Paper Info
Title
Secrecy-based channel assignment for device-to-device communication: An auction approach
Abstract
Device-to-device (D2D) communication has revealed great potential to satisfy the soaring wireless data demands. As a key point, interference management should be carefully investigated. Different from the view that D2D transmissions cause harmful interference to cellular communication when reusing the same channels, we deem such interference as a kind of spontaneous interference against eavesdropping and use this interference to guarantee the secrecy capacity of cellular communication. Hence D2D pairs could have their own D2D transmission without violating secrecy-based cellular communication. Also, we utilize secrecy outage probability to overcome the difficulty in accurately obtaining channel gains at the eavesdropper. On the other hand, we take the advantage of auction algorithm to derive the channel assignment policy, such that multiple D2D pairs are assigned different channels with low complexity. Simulation results demonstrate that our algorithm works well and converges quickly.
Year
DOI
Venue
2013
10.1109/WCSP.2013.6677244
WCSP
Keywords
Field
DocType
spontaneous interference,d2d communication,channel assignment policy,secrecy-based cellular communication,radiofrequency interference,cellular radio,auction algorithm,channel assignment,eavesdropper,secrecy-based channel assignment,device-to-device communication,wireless data demands,channel gains,channel allocation,secrecy outage probability,auction approach,harmful interference,telecommunication security,interference management,probability
Eavesdropping,Computer science,Cellular communication,Reuse,Secrecy,Communication channel,Computer network,Interference (wave propagation),Channel allocation schemes,Auction algorithm
Conference
ISSN
Citations 
PageRank 
2325-3746
8
0.53
References 
Authors
16
5
Name
Order
Citations
PageRank
Jianting Yue1835.25
Chuan Ma21406.72
Hui Yu320018.98
Zhen Yang491.22
Xiaoying Gan534448.16