Auto-Transitional Local Angle Domain Illumination Compensated Multiscale Full Waveform Inversion

Qiang Ma;Jingrui Luo;Huamin Zhou;Zhimin Yan;Lu Wang;Xingguo Huang
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Abstract

For deep reservoir exploration, precise inversion of the deep target is important. However, the resolution of full waveform inversion (FWI) in the deeper region may not be as fine as in the shallow region due to the acquisition geometry and complex local structure. Besides, the cycle-skipping problem is critical and significantly influences the accuracy of the inversion in FWI. In order to increase the resolution for the deep region and reduce the cycle-skipping problem, we propose a local angle domain-based inversion method. We decompose the incident and scattered wavefields around a local target into the local angle domain. Then, by the simultaneous construction of the local angle filter and the local resolution function based on the wavefield decomposition, a local angle domain multiscale inversion method with illumination compensation is conducted. Based on the convergence criterion, we construct an auto-transitional misfit function that can avoid manual intervention for the multiscale inversion process. Numerical tests proved the feasibility of the proposed strategy.
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自动过渡局部角域照明补偿多尺度全波形反演
对于深层储层勘探而言,对深层目标进行精确反演非常重要。然而,由于采集几何和复杂的局部结构,深部区域的全波形反演(FWI)分辨率可能不如浅部区域精细。此外,周期跳跃问题也很关键,严重影响全波形反演的精度。为了提高深部区域的分辨率并减少周期跳跃问题,我们提出了一种基于局部角域的反演方法。我们将局部目标周围的入射波场和散射波场分解为局部角域。然后,在波场分解的基础上,通过同时构建局部角度滤波器和局部分辨率函数,进行带有光照补偿的局部角度域多尺度反演方法。基于收敛准则,我们构建了一个自动过渡失配函数,从而避免了多尺度反演过程中的人工干预。数值测试证明了所提策略的可行性。
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