multitask learning-based security event forecast methods for wireless sensor networks

multitask learning-based security event forecast methods for wireless sensor networks

;Hui He;Dongyan Zhang;Xing Wang;Min Liu;Weizhe Zhang;Junxi Guo
BMC infectious diseases 2016 Vol. 2016 pp. -
78
he2016journalmultitask

Abstract

Wireless sensor networks have strong dynamics and uncertainty, including network topological changes, node disappearance or addition, and facing various threats. First, to strengthen the detection adaptability of wireless sensor networks to various security attacks, a region similarity multitask-based security event forecast method for wireless sensor networks is proposed. This method performs topology partitioning on a large-scale sensor network and calculates the similarity degree among regional subnetworks. The trend of unknown network security events can be predicted through multitask learning of the occurrence and transmission characteristics of known network security events. Second, in case of lacking regional data, the quantitative trend of unknown regional network security events can be calculated. This study introduces a sensor network security event forecast method named Prediction Network Security Incomplete Unmarked Data (PNSIUD) method to forecast missing attack data in the target region according to the known partial data in similar regions. Experimental results indicate that for an unknown security event forecast the forecast accuracy and effects of the similarity forecast algorithm are better than those of single-task learning method. At the same time, the forecast accuracy of the PNSIUD method is better than that of the traditional support vector machine method.

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ID: 168211
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0x95644003c57E6F55A65596E3D9Eac6813e3566dA
Article ID:
168211
Unique Identifier:
10.1155/2016/6047023
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Scimatic Chain (ID: 481)
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