Litcius/Paper detail

Intelligent Anti-Jamming Communication for Wireless Sensor Networks: A Multi-Agent Reinforcement Learning Approach

Quan Zhou, Yonggui Li, Yingtao Niu

2021IEEE Open Journal of the Communications Society61 citationsDOIOpen Access PDF

Abstract

In this article, we investigate intelligent anti-jamming communication method for wireless sensor networks. The stochastic game framework is introduced to model and analyze the multi-user anti-jamming problem, and a joint multi-agent anti-jamming algorithm (JMAA) is proposed to obtain the optimal anti-jamming strategy. In intelligent multi-channel blocking jamming environment, the proposed JMAA adopts multi-agent reinforcement learning to make online channel selection, which can effectively tackle the external malicious jamming and avoid the internal mutual interference among sensor nodes. The simulation results show that, the proposed JMAA is superior to the frequency-hopping method, the sensing-based method and the independent reinforcement learning. Specifically, the proposed JMAA has the higher average packet receive ratio than both the frequency-hopping method and the sensing-based method. Compared with the independent reinforcement learning, JMAA has faster convergence rate when reaching the same performance of average packet receive ratio. In addition, since the JMAA does not need to model the jamming patterns, it can be widely used for combating other malicious jamming such as sweep jamming and probabilistic jamming.

Topics & Concepts

JammingReinforcement learningComputer scienceFrequency-hopping spread spectrumChannel (broadcasting)Interference (communication)Wireless sensor networkWirelessNetwork packetComputer networkArtificial intelligenceTelecommunicationsPhysicsThermodynamicsSecurity in Wireless Sensor NetworksDistributed Control Multi-Agent SystemsEnergy Efficient Wireless Sensor Networks