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Magnetic Anomaly Detection Based on a Compound Tri-Stable Stochastic Resonance System

Jinbo Huang, Zheng Zhen, Yu Zhou, Yuran Tan, Chengjun Wang, Guangbo Xu, Bingting Zha

2023Sensors11 citationsDOIOpen Access PDF

Abstract

In the case of strong background noise, a tri-stable stochastic resonance model has higher noise utilization than a bi-stable stochastic resonance (BSR) model for weak signal detection. However, the problem of severe system parameter coupling in a conventional tri-stable stochastic resonance model leads to difficulty in potential function regulation. In this paper, a new compound tri-stable stochastic resonance (CTSR) model is proposed to address this problem by combining a Gaussian Potential model and the mixed bi-stable model. The weak magnetic anomaly signal detection system consists of the CTSR system and judgment system based on statistical analysis. The system parameters are adjusted by using a quantum genetic algorithm (QGA) to optimize the output signal-to-noise ratio (SNR). The experimental results show that the CTSR system performs better than the traditional tri-stable stochastic resonance (TTSR) system and BSR system. When the input SNR is -8 dB, the detection probability of the CTSR system approaches 80%. Moreover, this detection system not only detects the magnetic anomaly signal but also retains information on the relative motion (heading) of the ferromagnetic target and the magnetic detection device.

Topics & Concepts

Stochastic resonanceNoise (video)SIGNAL (programming language)Control theory (sociology)Computer scienceAnomaly (physics)Anomaly detectionSignal-to-noise ratio (imaging)Stochastic processDetection theoryAlgorithmPhysicsMathematicsArtificial intelligenceStatisticsQuantum mechanicsDetectorTelecommunicationsProgramming languageImage (mathematics)Control (management)stochastic dynamics and bifurcationProbabilistic and Robust Engineering DesignNeural dynamics and brain function
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