Author Affiliations
Abstract
1 School of Biomedical Science, Huaqiao University, Quanzhou 362021, China
2 College of Engineering, Huaqiao University, Quanzhou 362021, China
We propose a laser speckle contrast imaging method based on uniting spatiotemporal Fourier transform. First, the raw speckle images are entirely transformed to the spatiotemporal frequency domain with a three-dimensional (3D) fast Fourier transform. Second, the dynamic and static speckle components are extracted by applying 3D low-pass and high-pass filtering in the spatiotemporal frequency domain and inverse 3D Fourier transform. Third, we calculate the time-averaged modulation depth with the average of both components to map the two-dimensional blood flow distribution. The experiments demonstrate that the proposed method could effectively improve computational efficiency and imaging quality.
uniting spatiotemporal Fourier transform laser speckle contrast image fluctuation modulation 3D Fourier transform Chinese Optics Letters
2024, 22(1): 011701
1 华侨大学生物医学学院,福建 泉州 362021
2 华侨大学工学院,福建 泉州 362021
激光散斑衬比血流成像(LSCI)是一种利用激光散斑强度的时空统计特性来实现活体组织血流监测的全场光学成像技术,在临床诊断和生命科学等研究领域具有重要的应用价值。本文在介绍LSCI基本原理的基础上,重点对高信噪比LSCI、高分辨率LSCI、高精度LSCI、大成像深度LSCI和新型LSCI系统等关键技术及其应用的研究进展进行综述。首先,综述了各向异性滤波、特征值分解和变换域滤波的高信噪比LSCI技术,并总结了以运动伪影校正、失焦模糊校正和非均匀光强校正为目标的高分辨率LSCI技术的研究现状;然后,以实现高精度LSCI为目标,从静态散射光校正、定量LSCI技术和新型散斑衬比成像算法等方面阐述了高精度LSCI技术的研究进展;最后,总结大成像深度LSCI技术的发展现状与进展,介绍新型LSCI系统及其应用的最新研究成果,并对LSCI技术未来的发展方向和应用功能拓展进行总结和展望。
医用光学 生物医学光学成像 激光散斑成像 血流成像 关键技术 应用进展
