物探与化探Issue(1):145-150,6.DOI:10.11720/j.issn.1000-8918.2014.1.27
基于对偶加权后验误差估计的2.5维直流电阻率自适应有限元正演
2.5D DIRECT CURRENT RESISTIVITY ADAPTIVE FINITE-ELEMENT NUMERICAL MODELING BASED ON DUAL WEIGHTED POSTERIORI ERROR ESTIMATION
摘要
Abstract
2.5D DC resistivity modeling was realized by adaptive finite-element numerical simulation algorithm. This algorithm uses un-structured triangular element that is easy to simulate complex topography and inclined interface to subdivide mesh, and utilizes dual weighted posteriori error estimation guide mesh refining process. In the instance model analysis, the authors calculated the DC resistivity response of the layered model and the vertical dike model, which were compared with their analytical solutions respectively. The results show that the numerical solution for this algorithm has high accuracy,and the relative error of the numerical solution is less than 5 percent. Finally, the authors calculated 2.5D geoelectric model apparent resistivity anomaly of undulate topography and corrected the undulate to-pography by using the comparative method. The contrast between topographic correction results and level terrain results show that the com-parative method is effective in eliminating the terrain effect and giving prominence to local geological anomalies.关键词
直流电阻率/自适应有限元法/地形改正/2.5维/后验误差估计Key words
DC resistivity/adaptive finite-element/topographic correction/2.5D/posteriori error estimation分类
天文与地球科学引用本文复制引用
严波,刘颖,叶益信..基于对偶加权后验误差估计的2.5维直流电阻率自适应有限元正演[J].物探与化探,2014,(1):145-150,6.基金项目
国家自然科学基金 ()
