混合TR–RTM方法在多层介质中的目标检测和定位

IF 1.1 4区工程技术 Q3 ENGINEERING, MULTIDISCIPLINARY

Inverse Problems in Science and Engineering Pub Date : 2021-08-26 DOI:10.1080/17415977.2021.1948543

Xiang Gao, Xiafei Li, Hong-juan Yang, J. Jiao, Cheng-hao Wang

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引用次数: 2

摘要

分层介质中的目标检测和定位问题可以通过混合TR–RTM来解决。本文的重点是多层介质，由于多个界面反射信号的干扰，目标比双层介质更难检测。TR–RTM混合方法的核心思想，即RTM等时性原理，被应用于这三种情况。通常，TR–RTM工艺下的目标可以形成山脉状的声场分布。对于反射信号为干涉的界面，声场分布是无序和不均匀的，振幅较小。TR–RTM极大地提高了信干比，其中顶点的位置就是目标的正确位置，从而检测和定位目标。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Target-detection and localization in multilayered media through mixed TR–RTM method

The problem of target detection and localization in layered media can be solved by the mixed TR–RTM. The highlight of this paper is on multilayer media, where the target is harder to detect than in double-layered media, due to the interference of multiple interface reflection signals. The core idea of the TR–RTM mixed method, namely the RTM isochronism principle, is applied for the three cases. Typically, a target under a TR–RTM process can form a mountain-like acoustic field distribution. For the interface whose reflected signal is an interference, the acoustic field distribution is disordered and inhomogeneous, with a smaller amplitude. The TR–RTM greatly improves the signal-to-interference ratio, where the position of the summit is the just position of the target, thus, detecting and localizing the target.

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来源期刊

Inverse Problems in Science and Engineering 工程技术-工程：综合

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： Inverse Problems in Science and Engineering provides an international forum for the discussion of conceptual ideas and methods for the practical solution of applied inverse problems. The Journal aims to address the needs of practising engineers, mathematicians and researchers and to serve as a focal point for the quick communication of ideas. Papers must provide several non-trivial examples of practical applications. Multidisciplinary applied papers are particularly welcome. Topics include: -Shape design: determination of shape, size and location of domains (shape identification or optimization in acoustics, aerodynamics, electromagnets, etc; detection of voids and cracks). -Material properties: determination of physical properties of media. -Boundary values/initial values: identification of the proper boundary conditions and/or initial conditions (tomographic problems involving X-rays, ultrasonics, optics, thermal sources etc; determination of thermal, stress/strain, electromagnetic, fluid flow etc. boundary conditions on inaccessible boundaries; determination of initial chemical composition, etc.). -Forces and sources: determination of the unknown external forces or inputs acting on a domain (structural dynamic modification and reconstruction) and internal concentrated and distributed sources/sinks (sources of heat, noise, electromagnetic radiation, etc.). -Governing equations: inference of analytic forms of partial and/or integral equations governing the variation of measured field quantities.