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132 results on '"Wu Guochen"'

1. Conditional Image Prior for Uncertainty Quantification in Full Waveform Inversion

Author

Yang, Lingyun, Saad, Omar M., Wu, Guochen, and Alkhalifah, Tariq

Subjects
Physics - Geophysics
Abstract

Full Waveform Inversion (FWI) is a technique employed to attain a high resolution subsurface velocity model. However, FWI results are effected by the limited illumination of the model domain and the quality of that illumination, which is related to the quality of the data. Additionally, the high computational cost of FWI, compounded by the high dimensional nature of the model space, complicates the evaluation of model uncertainties. Recent work on applying neural networks to represent the velocity model for FWI demonstrated the network's ability to capture the salient features of the velocity model. The question we ask here is how reliable are these features in representing the observed data contribution within the model space (the posterior distribution). To address this question, we propose leveraging a conditional Convolutional Neural Network (CNN) as image prior to quantify the neural network uncertainties. Specifically, we add to the deep image prior concept a conditional channel, enabling the generation of various models corresponding to the specified condition. We initially train the conditional CNN to learn (store) samples from the prior distribution given by Gaussian Random Fields (GRF) based perturbations of the current velocity model. Subsequently, we use FWI to update the CNN model representation of the priors so that it can generate samples from the posterior distribution. These samples can be used to measure the approximate mean and standard deviation of the posterior distribution, as well as draw samples representing the posterior distribution. We demonstrate the effectiveness of the proposed approach on the Marmousi model and in a field data application.

Published
2024

12. Experimental teaching design for acoustic impedance inversion of post stack seismic data based on deep learning.

Author

TANG Jie, SUN Chengyu, and WU Guochen

Subjects
DEEP learning, ACOUSTIC impedance, EXPERIMENTAL methods in education, CONVOLUTIONAL neural networks, SOUND design, EXPERIMENTAL design
Abstract

Impedance reflects the underground lithological information and is widely used in reservoir prediction. This article designs a convolutional neural network based on spatial context information for post stack acoustic impedance inversion teaching experiment. Combined with data reconstruction constraints around seismic channels, the inversion network was jointly trained to optimize the effect of single trace inversion. This experiment starts from a 1D CNN network, and through the teacher's explanation of theoretical knowledge, it stimulates students' thinking ability and guides them to implement post stack seismic data acoustic impedance inversion based on spatial context information. The experimental results indicate that the experimental teaching design has strengthened students' understanding of theoretical knowledge, improved their comprehensive experimental ability and teaching quality. [ABSTRACT FROM AUTHOR]

Published
2023
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20. Characterization for wave equations in viscoelastic media based on the constant Q property

Author

Cao Danping, Liang Kai, Wu Guochen, and He Bing-Hong

Subjects
Physics, 010504 meteorology & atmospheric sciences, Mathematical model, Mathematical analysis, 010502 geochemistry & geophysics, Wave equation, 01 natural sciences, Seismic wave, Geophysics, Frequency domain, Reflection (physics), Equivalence relation, Dispersion (water waves), Constant (mathematics), 0105 earth and related environmental sciences
Abstract

The constant Q property in viscoelastic media assumes that the quality factor Q does not change with frequency (i.e., the Q value is independent of the frequency). For seismic waves propagating in viscoelastic media, the wave equation is determined by the viscoelastic media model. Equivalence relations exist between various frequency domain mathematical models and physical rheological models for the constant Q property. Considering two elastic moduli and three attenuation variables, 24 kinds of wave equations based on different generalized rheological models are divided into six classes in this study, and the 12 kinds of specific representation for the wave equations in the time domain are derived. On the basis of the equivalence relations between the generalized rheological models, the difference and equivalence relation between different wave equations are proven and clarified. Results show that the high-order generalized rheological model can accurately characterize the attenuation characteristics of seismic waves and has advantages in characterizing the dispersion characteristics in viscoelastic media. Lastly, the seismic reflection characteristics caused by the difference of Q value are verified by the forward modeling of the constant Q wave equation in this study, thereby providing a theoretical basis for the analysis and inversion of the formation Q value from reflection seismic data.

Published
2020
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25. Simulation of improved pure P‐wave equation in transversely isotropic media with a horizontal symmetry axis.

Author

Shan, Junzhen, Wu, Guochen, Yang, Sen, Liu, Hongying, and Zhang, Bo

Subjects
*ANISOTROPY, *PHASE velocity, *ELASTIC waves, *DIFFERENTIAL forms, *FINITE differences, *ACOUSTIC wave propagation, *SEISMIC waves
Abstract

Characterizing the expressions of seismic waves in elastic anisotropic media depends on multiparameters. To reduce the complexity, decomposing the P‐mode wave from elastic seismic data is an effective way to describe the considerably accurate kinematics with fewer parameters. The acoustic approximation for transversely isotropic media is widely used to obtain P‐mode wave by setting the axial S‐wave phase velocity to zero. However, the separated pure P‐wave of this approach is coupled with undesired S‐wave in anisotropic media called S‐wave artefacts. To eliminate the S‐wave artefacts in acoustic waves for anisotropic media, we set the vertical S‐wave phase velocity as a function related to propagation directions. Then, we derive a pure P‐wave equation in transversely isotropic media with a horizontal symmetry axis by introducing the expression of vertical S‐wave phase velocity. The differential form of new expression for pure P‐wave is reduced to second‐order by inserting the expression of S‐wave phase velocity as an auxiliary operator. The results of numerical simulation examples by finite difference illustrate the stability and accuracy of the derived pure P‐wave equation. [ABSTRACT FROM AUTHOR]

Published
2023
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29. Time domain full waveform inversion with low frequency wavefield decompression

Author

Zhang Xiao-yu, Wu Guochen, and Liang Zhanyuan

Subjects
010504 meteorology & atmospheric sciences, Decompression, Mathematical analysis, Geology, Inversion (meteorology), Management, Monitoring, Policy and Law, Low frequency, 010502 geochemistry & geophysics, 01 natural sciences, Industrial and Manufacturing Engineering, Calculation methods, Geophysics, Time domain, Born approximation, Full waveform, 0105 earth and related environmental sciences
Published
2018
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35. Analysis of attenuation and dispersion of propagating wave due to the coexistence of three fluid phases in the pore volume.

Author

Ahmad, Qazi Adnan, Wu, Guochen, Zhaoyun, Zong, Jianlu, Wu, Kun, Li, Tianwei, Du, and Khan, Nasir

Subjects
*PARTICLE size determination, *PORE fluids, *SEISMIC waves, *POROELASTICITY, *GEOPHYSICAL prospecting, *BULK modulus, *FLUID flow, *RELAXATION phenomena
Abstract

In exploration geophysics, the efforts to extract subsurface information from wave characteristics exceedingly depend on the construction of suitable rock physics model. Analysis of different rock physics models reveals that the strength and magnitude of attenuation and dispersion of propagating wave exceedingly depend on wave‐induced fluid flow at multiple scales. In current work, a comprehensive analysis of wave attenuation and velocity dispersion is carried out at broad frequency range. Our methodology is based on Biot's poroelastic relations, by which variations in wave characteristics associated with wave‐induced fluid flow due to the coexistence of three fluid phases in the pore volume is estimated. In contrast to the results of previous research, our results indicate the occurrence of two‐time pore pressure relaxation phenomenon at the interface between fluids of disparate nature, that is, different bulk modulus, viscosity and density. Also, the obtained results are compatible with numerical results for the same 1D model which are accounted using Biot's poroelastic and quasi‐static equation in frequency domain. Moreover, the effects of change in saturation of three‐phase fluids were also computed which is the key task for geophysicist. The outcomes of our research reveal that pore pressure relaxation phenomenon significantly depends on the saturation of distinct fluids and the order of saturating fluids. It is also concluded that the change in the saturation of three‐phase fluid significantly influences the characteristics of the seismic wave. The analysis of obtained results indicates that our proposed approach is a useful tool for quantification, identification and discrimination of different fluid phases. Moreover, our proposed approach improves the accuracy to predict dispersive behaviour of propagating wave at sub‐seismic and seismic frequencies. [ABSTRACT FROM AUTHOR]

Published
2020
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37. Innovation and Development of Ecological Economy in the Poyang Lake Basin

Author

Wu Yue, Wu Guochen, and Ouyang Ming

Subjects
Economy, Ecology, Lake basin, Central government, Sustainability, Yangtze river, Pilot program, Environmental science, Exclusive economic zone, Structural basin, Environmental planning, Strategic move
Abstract

In the spring of 2008, Jiangxi kicked off a pilot program for ecological economy in the Poyang Lake Basin with the support of various ministries and commissions under the central government. The establishment of Poyang Lake Pilot Ecological Economic Zone is a major strategic move to implement the scientific outlook on development in line with the actual conditions in Jiangxi Province and the country as a whole, a scientific decision concerning the long-term development of the province, and also an important action to enhance the sustainability of the Yangtze River Basin.

Published
2016
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49. P wave propagation characteristics in extended White layered model

Author

Wu Guochen, Guo Junchao, and Zhang Lin

Subjects
Mesoscopic physics, Engineering, Distribution (mathematics), Optics, White (horse), business.industry, Poromechanics, Mathematical analysis, Frame (networking), P wave, Modulus, business, Complex plane
Abstract

Summary White model, which considers the mesoscopic layered distribution of rock frame and pore fluid, is usually used to study the propagation characteristics of P wave. In this paper, an extended White layered model that deals with two kinds of frame and each frame filled with two kinds of fluid is proposed. Choosing a representative element volume (REV), we analyze the model using poroelastic method and get the complex plane wave modulus, which is further used for studying P wave propagation characteristics. When compared with White model, this new model overcomes the restriction that there can be just one kind of fluid in each rock frame. What’s more, when the two rock frames have the same properties or the thickness parameters satisfy certain conditions, extended White layered model degenerates to White model.

Published
2014
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