| 1. | Tide - generating force ; earth model ; tide stress field
起潮力地球模型固体潮应力场 |
| 2. | Elastic earth model ; precession nutation moment ; cip axis
弹性地球模型岁差章动力矩cip轴 |
| 3. | Tide stress of the radially heterogeneous spherical elastic earth model
球状径向不均匀弹性地球模型的固体潮应力 |
| 4. | Numrical calculation of the tidal stress field inside the homogeneous spherical elastical earth model
均匀弹性地球模型内部固体潮应力场的数值计算 |
| 5. | Planning and design of underground engineerings utilizing common earth model and immersive virtual reality
共通地质模型和虚拟现实在地下工程规划与设计中的应用 |
| 6. | The location theory and method which using the r - d model and earth model without the gcp but dem ; 3
在没有gcp而有dem的情况下利用r - d模型进行定位的理论与方法。 |
| 7. | The terrain integrated rough earth model ( tirem ) is designed to realistically model the effects of environmental factors in wireless propagation
Terrainintegratedroughearthmodel ( tirem )是为逼真地模拟无线传播中环境因素地效应而设计的。 |
| 8. | 2 . based on the spaceborne sar theory , an elliptical earth model and an elliptical orbit model are proposed , which have some advantages over the traditional circular ones
2 .基于星载sar的基本理论,给出了一种进行星载sar回波信号模拟的椭圆地球模型和椭圆轨道模型,它们优于传统的球地球模型和圆轨道模型。 |
| 9. | Therefore , we put forward a new algorithm to invert all data sets collected at different time simultaneously , namely by determining all earth models of different time through only one inversion process
因此,这里提出了一种同时反演所有不同时刻观测数据的新方法,即通过一次反演过程来获得所有不同时刻的地下模型。 |
| 10. | Contents in the article include : u the location theory and method which using the r - d model and earth model without the ground control points ( gcp ) and digital elevation models ( dem ) ; 2
在没有地面控制点( groundcontrolpoint简称gcp ) 、没有数字高程模型( digitalelevationmodels简称dem )的情况下利用r - d模型和地球模型进行定位的理论与方法。 |
