Paper Info
Title
Seismic reflectivity inversion by a sparsity and lateral continuity constrained gradient descent method
Abstract
One of the crucial problems in seismic exploration is to invert the subsurface reflectivity from the surface recorded seismic data. However, the inversion process is ill-posed by nature. To tackle the ill-posed ness, we assume the reflectivity series is sparse in the time domain but continuous in the space domain, and encode such information in the form of sparse constraints within the trace and spatial smoothing constraints across the trace in the inverse problem. In particular, for the former we use a non monotone gradient descent method to solving the II-norm constrained minimization model, and for the latter we use structure-oriented filtering to enhance the coherence of seismic events across midpoints. Theoretical simulations are performed to verify the validity and feasibility of our method.
Year
DOI
Venue
2012
10.1109/SOLI.2012.6273538
Service Operations and Logistics, and Informatics
Keywords
DocType
ISBN
geophysical techniques,inverse problems,seismology,inverse problem,l1-norm constrained minimization model,lateral continuity constrained gradient descent method,nonmonotone gradient descent method,reflectivity series,seismic events,seismic exploration,seismic reflectivity inversion,sparsity continuity constrained gradient descent method,spatial smoothing constraint,structure-oriented filtering,subsurface reflectivity,surface recorded seismic data,trace smoothing constraint,gradient descent method,seismic inversion,sparsity,structure-oriented filter,geology,data models,sun,noise,tensile stress,deconvolution
Conference
978-1-4673-2400-7
Citations 
PageRank 
References 
0
0.34
0
Authors
4
Name
Order
Citations
PageRank
Jinjie Liu100.34
Hongxia Wang203.04
Dongyun Yi300.34
Lei Sun42615.36