摘要
压缩感知理论已经应用于多个领域,如MRI,超声等。提出了一个新的超声重建方法,基于二维压缩感知和k空间。在时域采样特定信号,并在k空间中对其进行重建。当处理二维信号(图像)时,传统的方法是将其转换为一维向量,这种方法非常耗时,并且对于大的图像重建来说不切实际,通过二维压缩感知处理这个难题。
Compressed sensing or Compressive sampling (CS)theory has been adapted to several instrumentation requirements, such as MRI,Ultrasound.This paper proposes a novel ultrasound image reconstruction method based on two dimension compressed sensing (2D CS) and k-space reconstruction.This paper samples the image of interest in the spatial domain, and reconstruct it in the k-space domain.To deal with 2D signals (images),the conventional treatment is to convert them into one dimension (1D) vectors,which is time-consuming and impractical for large image reconstruction,use here the 2D CS instead.Several comparisons between proposed algorithm and conventional algorithms are given in this paper.
出处
《工业控制计算机》
2014年第7期100-101,103,共3页
Industrial Control Computer
关键词
压缩感知
超声成像
k空间重建
二维压缩感知
compressive sampling,ultrasound imaging,k-space reconstruction,2D CS