| ID | 原文 | 译文 |
| 54427 | 本文对天发船收高频雷达海面目标回波建模问题开展研究, | This paper investigates the problem of modeling target echoes for this radar system. |
| 54428 | 首先分析了动态空间几何关系变化下目标回波的多普勒频移特性,建立了理想条件下的空时目标回波模型; | Firstly, the Doppler frequency shift characteristics of the target echo under dynamic spatial geometry are analyzed and the space-time target echo model under ideal conditions is established; |
| 54429 | 在此基础上,引入电离层不规则体和六维摆动空时相位扰动影响,分别构建电离层随机扰动相位仿真器和六维摆动扰动相位模型, | On this basis, introducing the space-time phase perturbation effects of ionospheric irregularities and the six degree of freedom motion, the ionospheric random perturbation phase simulator and the six-dimensional oscillating perturbation phase model are constructed, respectively, |
| 54430 | 进而建立了天发船收高频雷达扰动目标空时回波模型, | and then the space-time target echo model of the shipborne high frequency radar via hybrid sky-surface wave propagation is established. |
| 54431 | 实验数据验证了模型的有效性。 | Experimental data verify the effectiveness of the model. |
| 54432 | 由于北斗卫星导航系统全球覆盖的特性,以其为辐射源构成无源雷达在海面监测方向具有应用潜力。 | Due to the global coverage of Beidou navigation satellite system, it shows the potential to be the opportunistic transmitter in passive radar marine detection. |
| 54433 | 本文针对多颗北斗卫星为辐射源所构成的无源多基雷达,提出了一种目标回波空时联合积累方法,可实现海面运动目标的检测与定位。 | This paper focus on the passive multistatic radar constituted by multiple Beidou satellites, and proposes a target echo space-time integration method to achieve maritime moving target detection and localization. |
| 54434 | 首先,本文提出距离反转-方位伸缩变换(RRAST),将各二维时域回波转换为一维方位信号,并将其多普勒质心置零; | First, this paper proposes a range reversal and azimuth stretching transform(RRAST), which converts each two-dimensional echo in fast-time and slow-time domain into a one-dimensional azimuth signal, and sets the Doppler centroid of each echo to zero. |
| 54435 | 然后,利用去调频积分变换(DcIT)处理实现回波的长时间积累, | Then, the dechirp integration transform(DcIT) is applied to achieve the long-time integration of each echo. |
| 54436 | 并非相干叠加多源回波实现目标回波的空间积累,在多普勒调频率域实现海面运动目标的有效检测; | The incoherent summation of multistatic echoes is performed to accomplish spatial integration, achieving the maritime moving target detection in the Doppler frequency rate domain. |