Using PSPI to accelerate seismic Q-modeling based on Hermite distributed approximating functional

Mengyao Ji; Tieyuan Zhu; Jie Yao; Donald J. Kouri

doi:10.1190/segam2017-17790651.1

Using PSPI to accelerate seismic Q-modeling based on Hermite distributed approximating functional

Mengyao Ji^*
, Tieyuan Zhu
, Jie Yao
, Donald J. Kouri

^*此作品的通讯作者

科研成果: 期刊稿件 › 会议文章 › 同行评审

9 引用（Scopus）

摘要

The attenuation effect of seismic waves has been recently incorporated into a fractional Laplacian viscoacoustic wave equation. Solving this equation requires a special treatment for the fractional Laplacian operators. The previous promising approach involves using a Hermite distributed approximating functional (HDAF). As a local-spectral method, HDAF method possesses the accuracy of a global method. However, the computational cost of the HDAF method increases dramatically as the complexity of the Q model increases. In this paper, we propose to use a phase shift plus interpolation (PSPI) technique to reduce the computational expense of HDAF method. The basic idea is to compute reference wavefileds for a set of reference Q⁰s and estimate the final wavefield using interpolation. Synthetic examples demonstrate the PSPI technique can greatly reduce the computational cost of HDAF method while preserving the accuracy.

源语言	英语
页（从-至）	4091-4096
页数	6
期刊	SEG Technical Program Expanded Abstracts
DOI	https://doi.org/10.1190/segam2017-17790651.1
出版状态	已出版 - 17 8月 2017
已对外发布	是
活动	Society of Exploration Geophysicists International Exposition and 87th Annual Meeting, SEG 2017 - Houston, 美国期限: 24 9月 2017 → 29 9月 2017

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10.1190/segam2017-17790651.1

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引用此

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title = "Using PSPI to accelerate seismic Q-modeling based on Hermite distributed approximating functional",

abstract = "The attenuation effect of seismic waves has been recently incorporated into a fractional Laplacian viscoacoustic wave equation. Solving this equation requires a special treatment for the fractional Laplacian operators. The previous promising approach involves using a Hermite distributed approximating functional (HDAF). As a local-spectral method, HDAF method possesses the accuracy of a global method. However, the computational cost of the HDAF method increases dramatically as the complexity of the Q model increases. In this paper, we propose to use a phase shift plus interpolation (PSPI) technique to reduce the computational expense of HDAF method. The basic idea is to compute reference wavefileds for a set of reference Q0s and estimate the final wavefield using interpolation. Synthetic examples demonstrate the PSPI technique can greatly reduce the computational cost of HDAF method while preserving the accuracy.",

author = "Mengyao Ji and Tieyuan Zhu and Jie Yao and Kouri, \{Donald J.\}",

note = "Publisher Copyright: {\textcopyright} 2017 SEG.; Society of Exploration Geophysicists International Exposition and 87th Annual Meeting, SEG 2017 ; Conference date: 24-09-2017 Through 29-09-2017",

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doi = "10.1190/segam2017-17790651.1",

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journal = "SEG Technical Program Expanded Abstracts",

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TY - JOUR

T1 - Using PSPI to accelerate seismic Q-modeling based on Hermite distributed approximating functional

AU - Ji, Mengyao

AU - Zhu, Tieyuan

AU - Yao, Jie

AU - Kouri, Donald J.

PY - 2017/8/17

Y1 - 2017/8/17

N2 - The attenuation effect of seismic waves has been recently incorporated into a fractional Laplacian viscoacoustic wave equation. Solving this equation requires a special treatment for the fractional Laplacian operators. The previous promising approach involves using a Hermite distributed approximating functional (HDAF). As a local-spectral method, HDAF method possesses the accuracy of a global method. However, the computational cost of the HDAF method increases dramatically as the complexity of the Q model increases. In this paper, we propose to use a phase shift plus interpolation (PSPI) technique to reduce the computational expense of HDAF method. The basic idea is to compute reference wavefileds for a set of reference Q0s and estimate the final wavefield using interpolation. Synthetic examples demonstrate the PSPI technique can greatly reduce the computational cost of HDAF method while preserving the accuracy.

AB - The attenuation effect of seismic waves has been recently incorporated into a fractional Laplacian viscoacoustic wave equation. Solving this equation requires a special treatment for the fractional Laplacian operators. The previous promising approach involves using a Hermite distributed approximating functional (HDAF). As a local-spectral method, HDAF method possesses the accuracy of a global method. However, the computational cost of the HDAF method increases dramatically as the complexity of the Q model increases. In this paper, we propose to use a phase shift plus interpolation (PSPI) technique to reduce the computational expense of HDAF method. The basic idea is to compute reference wavefileds for a set of reference Q0s and estimate the final wavefield using interpolation. Synthetic examples demonstrate the PSPI technique can greatly reduce the computational cost of HDAF method while preserving the accuracy.

UR - https://www.scopus.com/pages/publications/85063104371

U2 - 10.1190/segam2017-17790651.1

DO - 10.1190/segam2017-17790651.1

M3 - Conference article

AN - SCOPUS:85063104371

SN - 1052-3812

SP - 4091

EP - 4096

JO - SEG Technical Program Expanded Abstracts

JF - SEG Technical Program Expanded Abstracts

T2 - Society of Exploration Geophysicists International Exposition and 87th Annual Meeting, SEG 2017

Y2 - 24 September 2017 through 29 September 2017

ER -

Using PSPI to accelerate seismic Q-modeling based on Hermite distributed approximating functional

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