Intelligent recognition method for geological radar echo signal physical property deconstruction and detection target digital reconstruction

Abstract

An intelligent recognition method for geological radar echo signal physical property deconstruction and detection target digital reconstruction is disclosed. In the method, the characteristic that a geological radar reflected wave signal has the unique resonance of the frequency response and detection target body frequency response features during the propagation of an underground medium are utilized, an intensity value of the spectral energy contribution rate of the measured target medium response frequency is calculated, inversion and analysis are performed, deep, weak or tiny reflected signals are effectively extracted and identified, interference of clutter signals are removed, and the spatial distribution of the intensity of the spectral energy contribution rate of underground targetbodies or anomaly bodies is interpreted. According to the invention, the detection depth of a geological radar and the accuracy of the interpretation are substantially improved, the uncertainty of theinterpretation of the geological radar results due to the constraints of the differences of data interpreters or the lack of experience and the like is reduced, the problem of the multi-solution of underground anomaly interpretation of the geological radar exploration to some extent is solved, the intelligent recognition of target body reconstruction and anomaly body features can be realized, andthus a new method for digital signal processing and analysis interpretation is provided for the geological radar detection technology.

Description

Technical field: [0001] The invention relates to the fields of engineering geophysical prospecting and geological survey, in particular to an intelligent recognition method for physical property deconstruction of geological radar echo signals and digital reconstruction of detection targets. Background technique: [0002] With the rapid development of urban modernization, large-scale high-rise buildings, ultra-deep underground foundations, and intricate rail transit and other infrastructure constructions are increasing. Geological exploration tasks and geological problems are also increasing and prominent. The original traditional geological Reconnaissance techniques and methods are in many cases a little "helpless". The geological radar with the characteristics of fast, non-destructive, and high efficiency has become an effective technical means widely used in the field of engineering geological survey, but the propagation process of electromagnetic waves in the ground is ve...

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Problems solved by technology

The geological radar with the characteristics of fast, non-destructive, and high efficiency has become an effective technical means widely used in the field of engineering geological survey, but the propagation process of electromagnetic waves in the ground is very complicated and the attenuation is serious, and the reflection signals of deep formations or small geological bodies are often very poor However, the interference signals of various noises and clutters are ver

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