%0 Journal Article %T 基于SREM 融合数据的矿物蚀变信息提取<br>Mineral Alteration Information Extraction Based on SREM Fusion Data %A 王桂珍 %A 张立福 %A 孙雪剑 %A 杨 杭 %A 姜海玲 %A 童庆禧< %A br> %A Wang Guizhen' %A Zhang Lifu· %A Sun Xuejian' %A Yang Hang %A Jiang Hailing %A Tong Qingxi %J 地球科学(中国地质大学学报) %D 2015 %R 10.3799/dqkx.2015.114 %X 目前卫星高光谱数据幅宽小,难以进行大面积矿物填图应用.本文探讨了基于多光谱图像光谱分辨率增强方法(spectral resolutionenhancementmethod,SREM)融合算法,将Hyperion窄幅高光谱和先进星载热发射和反射辐射仪(advancedspacebornethermalemissionandreflectionradiometer, ASTER)宽幅多光谱数据进行融合,获得宽幅高光谱数据,从而进行矿物蚀 变信息提取的方法和流程.结果表明:(1)原始ASTER数据仅能识别出Al-OH 基团,Mg-OH 基团和Fe3+ 离子基团3种矿物, SREM 方法能够识别出高岭石、伊利石、绢云母、绿泥石和黄钾铁矾5种蚀变矿物;(2)融合图像矿物提取结果与原始ASTER 和Hyperion图像的相对精度分别达到90.56%和92.85%;(3)其中绢云母、伊利石、高岭石与Al-OH 基团,黄钾铁矾与Fe3+ 离子,绿泥石与Mg-OH 基团出露区域基本一致.SREM 融合数据具有幅宽大和光谱分辨率高的特点,提高了矿物蚀变信息解 译精度,该方法对大面积矿物填图具有示范作用.<br>The current sate11ite hyperspectra1 data with narrow swath has been restricted in the use of large area minera1 map- ping. The spectra1 resolution enhancement method(SREM) which restructures alarge width hyperspectra1 data with Hyperion (narrow swath hyperspecta1 data) and advanced spaceborne therma1 emission and reflection radiometer(ASTER) (wide swath multi-spectraldata) is discussed in the paper. The results show that: (1) only three kinds of minerals(A1-0H, Mg-0H and Fe3+) are detected in ASTER data, while five kinds of minerals(kaolinite, i11ite, ch1orite, sericite and jarosite) are identified in fusion hyperspectra1 data; (2) compared with the minerals of fusion data with ASTER and Hyperion data, the overa11 accu- racy is respectively90.56% and92.85%; (3) sericite, i11ite and kaolinite appear at the region of A1-0H, jarosite shows up at the area of Fe3+ and ch1orite shows up at Mg-0H region. The SREM fusion data with high spectra1 resolution can improve the mincra1 altcration cxtraction accuracy which makcs a good cxamplc forlargc arca mincra1 mapping %K 多光谱图像光谱分辨率增强方法融合数据 %K 蚀变信息提取 %K 斑岩铜矿 %K 混合调制匹配滤波 %K 遥感.< %K br> %K 1.InstituteofRemoteSensingandDigitalEarth %K ChineseAcademyofSciences %K Beijing 100101 %K China 2.UniversityofChineseAcademyofSciences %K Beijing 100049 %K China 3.CollegeofEarthandSpaceSciences %K PekingUniversity %K Beijing 100871 %K China %U http://www.earth-science.net/WebPage/Article.aspx?id=3138