Paper Info
Title
A frequency hopping algorithm against jamming attacks under asynchronous environments
Abstract
Uncoordinated frequency hopping has been considered as an important technique for anti-jamming communications. In uncoordinated frequency hopping systems, nodes randomly switch over multiple frequencies without pre-shared keys. Upon rendezvous on the same frequency, they can communicate with each other. Existing algorithms, however, require role (sender/receiver) pre-assignment before frequency hopping. Such approaches only support the communication between sender-receiver pairs (i.e., the communication between a node pair whose receiver play a sender role is not guaranteed). In this paper, we propose a low computation cost and symmetric-role frequency hopping algorithm (i.e., no role pre-assignment requirement). Our proposed algorithm has bounded maximal time to rendezvous under asynchronous scenarios.
Year
DOI
Venue
2014
10.1109/GLOCOM.2014.7036828
GLOBECOM
Keywords
Field
DocType
symmetric-role frequency hopping algorithm,anti-jamming,asynchronous environment,frequency hopping,asynchronous,uncoordinated frequency hopping system,wireless security,jamming attack,sender-receiver preassignment,telecommunication security,jamming,symmetric-role,anti-jamming communication,frequency hop communication,time frequency analysis,spread spectrum communication,wireless communication,ad hoc networks,entropy
Asynchronous communication,Wireless,Computer science,Computer network,Algorithm,Rendezvous,Time–frequency analysis,Wireless ad hoc network,Frequency-hopping spread spectrum,Jamming,Spread spectrum
Conference
ISSN
Citations 
PageRank 
2334-0983
4
0.38
References 
Authors
9
3
Name
Order
Citations
PageRank
Guey-Yun Chang127317.86
Jen-Feng Huang2111.30
Zhenghua Wu3405.01