Geological Exploration Hyperspectral Intelligent Interpretation System
地质勘探高光谱智能解译系统
Integrating geological knowledge with hyperspectral remote sensing technology to achieve automatic mineral composition identification, fine lithology classification, and intelligent delineation of alteration zones. Solving the pain points of low efficiency, subjectivity, and limited accuracy in traditional manual visual interpretation.
npx openclaw skills install industry-geological-hyperspectral-intelligent-interpretationFeatures
- **矿物光谱自动匹配**: 基于海量矿物光谱数据库(包含黏土矿物、硅酸盐、碳酸盐、氧化物等2000+种矿物端元),对高光谱影像进行自动光谱角匹配,快速识别目标区矿物组合与分布
- **蚀变带智能提取**: 应用特征波段比值法、混合调制度分析等技术,自动提取硅化、泥化、绢云母化、青磐岩化等典型蚀变异常,生成蚀变强度分级图件
- **岩性精细分类制图**: 基于决策树与随机森林算法,对沉积岩、火山岩、变质岩进行精细分类,识别岩相细分单元,辅助地质填图精度提升
- **成矿远景智能评价**: 整合蚀变信息、地质构造、物探异常等多源数据,基于专家知识图谱评估研究区的成矿可能性与有利靶区优选排序
Use Cases
Installation
npx openclaw skills install industry-geological-hyperspectral-intelligent-interpretation
Usage Examples
`分析青海某铅锌矿区Aster高光谱数据,提取羟基和铁染蚀变异常,生成蚀变强度分级图`
`对云南某铜矿区的高光谱影像进行矿物自动分类,识别主要蚀变矿物组合并输出成矿远景评价报告`
`对比分析两个勘查区的蚀变异常分布特征,评估各自的找矿潜力并给出靶区优选建议`