吉林大学学报(地球科学版) ›› 2019, Vol. 49 ›› Issue (3): 845-856.doi: 10.13278/j.cnki.jjuese.20180202
张建民1, 胡英飒2, 曾昭发1, 杜威1, 张领1, 槐楠1, 胡志鹏1
Zhang Jianmin1, Hu Yingsa2, Zeng Zhaofa1, Du Wei1, Zhang Ling1, Huai Nan1, Hu Zhipeng1
摘要: 位场数据边缘增强对于地质构造研究和矿床勘查具有重要意义。现有的边缘增强方法多数基于位场数据的导数构建,往往存在对噪声敏感的缺点,且处理结果中常有虚假边界的出现。本文基于数学形态学良好的形状分析和噪声压制性能,通过数学形态学基本算子的组合叠加,提出了一种新的位场数据边缘增强方法。该方法容易实现,且不需要计算位场数据的水平和垂向导数。板状体模型试验结果表明,该方法能有效地对重力异常和化极后的磁异常数据进行边缘增强。针对三维模型试验中正负异常同时存在的情况,相比以往几种方法,该方法输出的边缘更清晰且没有额外边缘的产生,并表现出更强的抗噪能力。最后将该方法和以往几种方法应用到老挝万象地区实际重力异常数据的处理中,结果显示该方法刻画出的边缘更加连续清晰;同时结合以往地质资料,推断了成矿的有利部位。
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