Integrated Simultaneous Joint and Full-Waveform Inversion Workflow for Multiphysics Near-Surface Modeling

A. Sirtori, M. Mantovani, A. Epifani, F. Miotti
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引用次数: 1

Abstract

Summary Building a solid starting model remains one of the most challenging tasks for a robust application of full-waveform inversion (FWI). Several aspects can drive the FWI data optimization towards a local minimum of the cost function, such as the lack of low frequency, the offset limitation, and the presence of alternating high-low velocity layering in the stratigraphic sequence. This risk can be mitigated by geophysically preconditioning the FWI starting model, leveraging multiphysics independent measurement through simultaneous joint inversion. In this multiphysics multiscale approach, the seismic information is valuably coupled with non-seismic observations, with the potential benefit of reducing the non-uniqueness of surface geophysics inversions and increasing the robustness and fitness of the input model for FWI.
多物理场近地表建模集成同步联合全波形反演工作流程
对于全波形反演(FWI)的稳健应用来说,建立一个可靠的起始模型仍然是最具挑战性的任务之一。有几个方面可以推动FWI数据优化,使成本函数达到局部最小,例如缺乏低频、偏移限制以及地层层序中存在高低速交替分层。通过对FWI启动模型进行物理预处理,通过同时联合反演利用多物理场独立测量,可以降低这种风险。在这种多物理场多尺度方法中,地震信息有效地与非地震观测相结合,减少了地表地球物理反演的非唯一性,提高了FWI输入模型的鲁棒性和适应度。
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