为了实现中药主要活性成分的在体检测,运用光谱成像技术检测中药活性成分。
The spectral imaging technology is applied to active constituent detection of traditional Chinese medicines (TCMs) in-vivo.
功能近红外光谱成像技术(FNIRS)是一种无创的大脑皮层功能活动检测手段。
Functional near-infrared spectroscopy (FNIRS) is a new tool for detecting of human brain activations.
它复合了日光光谱成像技术,具有高分辨率光电传感器并带有机载处理系统能自动检测和识别目标。
It combines daytime hyperspectral imaging technology, featuring high-resolution electro-optic sensors, with an airborne processing system to automatically detect and identify targets.
论文采用了一种新颖的多光谱成像技术,所采集的图像可以提供更多反映物质特性的光谱信息。
Multispectral imaging techniques providing additional useful spectral information in common pathological samples are used for image acquisition.
明年初,以色列文物局的实验室将会引进美国宇航局的多光谱成像技术,届时1000个卷轴近3万残页将被扫描成高解像度图片。
Early next year, the IAA labs will be equipped NASA's multi-spectral imaging technology. 30, 000 fragments from almost 1, 000 scrolls will be scanned at very high resolution.
新方法使用一种名为“大量光谱成像”的技术生成详细的化学特征,从多个不同的表面采集多种指纹图像。
The new method takes multiple images of a print from many different surfaces, using a technology called Mass Spectrometry Imaging to produce a detailed chemical signature.
在光谱成像的光谱分辨率增强技术中,对振幅衰减干涉信号的线性预测是其中的关键之一。
In spectral resolution enhancement the linear prediction of exponentially decaying sinusoidal superposition signal is one of the key technologies.
国际灾难监测卫星(DMC)是英国萨里卫星技术有限公司(SSTL)所设计的,可以每天提供世界任何地方的宽覆盖多光谱成像。
The international Disaster Monitoring Constellation (DMC) was designed by SSTL to provide wide swath multispectral imaging of any part of the world every day.
光谱成像组合了光谱技术和成像技术。
Hyperspectral imaging combines spectroscopy and digital imaging technology.
超光谱成像是一种场景图谱合一的技术,在战场侦察中得到了迅速应用。
As an image-spectrum merging technology, hyperspectral imaging has been used in battlefield reconnaissance rapidly.
由于相似异物与所处背景的外观特征极其相似,常规的红外光谱成像方法无法获取相似异物的图像特征,使目前红外图像检测技术遇到新的挑战。
Image detection techniques currently face a new challenge that it is difficult to acquire image features of similar foreign materials for their same appearance as the background.
由于相似异物与所处背景的外观特征极其相似,常规的红外光谱成像方法无法获取相似异物的图像特征,使目前红外图像检测技术遇到新的挑战。
Image detection techniques currently face a new challenge that it is difficult to acquire image features of similar foreign materials for their same appearance as the background.
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