Application of multiscale waveform tomography for high-resolution velocity estimation in complex geologic environments: Canadian Foothills synthetic data example

Chaiwoot Boonyasiriwat Paul Valasek Partha Routh and Xianhuai Zhu

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Application of multiscale waveform tomography for high-resolution velocity estimation in complex geologic environments: Canadian Foothills synthetic data example

机译：多尺度波形层析成像技术在复杂地质环境中的高分辨率速度估算中的应用：加拿大山麓丘陵合成数据示例

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Seismic imaging in compressional belts such as the Canadian Foothills is very challenging due to complex geological structures, rugged surface topography, and highly variable near-surface conditions. Seismic sections across the Canadian Foothills are usually progressively more distorted when approaching the Canadian Foothills region. Figure 1 shows the degree of structural complexity and topographic variations which are in part responsible for the deteriorated imaging in the thrust belt. Accurate velocity models of subsurface structures are critical for improving seismic images of thrust belts in both the time domain (e.g., tomostatics) and the depth domain (e.g., prestack depth migration).

机译：由于复杂的地质结构，崎surface的地貌和高度变化的近地表条件，在诸如加拿大山麓丘陵这样的压缩带中，地震成像非常具有挑战性。接近加拿大山麓地区时，加拿大山麓地区的地震剖面通常会逐渐失真。图1显示了结构复杂程度和地形变化的程度，部分原因是推力带中成像质量下降。地下结构的准确速度模型对于在时域（例如，静力学）和深度域（例如，叠前深度偏移）中改善推力带的地震图像至关重要。

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来源
《The Leading Edge》 |2009年第4期|p.454-456|共3页
作者
Chaiwoot Boonyasiriwat Paul Valasek Partha Routh and Xianhuai Zhu;
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Chaiwoot Boonyasiriwat University of Utah Paul Valasek, Partha Routh and Xianhuai Zhu ConocoPhillips;

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原文格式 PDF
正文语种 eng
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high-resolution,multiscale waveform,thrust belts;

机译：高分辨率;多尺度波形;推力带;

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1. Application Of Multiscale Waveform Tomography For High-resolution Velocity Estimation In Complex Geologic Environments: Canadian Foothills Synthetic Data Example [J] . Chaiwoot Boonyasiriwat, Paul Valasek, Partha Routh, Geophysics: the leading edge of exploration . 2009,第4期

机译：多尺度波形层析成像在复杂地质环境中高分辨率速度估算中的应用：加拿大山麓丘陵合成数据示例
2. Imaging high-resolution seismic velocity from walkaway vertical seismic profile data in a carbonate reservoir using acoustic waveform tomography [J] . Takougang Eric M. Takam, Bouzidi Youcef Geophysics: Journal of the Society of Exploration Geophysicists . 2018,第3期

机译：使用声波形断层扫描成像在碳酸盐储层中的散游垂直地震剖面数据的高分辨率地震速度
3. Extracting geologic information directly from high-resolution full-waveform inversion velocity models - A case study from offshore Trinidad [J] . Nick Benfield, Vishram Rambaran, Joel Dowlath, The Leading Edge . 2017,第1期

机译：直接从高分辨率全波形反演速度模型中提取地质信息-以特立尼达海洋为例
4. Velocity Estimation by Waveform Tomography in the Canadian Foothill - A Synthetic Benchmark Study [C] . A.J. Brenders, S. Charles, R. G. Pratt EAGE Conference Exhibition . 2008

机译：加拿大山麓波形断层扫描的速度估计 - 合成基准研究
5. Waveform tomography of a complex model of the lithosphere with two-dimensional, full wavefield, visco-elastic, wide-angle, synthetic seismic data. [D] . Brenders, Andrew James. 2006

机译：复杂的岩石圈模型的波形层析成像，具有二维，全波场，粘弹性，广角，合成地震数据。
6. An Application of Time-Domain Multiscale Waveform Tomography to Marine Data [O] . Chaiwoot Boonyasiriwat, Paul Valasek, Partha Routh, 2013

机译：时域多尺度波形层析成像在海洋数据中的应用
7. High-Resolution Seismic Velocity and Attenuation Structure of the Sichuan-Yunnan Region, Southwest China, Using Seismic Catalog and Waveform Data [R] . Zhang, H. , Liu, Y. , Thurber, C. H. , 2007

机译：利用地震目录和波形数据分析中国西南地区川滇地区高分辨率地震速度和衰减结构

Application of multiscale waveform tomography for high-resolution velocity estimation in complex geologic environments: Canadian Foothills synthetic data example

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