| 1. | The holographic process adjusts itself automatically so as to duplicate r or a independently for the exact form of the irregularly scattered field a' .
全息过程本身自动地进行调节,以此来为不规则散射场A'的精确形状分别复显出R或A。 |
| 2. | Electromagnetic scattering calculating based on mrtd
基于时域多分辨分析方法的散射场计算 |
| 3. | Analysis of finite array structure plays an important role in the design of array antenna and frequency selective surface
有限阵列散射场的分析对于阵列天线的隐身设计和频率选择表面的设计具有重要作用。 |
| 4. | At last , the simulation and experiment results about the scattering by the buried objects show the method in paper is correct
最后,通过地下目标散射场的理论结果和实验结果说明了本文所采用方法的正确性。 |
| 5. | The principle of the method is illuminated by the numerical simulation of the scattering of caustic region in a two - dimensional concave antenna
本文通过对二维凹面天线焦散区散射场的数值模拟详细介绍了这一理论的基本思路。 |
| 6. | Then , the kirchhoff scalar diffraction theory is used to derive the scatter field of the edo grating and the simulation model is presented
并利用基尔霍夫标量衍射理论导出了edg光栅散射场的公式,建立了对蚀刻衍射光栅的模拟模型。 |
| 7. | The holographic process adjusts itself automatically so as to duplicate r or a independently for the exact form of the irregularly scattered field a '
全息过程本身自动地进行调节,以此来为不规则散射场a '的精确形状分别复显出r或a 。 |
| 8. | From the fourier space k corresponding to the scattering field of the object , an imaging evaluation mechanism based on the spatial spectral coverage is proposed
摘要从物体散射场对应的傅里叶空间出发,提出基于空间谱域分布的成像系统定性评价体系。 |
| 9. | Simulations using numerically calculated scattering response based on three thin wire target demonstrate that the method proposed in this paper is surprier to the traditional e - pulse
基于三种细导线目标数值计算散射场的仿真实验表明,相比于传统e脉冲能量识别数,本文方法取得了很好的识别效果。 |
| 10. | Meanwhile the technology for separating scattering field from total field is improved in this paper , which could eliminate the calculation error and get precise scattering field
论文还改进了时域有限差分方法中的总场散射场的分离技术,消除了原来因为分离带来的计算误差,提高了散射计算的精度。 |
