From Adaptive Communication Anti‐Jamming to Intelligent Communication Anti‐Jamming: 50 Years of Evolution

Zhou, Quan; Niu, Yingtao

doi:10.1002/aisy.202300853

Advanced Intelligent Systems

2024

DOI: 10.1002/aisy.202300853

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From Adaptive Communication Anti‐Jamming to Intelligent Communication Anti‐Jamming: 50 Years of Evolution

Quan Zhou,

Yingtao Niu

Abstract: Herein, a comprehensive review of the evolution of intelligent communication anti‐jamming techniques is provided. First, a clear definition of the concept and elaboration on the inherent connotations and capability characteristics of intelligent communication anti‐jamming is provided. Additionally, the initial construction of an intelligent communication anti‐jamming system architecture is outlined. Subsequently, the development of intelligent communication anti‐jamming is delved, tracing its progression from … Show more

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Cited by 3 publications

References 109 publications

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Anti-jamming for cognitive radio networks with Stackelberg game-assisted DSSS approach

Imran,

Zhiwen,

Nan

et al. 2024

J Wireless Com Network

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Anti-jamming for cognitive radio networks with Stackelberg game-assisted DSSS approach

Imran,

Zhiwen,

Nan

et al. 2024

J Wireless Com Network

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Anti-Jamming Power Control Algorithm for Wireless Communication Systems Based on MPC

Yu,

Niu,

Yao

et al. 2024

Electronics

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In complex electromagnetic environments, wireless communication system reliability can be compromised by various types of jamming. To improve reliability in the presence of malicious jamming, this paper introduces an anti-jamming power control algorithm for wireless communication systems, grounded in model predictive control (MPC) principles. The algorithm models the Yescommunication system as a linear control system, using the current signal-to-jamming-and-noise ratio (SJNR) to predict future system states and transmission power over a defined time horizon. Only the first element of the optimal control sequence is then applied to manage system power. Simulation results indicate that, compared to traditional adaptive power control algorithms, the proposed algorithm responds more swiftly to jamming variations, significantly enhancing communication reliability in high-jamming environments.

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A Distributed RF Threat Sensing Architecture

Michalis,

Rousias,

Kanaris

et al. 2024

Information

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The scope of this work is to propose a distributed RF sensing architecture that interconnects and utilizes a cyber security operations center (SOC) to support long-term RF threat monitoring, alerting, and further centralized processing. For the purpose of this work, RF threats refer mainly to RF jamming, since this can jeopardize multiple wireless systems, either directly as a Denial of Service (DoS) attack, or as a means to force a cellular or WiFi wireless client to connect to a malicious system. Furthermore, the possibility of the suggested architecture to monitor signals from malicious drones in short distances is also examined. The work proposes, develops, and examines the performance of RF sensing sensors that can monitor any frequency band within the range of 1 MHz to 8 GHz, through selective band pass RF filtering, and subsequently these sensors are connected to a remote SOC. The proposed sensors incorporate an automatic calibration and time-depended environment RF profiling algorithm and procedure for optimizing RF jamming detection in a dense RF spectrum, occupied by heterogeneous RF technologies, thus minimizing false-positive alerts. The overall architecture supports TCP/IP interconnections of multiple RF jamming detection sensors through an efficient MQTT protocol, allowing the collaborative operation of sensors that are distributed in different areas of interest, depending on the scenario of interest, offering holistic monitoring by the centralized SOC. The incorporation of the centralized SOC in the overall architecture allows also the centralized application of machine learning algorithms on all the received data.

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From Adaptive Communication Anti‐Jamming to Intelligent Communication Anti‐Jamming: 50 Years of Evolution

Cited by 3 publications

References 109 publications

Anti-jamming for cognitive radio networks with Stackelberg game-assisted DSSS approach

Anti-jamming for cognitive radio networks with Stackelberg game-assisted DSSS approach

Anti-Jamming Power Control Algorithm for Wireless Communication Systems Based on MPC

A Distributed RF Threat Sensing Architecture

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