| 1. | The mett cross section applies to a point scatterer .
莫脱截面适用于点散射体。 |
| 2. | Design and realization of knowledge base for environmental influence evaluation idss
基于体等效原理的金属散射体微波断层成像 |
| 3. | Spectral data of the near field for locating the shape of scatterer with impedance boundary condition
由近场谱数据确定阻抗散射体的形状 |
| 4. | The wireless location algorithm based on the scatter information is described in this paper
本文主要研究的是基于散射体信息的无线定位算法。 |
| 5. | Calculation of the band structures in two - dimensional phononic crystals consisting of elliptic cylinders
二维椭圆柱散射体声子晶体带结构的计算 |
| 6. | The first new algorithm which makes use of two base stations to locate mobile station needs only three scatters
在上述研究的基础上,给出了两种新的散射体定位算法。 |
| 7. | If a scatterer like human head is used , intensity differences among microphones can be obtained efficiently
如果能够利用一个类似人头的散射体,则可有效地获得传声器之间的强度差信息。 |
| 8. | Based on the backward propagation concept , we evaluated the feasibility of reconstructing the image of elastic wave sources and scatterers
依据逆时传播的观念以评估重建弹性波源及散射体影像的可行性。 |
| 9. | Calculation for the radiation dose distribution and the impact of scatterer on radiation dose in a 60co container inspection hall using monte carlo method
集装箱检测大厅辐射场剂量分布及其散射体的影响 |
| 10. | Although direct waves are much stronger than scattering wavefields , the imaging of the underground anomaly is still well reconstructed from the reverse time process
即使利用含有非常明显直接波信号的历时记录亦可有效的重建地下散射体的影像。 |
