Abstract
In seismic refraction exploration, travel time tomography is the most widely used method in engineering and environmental geophysical exploration. In this paper, we mainly optimize the travel time tomography of refraction. First, with respect to the forward algorithm, we introduce a new travel time calculation method to improve the accuracy and efficiency of forward calculation. Based on the fast marching method (FMM), we introduce an improved forward calculation method called the multi-stencil fast marching method (MSFM). In the process of inversion, we propose a dynamic prior model composite constraint (DPMCC) method based on the T0 difference method from the idea of multi-scale inversion. Meanwhile, we use the prior information to improve the accuracy of inversion. Furthermore, we use the dynamic regularization factor selection method to make the inversion solution more stable and reliable. Finally, we test and analyze the synthetic data and the measured data to verify the effectiveness of the optimized travel time tomography algorithm.
Funder
National Natural Science Foundation of China
Subject
Fluid Flow and Transfer Processes,Computer Science Applications,Process Chemistry and Technology,General Engineering,Instrumentation,General Materials Science
Reference42 articles.
1. Near surface seismic exploration;Xiong;Seismol. Press,2002
2. Application of seismic refraction and resistivity for exploration of reservoir dam site;Ge;Prog. Geophys.,2008
3. Application of the technology of model constraint refraction statics on loess area;Yu;Prog. Geophys.,2016
4. Using Near-surface Seismic Refraction Tomography and Multichannel Analysis of Surface Waves to Detect Shallow Tunnels: A Feasibility Study;Steven;J. Appl. Geophys.,2013
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