability and economic incentives to achieve such a goal. RECON aims at ensuring consumer tasks to be reliably executed while the economic revenue of service peers is maximised. First, we design a scheme to determine the minimum reliability threshold based on the bidding price of a consumer. Second, we propose a group of scheduling heuristics to obtain the maximum revenue of service providers under the constraint of the computed reliability threshold. Finally, we perform extensive simulations to evaluate the effectiveness of our solution.

Original language	English
Pages (from-to)	77-84
Number of pages	8
Journal	International Journal of Grid and Utility Computing
Volume	2
Issue number	2
DOIs	https://doi.org/10.1504/IJGUC.2011.040595
State	Published - Jun 2011

Keywords

Grid computing
Peer-to-peer
Reliability
Scheduling

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title = "RECON: A novel approach to fighting unreliability in peer-to-peer grids",

abstract = "Peer-to-peer and grid computing are two important and successful computing paradigms. In peer-to-peer grids, resources are usually unreliable due to the lack of centralised control. Thus, it is critical to design a mechanism to enable reliable task execution in unreliable resource environments like peer-to-peer grids. In this work, we present RECON, which combines reliability and economic incentives to achieve such a goal. RECON aims at ensuring consumer tasks to be reliably executed while the economic revenue of service peers is maximised. First, we design a scheme to determine the minimum reliability threshold based on the bidding price of a consumer. Second, we propose a group of scheduling heuristics to obtain the maximum revenue of service providers under the constraint of the computed reliability threshold. Finally, we perform extensive simulations to evaluate the effectiveness of our solution.",

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author = "Hailong Sun and Jinpeng Huai and Xudong Liu and Jing Li",

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T2 - A novel approach to fighting unreliability in peer-to-peer grids

AU - Sun, Hailong

AU - Huai, Jinpeng

AU - Liu, Xudong

AU - Li, Jing

PY - 2011/6

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AB - Peer-to-peer and grid computing are two important and successful computing paradigms. In peer-to-peer grids, resources are usually unreliable due to the lack of centralised control. Thus, it is critical to design a mechanism to enable reliable task execution in unreliable resource environments like peer-to-peer grids. In this work, we present RECON, which combines reliability and economic incentives to achieve such a goal. RECON aims at ensuring consumer tasks to be reliably executed while the economic revenue of service peers is maximised. First, we design a scheme to determine the minimum reliability threshold based on the bidding price of a consumer. Second, we propose a group of scheduling heuristics to obtain the maximum revenue of service providers under the constraint of the computed reliability threshold. Finally, we perform extensive simulations to evaluate the effectiveness of our solution.

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KW - Reliability

KW - Scheduling

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RECON: A novel approach to fighting unreliability in peer-to-peer grids

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Keywords

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