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基于高性能瞬变电磁辐射源的城市地下空间多分辨成像方法研究

本站小编 Free考研考试/2022-01-03

李文翰1,,
刘斌1,,,
李术才1,
李贺2,
鲁凯亮2,
李貅2
1. 山东大学齐鲁交通学院, 济南 250061
2. 长安大学地质工程与测绘学院, 西安 710054

基金项目: 国家自然科学基金(41830101), 国家博士后基金(31560070311128)资助


详细信息
作者简介: 李文翰, 男, 1987年生, 博士后.主要从事地球物理瞬变电磁数值模拟算法和新型辐射源的研究.E-mail:lwh1987726@sina.com
通讯作者: 刘斌, 男, 1983年生, 教授.主要从事隧道超前预报的研究.E-mail:liubin0635@163.com
中图分类号: P631

收稿日期:2020-08-11
修回日期:2020-11-03
上线日期:2020-12-05



Study on multi-resolution imaging method of urban underground space based on high performance transient electromagnetic source

LI WenHan1,,
LIU Bin1,,,
LI ShuCai1,
LI He2,
LU KaiLiang2,
LI Xiu2
1. School of Qilu Transportation, Shandong University, Jinan 250061, China
2. College of Geology Engineering and Geomatics, Chang'an University, Xi'an 710054, China


More Information
Corresponding author: LIU Bin,E-mail:liubin0635@163.com
MSC: P631

--> Received Date: 11 August 2020
Revised Date: 03 November 2020
Available Online: 05 December 2020


摘要
城市地下空间的高精度、多分辨探测是城市地下合理开发的前提.由于城市探测环境的特殊性,需要探测方法具备抗干扰能力强、分辨能力好、分异多尺度地下目标等特性,现有的物探方法难以兼顾城市地下空间的探测需要.本文利用三维矢量有限元方法为正演手段,在瞬变电磁高性能辐射源进行微分脉冲扫描的基础上,对探测数据进行多时窗的扫时波场变换,将微分脉冲扫描后的多分辨响应信息,进行多分辨信息提取.同时通过地震探测中的多次覆盖处理,提高探测场对地下目标的分辨能力,最后对多次叠加后的虚拟波场进行拟地震偏移成像,最终实现城市地下空间的高精度探测.
瞬变电磁/
高性能辐射源/
波场变换/
拟地震偏移成像

High-precision and multi-scale detection of urban underground space is the prerequisite for the rational development of urban underground. Due to the particularity of the urban detection environment, the detection method needs to have the characteristics of strong anti-interference ability, good resolution ability and differentiation of multi-scale underground targets. The existing geophysical methods cannot meet the needs of urban underground space detection. In this paper, the scales of underground targets vary greatly in urban underground space, and traditional transient electromagnetic methods (TEM) are difficult to distinguish the multi-scale targets. As an effective forward modeling method, the three-dimensional vector finite element method can analyze the emission characteristics of TEM. In the previous article, the author discussed in detail the emission characteristics of transient electromagnetic high-performance radiation sources, and used transient electromagnetic differential pulses for pulse scanning detection, and demonstrated the effectiveness of differential pulse scanning detection by comparison. This paper performs the wave-field transformation by multi-windows scanning on the detection data after the differential pulse-scanning detection. The wave-field transformation by window scanning is an important method to improve the resolution of detection. The window scanning can highlight the response of the corresponding depth and scale. By changing the size of the window, the response of different depths and scales can be highlighted, and multi-scale information extraction can be realized. In order to improve the resolution of the wave-field, the multiple coverage technology is used to process the wave-field. Finally, pseudo-seismic migration imaging is performed on the wave-field after multiple superposition to realize high-precision detection of urban underground space. In summary, with the assistance of high-performance transient electromagnetic radiation sources and multi-resolution pulse scanning technology, the wave-field conversion is improved accordingly. While enhancing the detection information, the multi-resolution response information is extracted to improve the resolution. However, the structure and material of the urban underground are complicated, the corresponding electrical parameters and electromagnetic field velocity are relatively complicated, and further research is needed for the velocity analysis of the wave-field; secondly, the calculation stability of the wave field transformation needs to be further strengthened. The solution method of the wave-field transformation equation needs to be further improved to make sure the stability of the calculation; finally, the imaging method using the combination of apparent resistivity and migration imaging is the future research after this article.
Transient electromagnetic method/
High-performance sources/
Wave-field transformation/
Quasi seismic migration imaging



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