Signal Property Information-Based Target Detection with Dual-Output Neural Network in Complex Environments

The performance of traditional model-based constant false-alarm ratio (CFAR) detection algorithms can suffer in complex environments, particularly in scenarios involving multiple targets (MT) and clutter edges (CE) due to an imprecise estimation of background noise power level. Furthermore, the fixe...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Switzerland), 2023-05, Vol.23 (10), p.4956
Main Authors: Shen, Lu, Su, Hongtao, Mao, Zhi, Jing, Xinchen, Jia, Congyue
Format: Article
Language:English
Subjects:
Algorithms
Analysis
Background noise
Clutter
Control theory
Detectors
dual-output network
dynamic-intelligent threshold
False alarms
Neural networks
radar signal processing
Sensors
Signal processing
signal property information
SISO (control systems)
target detection
Velocity
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Summary:The performance of traditional model-based constant false-alarm ratio (CFAR) detection algorithms can suffer in complex environments, particularly in scenarios involving multiple targets (MT) and clutter edges (CE) due to an imprecise estimation of background noise power level. Furthermore, the fixed threshold mechanism that is commonly used in the single-input single-output neural network can result in performance degradation due to changes in the scene. To overcome these challenges and limitations, this paper proposes a novel approach, a single-input dual-output network detector (SIDOND) using data-driven deep neural networks (DNN). One output is used for signal property information (SPI)-based estimation of the detection sufficient statistic, while the other is utilized to establish a dynamic-intelligent threshold mechanism based on the threshold impact factor (TIF), where the TIF is a simplified description of the target and background environment information. Experimental results demonstrate that SIDOND is more robust and performs better than model-based and single-output network detectors. Moreover, the visual explanation technique is employed to explain the working of SIDOND.
ISSN:1424-8220
1424-8220
DOI:10.3390/s23104956