Improved Active Interference Canceling Algorithms for Real-Time Protection of 2nd/3rd Level Facilities in Electronic Warfare Environment

Jaejoong Lee,Ki Hwan Jung,Yeongyoon Choi,Hyun-Kyo Jung,Young-Seek Chung

doi:10.3390/app10072405

Abstract

In an electronic warfare environment, important equipment or facilities of the friendlies are placed in protective facilities to protect against external Electronic Attacks (EA). No matter how well shielded the facility is, some external electromagnetic waves may penetrate through various paths such as power lines or fans, and the electromagnetic waves may be fatal to certain devices due to the structural resonance of the protective facilities. This paper introduced a real-time electromagnetic canceling technique that removes the resonance field inside the protection facility caused by the intended electronic attack from the enemy. The method makes it possible to cancel the process much faster than the conventional ones that have applied the Matrix Pencil Method (MPM). This is because the internal resonant field can be predicted in a closed-form under the assumption that the external electromagnetic wave is a complex exponential function. Longer exposure to Intended Electromagnetic Interference (IEMI) could be fatal for some devices. Therefore, it is imperative to attenuate the noise within a short time, and a method of reducing internal noise in real-time is beneficial for Electronic Protection (EP). The proposed method could be applied as a new technique to protect important protection facilities, rather than the more traditional method called wrapping using the Faraday cage effect.

Highlights

Electronic warfare is classified into an Electronic Attack (EA), Electronic Protection (EP), and Electronic Support (ES), and various researches are being conducted in each field [1,2]
The real-time active interference cancellation algorithm was proposed for external intended electromagnetic interference penetrating from the 2nd level to 3rd level
The proposed algorithm can be calculated from 20 to 100 times faster than the existing research using the Matrix Pencil Method (MPM), and it is confirmed that the electric field is canceled inside the resonator using the Computer Simulation Technology (CST) microwave studio tool

Summary

Introduction

Electronic warfare is classified into an Electronic Attack (EA), Electronic Protection (EP), and Electronic Support (ES), and various researches are being conducted in each field [1,2]. While all areas are essential, their importance is increasing as the EPs must defend the electronic devices or facilities of friendlies from external attacks. The external attack is typically conducted using a radar jammer. An analysis of jamming effectiveness is one of the most important studies of electronic warfare. There are several types of research on the calculations of jamming effectiveness [3,4]. Electronic protection facilities are made of metal to defend against attacks from the outside, and they are defended using the Faraday cage effect. In reality, it is impossible to make a complete

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