Abstract
This thesis presents a mural broadcast authentication protocol (MBAP) for wireless sensor networks based on Fourier series according to the issues of the main broadcast authentication protocol µTESLA being limited in authentication delay, more initial parameters, limited time, large key chain, and network congestion. Firstly, achieving the forward authentication work for common sensor nodes to base station is based on the characteristic of continuous-integrability function [Formula: see text] in [Formula: see text] which could be expanded into Fourier series, including entity authentication and source attestation. Secondly, assume that [Formula: see text] is the quadratic form function, and achieve the reverse authentication work for base station to common sensor nodes by detecting the security of [Formula: see text]. The analysis results of safety performance in MBAP show that the captured nodes in WSN will not affect the security of broadcast authentication protocol and have low computation and communication cost, the base station can make broadcast randomly, and common sensor nodes can authenticate messages instantly, which solves the problem of network congestion well. The most important thing of MBAP is the mutual broadcast authentication method which ensures the security of the network greatly.
Highlights
In wireless sensor networks (WSN), in order to save the network bandwidth and the communication time, the base station and the cluster heads generally send messages to the common sensor nodes by broadcasting
The mutual authentication between nodes and base station is achieved according to the characteristic of continuous-integrability function f(x) in [−π, π] which could be expanded into Fourier series
Assuming that f(x) is the quadratic form function and achieving the reverse authentication work for base station to common sensor nodes by detecting the security of f(x), it means that the mutual broadcast authentication protocol (MBAP) protocol can achieve mutual security authentication
Summary
In wireless sensor networks (WSN), in order to save the network bandwidth and the communication time, the base station and the cluster heads generally send messages to the common sensor nodes by broadcasting. There are two kinds of WSN broadcast authentication protocols: one is the signature authentication [9,10,11], but it is hard to be applied because of the disadvantage of using public key cryptography and large cost, and the other one is the message authentication code (MAC) [12,13,14,15], such as the μTESLA which is proposed as the broadcast authentication protocol by Perrig based on the security protocols for sensor networks in [15], International Journal of Distributed Sensor Networks which realizes the asymmetry of broadcast authentication by using the symmetric encryption mechanism, and including three key parts: key establishment, disclosing authentication key, and authenticating broadcast data. The analysis results of safety performance in MBAP show that the captured nodes in WSN will not affect the security of broadcast authentication protocol and have low computation and communication cost, the base station can make broadcast randomly, and common sensor nodes can authenticate messages instantly, which solves the problem of network congestion well.
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