Extremely-ultra low frequency channel atmosphere noise suppression method based on variance median filtering
A kind of atmospheric noise and ultra-low frequency technology, applied in the direction of electrical components, transmission systems, etc., to achieve the effect of improving accuracy, simple operation steps, and improving low performance
Inactive Publication Date: 2017-08-11
NAVAL UNIV OF ENG PLA
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[0005] For the deficiencies in the above-mentioned existing methods in extremely/ultra-low frequency channel atmospheric noise suppression, the purpose of the present invention is to propose a method for suppressing atmos
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[0040] Below in conjunction with accompanying drawing and specific embodiment the present invention is described in further detail:
[0041] figure 1 It is a schematic diagram of the signal processing flow involved in the present invention, and each step is described in detail as follows:
[0042] The first step: The receiving system adopts the scheme of local orthogonal layout of multiple sets of reference sensors and a main sensor to construct a multi-reference magnetic vector sensing system. Among them, the main sensor is placed in the cavity of the electrically shielded aluminum shell, and the U group of reference sensors is uniformly fixed on the outer surface of the aluminum shell at a certain space interval along the axis of the main sensor core. Each set of reference sensors includes two orthogonal sensors. It forms a three-axis magnetic vector sensor structure with the main sensor; the sensor adopts a miniaturized, narrow-band, high-sensitivity inductive magnetic fie...
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The invention relates to the technical field of radio long wave communication technology, and specifically relates to an extremely-ultra low frequency channel atmosphere noise suppression method based on variance median filtering. The extremely-ultra low frequency channel atmosphere noise suppression method based on variance median filtering includes the steps: constructing a multi-reference magnetic vector sensing system, synchronously receiving extremely-ultra low frequency signals through multi channels, and obtaining a magnetic induction output sampling point matrix X; according to the channel sampling point sequence, grouping X, estimating the variance of each group, and obtaining the variance matrix D; based on a large number decision criterion, performing pulse detection and two-stage adaptive median filtering on D; according to output of the second stage median filtering and input of the first stage median filtering, performing sequence reconstruction, and obtaining an output matrix Y; and performing power frequency harmonic interference and remaining atmosphere noise suppression on Y. As the extremely-ultra low frequency channel atmosphere noise suppression method based on variance median filtering taking the variance of the sampling point group as input of the adaptive median filter, the impulsiveness is improved. As the extremely-ultra low frequency channel atmosphere noise suppression method based on variance median filtering determines the pulse state of each element of the variance matrix based on the large number decision criterion, the pulse detection accuracy is improved and the defect that the performance is low when the median filtering is in the local high density pulse noise condition in the traditional method.
Description
technical field [0001] The invention relates to the technical field of radio long-wave communication, in particular to a method for suppressing atmospheric noise in extremely / ultra-low frequency channels based on variance median filtering. Background technique [0002] The signal attenuation rate of extremely / ultra-low frequency communication (3Hz~300Hz) is small, and it can penetrate the formation and seawater to reach a certain depth, so it has gained certain application prospects in the fields of mine emergency communication and positioning, underwater unmanned vehicle navigation, etc. . The main factor affecting the performance of extremely / ultra-low frequency communication is the signal-to-noise ratio at the receiving end. Usually, the electromagnetic interference of extremely / ultra-low frequency communication mainly comes from channel atmospheric noise and local man-made interference. Channel atmospheric noise is caused by natural lightning activities. Thunderstorms...
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Login to view more IPC IPC(8): H04B1/10H04B1/719
CPCH04B1/10H04B1/1036H04B1/719
Inventor 赵鹏蒋宇中张曙霞翟琦刘月亮应文威李春腾
Owner NAVAL UNIV OF ENG PLA
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