摘要
空间变迹法(SVA)作为一种超分辨率图像处理技术,能在抑制旁瓣的同时保持良好的主瓣分辨率。将空间变迹法引入合成孔径声呐(SAS)成像,比传统的加窗处理能获得更好的成像效果。对标准空间变迹法进行了推广,得到非标准奈奎斯特采样率下的通用算法,并应用于SAS成像处理。仿真结果表明,二维通用算法在任意奈奎斯特采样倍数时,均能在不增加主瓣宽度的同时得到良好的旁瓣抑制效果,提升了SAS成像分辨率。
As a super resolution technique, SVA(Spatially Variant Apodization) can reduce sidelobe levels while maintaining the mainlobe resolution. SVA is introduced into synthetic aperture sonar imagery and it can get better imaging results than the conventional weighting approach. The generalized apodization algorithm at the nonstandard Nyquist sample rates is discussed and it is applied for SAS imaging processing. The simulation results demonstrate that 2D generalized SVA algorithm can suppression sidelobes at any Nyquist sampling rates without the expense of mainlobe width, and the resolution of SAS imagery is enhanced.
出处
《电声技术》
2010年第1期45-48,59,共5页
Audio Engineering
作者简介
田丰,硕士研究生,主要研究方向为水下信息处理;
喻敏,博士,讲师,主要研究方向为水声信号处理;
吴卫国,教授,博士生导师,主要研究方向为船舶振动与噪声控制。
