| 1. | Bistatic synthetic aperture radar ( bistatic sar ) is a new system of imaging radar
双站合成孔径雷达(简称双站sar )是一种新的成像雷达体制。 |
| 2. | The content of this paper can be applied in three - dimensional laser image radar which scans on targets in high - speed
该项技术可用于需要对目标物进行高速扫描的三维激光成像雷达。 |
| 3. | As a kind of high resolution imaging radar , synthetic aperture radar ( sar ) has been widely used in many remote sensing fields
合成孔径雷达是一种高分辨率的成像雷达,被广泛应用于各遥感领域。 |
| 4. | Chapter 1 explains the basic idea of the imaging radar . the history , the latest development and the applications of imaging radar such as sar / isar are also reviewed
论文第一章介绍了成像雷达的基本概念,回顾其发展史及其现状,并简要介绍其应用情况。 |
| 5. | Synthetic aperture radar occupies an absolutely important place in the field of imaging radars , which has a prospect of wide application and a development potential
合成孔径雷达( sar : syntheticapertureradar )在成像雷达中占着绝对重要的地位,有着广泛的应用前景和发展潜力。 |
| 6. | Due to its merits of all weather conditions , long distance as well as wide range , imaging radar has been utilized in such fields as military reconnaissance , remote sensing and topographic mapping
成像雷达具有全天候、全天时、远距离和宽广观测带等优点,已被广泛应用于军事侦察、遥感测绘等领域。 |
| 7. | With the fast progress of uav ( unmanned air vehicle ) , there is a growing interest in more compact and more cost - effective synthetic aperture radar ( sar ) for these new spy platforms
随着无人机技术的迅猛发展,研制体积更小、重量更轻、造价更低的成像雷达是新的侦察平台对合成孔径雷达提出的新的要求。 |
| 8. | Under the high - resolution imaging radar background , extracting electromagnetic scattering features of target from 2 - d radar data , is a task valuable for both theoretical research and practical usage in field of radar target recognition
在高分辨成像雷达体制下,基于雷达目标二维像的散射特征提取,是雷达目标识别领域中一项理论意义与实用价值兼备的课题。 |
| 9. | Recently , with the fast development of multi - targets identification and high resolution microwave imaging technologies , ultra - wide band radar has been more and more widely used in object imaging and object detection field
近年来,随着集群目标分辨识别、高分辨力微波成像雷达等技术研究的快速发展,超宽带雷达在目标成像与目标识别领域得到了越来越广泛的应用。 |
| 10. | According to the high spatial correlativity of the ionosphere contamination , then the rank one phase error estimation ( rope ) auto - focus method in imaging radar is suitably modified and applied to the ionosphere decontamination of hf radar echoes
根据电离层污染具有高度空间相关性的特点,将成像雷达中的秩一相位误差估计聚焦方法适当修正后应用于高频雷达回波信号去电离层扰动污染。 |
