空间平台 meaning in Chinese
space platform
Examples
- We ' ve got our space platform here , and you can see we ' ve also got a lot of great doodads in this environment , some wonderful texture work
在这儿我们有空间平台,大家可以发现在场景中有许多精致的小摆设和一些漂亮的材质 - Design and realization of geographical data based on arcobjects and arcsde by an example of yunnan province basic geographical spatial information system ' s data publishing module
以云南省基础地理信息空间平台数据分发模块开发为例 - With the development of science and technology and incessant exploring outer space , the deployable structures are being used widely masts are basic deployable structures , being a effective supporting structures , masts are often used for separating electronic instruments to reduce interference or supporting other structures such as deployable antennas , solar arrays , telescope , outer space manipulator , outer space flat roof
随着科学技术的发展和人类对太空的探索不断深入,可展开结构越来越广泛的得到应用。伸展臂是最基本的可展结构,作为一种有效的支撑结构,可以作为大型可展开天线、太阳帆和望远镜的支撑背架、太空机械手以及空间平台等,已经得到了广泛的应用。 - The space observation in soft x - ray and extreme ultraviolet ( euv ) region is an important portion of the space astronomy and an effective solar observation method developed increasingly . in this thesis we designed a euv multi spectrum space solar telescope ( eut ) based on the requirement of high angular resolution and wide field of view for solar observations ; investigated the transmission performance of eut ; invented a method of eut pointing calibration on the space orbit and solved the high precision pointing calibration problems ; constructed a prototype of 17 . 1nm telescope , tested the possibility of eut design , and developed some cutting - edge techniques
本文根据空间平台上高分辨率对日观测的需要,设计出一种可以在四个极紫外波段对日同时成像多光谱太阳望远镜( eut ) ;研究了极紫外( euv )波段太阳望远镜光学传输特性;提出了真空紫外波段在轨指向的标定方法,解决了高精度指向标定问题;研制出一台17 . 1nm望远镜的地面样机,验证eut设计的可行性,攻克了部分关键的技术难关;为进一步的研究工作奠定了基础。 - With the improvement and perfection of the remote sensing technology , the rise and the development toward ground resolution and spectrum resolution of remote sensing devices for plenty of remote sensing data have been seen , from which derive an obvious problem that how so big a mass of data can be transmitted to the surface from an outer space platform
随着遥感技术的不断发展和完善,获得大量遥感数据的遥感器不断涌现,并且向地面分辨率和光谱分辨率两个方向迅速发展,由此产生的一个明显问题是如何从空间平台上传输这样庞大的遥感数据到地面。