摘要
为快速获取和实现再现空间实体对象的姿态、分层、分类以及其内部地球物理特性,在3个基本假设的基础上,引入了全息三维联测的概念与内涵,在理论上论述了机载双频激光雷达扫描技术、激光—高光谱共光路技术和瞬变电磁地空探测技术,并建立了迅捷联测物理模型和全息三维数学模型,在应用上论述了空陆联测技术、水陆联测技术和全息三维建模方法;空地联测、光谱联测、水陆联测、地空探测等联测理论与方法,在探测方法上密切关联,在探测对象上互相补充,从而形成了全息三维联测方法。
To quickly acquire and reproduce the attitude, stratification, classification and its internal geophysical characteristics of the space entity object, on the basis of the three basic assumptions, this article introduced the concept and content of holographic three dimension simultaneous surveying, and it discussed the airborne dual frequency lidar scanning technology, laser-hyperspectral common path technology and transient electromagnetic underground and airborne detecting technology in theory, and the quick joint survey physical models and three dimension holography mathematical models were established, and it discussed airborne and overland simultaneous surveying technology, submarine and overland simultaneous surveying technology and holographic three-dimensional modeling in the application. The theory and method of airborne and overland simultaneous surveying, spectral simultaneous surveying, submarine and overland simultaneous surveying, underground and airborne detecting are closely related on the detection method, and are complement to each other in the detecting object, thus forming a three- dimensional holographic joint measurement method.
出处
《兵器装备工程学报》
CAS
2016年第5期123-128,共6页
Journal of Ordnance Equipment Engineering
基金
国家863计划项目资助(2014AA7042011)
关键词
全息三维
迅捷联测
物理模型
数学模型
three dimension holography
quick joint survey
physical model
mathematical model