Journal of Tropical Oceanography >
Automatic search and non-uniqueness analysis of shear wave models from active Ocean Bottom Seismometer data
Copy editor: YAO Yantao
Received date: 2020-12-28
Revised date: 2021-02-26
Online published: 2021-03-04
Supported by
National Natural Science Foundation of China(41674092)
National Natural Science Foundation of China(41676045)
Key Special Project for Introduced Talents Team of Southern Marine Science and Engineering Guangdong Laboratory (Guangzhou)(GML2019ZD0204)
Active Ocean Bottom Seismometer (OBS) prospecting is taking the leading role in illuminating submarine structures, among which converted shear wave modeling provides precise constrains on seismic structures and lithology. Due to the tedious procedures involved, difficulties in reaching optimal solution and insufficiency in non-uniqueness analysis in the present modeling method, we propose a new modeling method based on model solution space and objective function. Automatic modeling of converted shear waves can be realized using this new method with the aid of computer programming. This method is tested for its utilities in a realistic wide-angle OBS seismic profile, OBS2013-3, traversing the Xisha block, the northwestern South China Sea continental margin. PPS phases from a single station and PSS phases from all stations are employed in the case to model Vp/Vs ratios in sediments and the crust, respectively, where Vp is compressional wave velocity and Vs is shear wave velocity. Capacities of the new method to provide quick and accurate search for optimal models and estimates for modeling non-uniqueness are demonstrated. The new method is expected to promote the efficiency of converted shear wave modeling using OBS data and lay solid foundation for reliability and stability of modeling results.
ZHANG Haoyu , QIU Xuelin , HUANG Haibo . Automatic search and non-uniqueness analysis of shear wave models from active Ocean Bottom Seismometer data[J]. Journal of Tropical Oceanography, 2022 , 41(1) : 194 -203 . DOI: 10.11978/2020153
图5 沉积层波速比解空间内的模型对OBS11台站PPS型震相的走时拟合情况图中等值线为走时残差(χ2), 阴影深浅代表了实际追踪震相的丢失率大小, 空白表示该区域对应的模型未能正常完成射线追踪 Fig. 5 Models in the solution space of Vp/Vs in the sedimentary layers and their travel-time fitting of PPS phases in OBS11 |
图7 地壳波速比解空间内的模型对OBS2013-3测线上全部台站PSS型震相的走时拟合情况图中等值线为走时残差(χ2), 阴影深浅代表了实际追踪震相的丢失率大小, 空白表示该区域对应的模型未能正常完成射线追踪 Fig. 7 Models in the solution space of crustal Vp/Vs and their travel-time fitting of PSS phases of all stations |
*感谢国家基金委共享航次计划(航次编号: NORC2013-08), “实验2”号采集了原始数据; 3位匿名审稿专家提出了宝贵意见和建议, 在此一并致谢。
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