Nonstationary signal inversion based on shaping regularization for random noise attenuation

作者：Yang Wu-Yang,Wang Weit,Li Guo-Fa,Wei Xin-Jian,Wang Wan-Li,Chen De-wu

摘要：Prediction filtering is one of the most commonly used random noise attenuation methods in the industry;however,it has two drawbacks.First,it assumes that the seismic signals are piecewise stationary and linear.However,the seismic signal exhibits nonstationary due to the complexity of the underground structure.Second,the method predicts noise from seismic data by convolving with a prediction error filter(PEF),which applies inconsistent noise models before and after denoising.Therefore,the assumptions and model inconsistencies weaken conventional prediction filtering's performance in noise attenuation and signal preservation.In this paper,we propose a nonstationary signal inversion based on shaping regularization for random noise attenuation.The main idea of the method is to use the nonstationary prediction operator(NPO)to describe the complex structure and obtain seismic signals using nonstationary signal inversion instead of convolution.Different from the convolutional predicting filtering,the proposed method uses NPO as the regularization constraint to directly invert the eff ective signal from the noisy seismic data.The NPO varies in time and space,enabling the inversion system to describe complex(nonstationary and nonlinear)underground geological structures in detail.Processing synthetic and field data results demonstrate that the method eff ectively suppresses random noise and preserves seismic refl ection signals for nonstationary seismic data.

发文机构：Research Institute of Petroleum Exploration&Development-Northwest State Key Laboratory of Petroleum Resources and Prospecting CNPC Key Laboratory of Geophysical Prospecting

关键词：noiseattenuationNONSTATIONARYINVERSIONshapingregularization

分类号： P31[天文地球—固体地球物理学]