Remote sensing (RS) is used in identifying the area of post fire and inspecting forest fire.
卫星遥感技术(RS)用于对过火区进行识别和对森林火灾进行判读和监测;
The reason of formation Xiangshuikan dangerous shoal was studied by methods including remote sensing(RS) image's interpretation analysis, geological change analysis and hydrodynamic motion analysis.
本文采用遥感地质分析方法与水动力演变分析方法分析洞庭湖草尾河响水坎滩险成因。
With the rapid development of the Remote Sensing (RS) technology, the RS imagery with the higher resolution is more beneficial for us to get even more abundant information about ground object.
随着遥感技术的飞速发展,遥感影像的分辨率越来越高,我们可以获取更多的地物信息。
How to acquire spatial data making use of the remote sensing image is the important aspect of the applications of a integrated system of GIS and RS.
利用遥感信息获取空间地理数据是GIS与RS技术集成应用研究的重要方面。
The orientation of remote sensing (RS) image is one of the key techniques in RS applications.
遥感影像的定位问题是遥感应用中的一个关键技术。
In order to get interested images from vast Remote Sensing images, it is necessary to retrieve image based on content by using features in RS image.
为了从海量遥感影像库中提取需要的图象,必须应用影像本身具有的特征实施基于内容的遥感影像检索。
Geographic Information System (GIS), globe Position System (GPS) and Remote Sensing (RS) provide new means for studying macro-behavioral responses of wildlife to globe changes.
地理信息系统(GIS),全球定位系统(GPS)和遥感(RS)技术的出现为研究野生动物对全球变化的宏观行为响应提供了条件。
This article Expounds applications of RS, GIS and GPS in Lin chuan city wetlands remote sensing information classification process.
阐述了RS、GIS、GPS分别在临川市湿地遥感信息分类过程中的应用。
With GIS (Geographic Information system), applying the B-P Nerve Network the nonlinear forest biomass RS (Remote Sensing) modeling system was designed.
结合GIS技术,应用B- P神经网络建立了森林生物量非线性遥感模型系统。
Based on remote sensing data from 1986 to 2000 as basic information resource and with the support of RS and GIS technologies, a wetland spatial information database was built up.
利用1986年和2000年遥感影像作为基本信息源,在RS和G IS技术的支持下,建立湿地空间数据库。
The remarkable trends of watershed hydrological models are the research of physically distributed based models and the use of Geography Information System (GIS) and Remote Sensing (RS) technology.
文章阐述了分布式物理水文模型、地理信息系统(GIS)和遥感(RS)技术在流域模拟中的应用等方面的进展。
Remote-sensing technique(RS)combined with global positioning system(GPS)and geo-graphic information system(GIS)is currently an advanced method in the world to investigate soil erosion.
用遥感技术,结合全球定位系统、地理信息系统进行水土流失调查是目前国际上比较先进的方法。
The integrative application of Remote Sensing (RS) and Geographical Information System (GIS) has popularized in many fields and has displayed a wide prospect.
遥感(RS)、地理信息系统(GIS)技术的综合应用在许多研究领域广泛推广并日渐成熟,表现出广阔的发展前景。
As new technologies, Remote Sensing (RS) and Geography Information System (GIS) can offer support for exploitation and utilization of groundwater either independently or interdependently.
遥感(RS)与地理信息系统(GIS)作为两大高新技术,可以独立地、也可以相互补充地为地下水资源开发利用提供技术支持。
As new technologies, Remote Sensing (RS) and Geography Information System (GIS) can offer support for exploitation and utilization of groundwater either independently or interdependently.
遥感(RS)与地理信息系统(GIS)作为两大高新技术,可以独立地、也可以相互补充地为地下水资源开发利用提供技术支持。
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