天发舰收高频雷达展宽海杂波的抑制和目标检测技术研究

项目名称： 天发舰收高频雷达展宽海杂波的抑制和目标检测技术研究

项目编号： No.61471144

项目类型： 面上项目

立项/批准年度： 2015

项目学科： 无线电电子学、电信技术

项目作者： 位寅生

作者单位： 哈尔滨工业大学

项目金额： 80万元

中文摘要： 基于天波发射-地波接收组合传播模式下的高频雷达兼具天波传播距离远、覆盖范围大以及地波绕海面传播稳定的双重优点，并且具有双基地雷达固有的隐蔽性和抗干扰能力。天波发射-舰载接收系统进一步提高了高频雷达的机动性和对舰船的早期预警能力，然而天发-舰收组合传播模式下的海杂波受双基地角、电离层扰动以及平台运动等多种因素的复合影响，海杂波展宽范围大且形态复杂，严重制约了舰船目标的检测。本项目通过深入分析天发-舰收海杂波展宽的内在机理和特性，建立海杂波展宽模型；在此基础上分别对电离层引起的时域调制和平台运动引起的空间动态耦合的补偿方法进行研究，进而提出基于空间和时间联合处理的海杂波展宽抑制方法，最后根据杂波与目标时域非平稳性特征的差异，提出一种天发-舰收展宽杂波背景下的目标检测方法。本项目的研究可为天发-舰收高频雷达实现展宽海杂波下的目标检测奠定理论和技术基础，具有十分重要的理论研究价值和工程意义

中文关键词： 天发舰收；展宽杂波；杂波抑制；目标检测

英文摘要： Based on the propagation mode associated with sky and surface wave, the HF hybrid sky-surface wave radar not only maintains the superiority of HF skywave radar which have a long detection rang and wide coverage, the advantage of HF surface radar which have a stable propagation channel, but also keeps a good invisibility and anti-interference ability. Novel HF hybrid sky-shipborne radar appears to be more agile, which could effectively improve the early-warning ability of ship targets. However, the sea clutter under this combined propagation mode is influenced by a number of composite factors such as the bistatic angle, ionospheric distortion and platform movement, etc. Therefore, the width and shape of Doppler spectrum will be broaden and complicated, giving rise to the severely restriction of ship target detection. This project intends to study the internal mechanism and characteristics of the spread sea clutter deeply and carefully, so as to construct the model which can describe the spread sea clutter. Afterwards, based on the preceding research, the technique to suppress the spread sea clutter utilize a spatial-temporal cascaded processing could be obtained to compensate the effect of ionospheric perturbation and platform movement. Eventually, the target detection method, under the background of HF hybrid sky-shipborne spread sea clutter, will finally be proposed according to the stationary difference between the clutter and target. To sum up, the research in this project is deemed to have important academic value and engineering significance, and will provide the theory and technology foundation to detect the target over the horizon under the spread sea clutter in HF hybrid sky-shipborne radar.

英文关键词： hybrid sky-shipborne surface wave;spread clutter;clutter suppression;target detection