高光谱成像
全光谱成像
数据立方体
光谱成像
化学成像
多路复用
计算机科学
遥感
光学
高动态范围成像
冗余(工程)
动态范围
近红外光谱
成像光谱学
材料科学
光谱带
基点
计算机视觉
人工智能
压缩传感
图像处理
光纤
数字微镜装置
空间光调制器
图像分辨率
三维光学数据存储
高动态范围
数据采集
空间分析
数据处理
波形
液晶可调谐滤波器
数据冗余
帧速率
光谱特征
光学成像
光学滤波器
多模光纤
医学影像学
作者
Ben Sun,Kun Huang,Zhi-Bin Zhao,Beibei Dong,Jian‐an Fang,Heping Zeng
标识
DOI:10.1002/lpor.202501321
摘要
Abstract Near‐infrared (NIR) hyperspectral imaging is widely used to reveal morphological and chemical information. However, conventional spectral imagers usually rely on costly focal plane arrays and suffer from data redundancy and inefficiencies in spatial‐spectral data acquisition. Here, a single‐pixel NIR hyperspectral imaging system is devised and implemented based on high‐fidelity spectrum‐to‐time mapping and high‐precision spatial‐encoding compressive measurements. The system employs a single‐mode telecommunication fiber for temporal dispersion and a programmable spatial light modulator to impose structured spatial patterns, with all signals detected by a single InGaAs photodetector. By correlating temporally stretched waveforms with spatial encodings, a 64 64 spatially resolved hyperspectral datacubes spanning 50 spectral bands over the 1550–1600 nm range are reconstructed. Furthermore, real‐time monitoring of dynamic liquid injection is demonstrated at a datacube refreshing rate of 12 Hz under sub‐Nyquist sampling. The presented architecture features single‐pixel simplicity, high optical throughput, and efficient data acquisition, which would pave a novel way for NIR spectral imaging in biomedical diagnostics and material characterization.
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