综述空间调制偏振干涉成像光谱技术及其研究进展。
Summarizing spatially modulated polarization interference imaging spectroscopy and research progress.
基于光电子成像光谱技术原理,研究了双光子共振三光子电离方法获得的光电子成像图谱。
Based on the principle of the photoelectron imaging spectrometry, the photoelectron image is investigated by using two-photon resonance and three-photo ionization.
全球变化将成为遥感的重要目标,微波遥感、成像光谱技术等将是下一代遥感技术的主要代表。
The global change will be a undoubted target while the microwave remote sensing and the imaging spectrometer will be the representatives of the next generation of remote sensing techniques.
采用干涉成像光谱技术对被探测源谱线为高斯轮廓时风场的速度、温度的测量进行了分析和计算。
Variation of path difference velocity and temperature of wind field are analyzed and calculated applying interference image spectroscopy.
根据光纤光栅多传感器复用时信号的光谱特征,提出了采用成像光谱技术对复用信号进行解调的方案。
According to the spectral feature of the signal generated by the multiplexed fiber Bragg grating (FBG) sensors, image spectrometry is proposed to demodulate multiplexed signal.
在成像光谱技术迅猛发展的今天,由于光谱分辨率的不断提高,使得一些传统技术方法的应用遇到困难。
Today, because of the constant increase of spectral resolution, it is difficult to the application of traditional image processing methods.
相里斌,干涉成像光谱技术研究。西北大学现代物理研究所博士后出站报告,1997.8 ~12。
Xiangli B. The Research of Imaging spectroscopy. Xi 'an: Northwest University of China, 1997.8 ~ 12.
土地动态监测是土地管理工作中的重要环节,研究成像光谱技术在土地动态监测中的应用具有十分重要的意义。
Land dynamic monitoring is a key part of land management. Thus it is very important to study the application of imaging spectrometry in land dynamic monitoring.
本文介绍了成像光谱技术及其在土地动态监测中的应用,并对利用成像光谱技术进行土地动态监测的关键技术进行了阐述。
This paper introduces imaging spectrometry and its application in land dynamic monitoring, and discusses the key techniques of using imaging spectrometry in land dynamic monitoring.
研究结果表明,显微成像光谱技术作为一种新的技术手段,必将在临床医学、生物学、材料学以及分析化学等领域得到广泛的应用。
The research result shows microscopical imaging spectrometer will get extensive applications in biological, medical, chemical and material fields as a new analytical method.
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.
科学家们同时利用功能性核磁共振成像和近红外光谱技术来监测受试者,观察他们大脑的升温模式,以此获得大脑的活动图像。
The scientists monitored the dreamers with both magnetic resonance imaging and near-infrared spectroscopy to see patterns of heat in their subject's heads, which gives a picture of brain activity.
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.
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.
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.
高光谱遥感是指利用很窄而连续的光谱通道对地物遥感成像的技术。
Hyperspectral remote sensing refers to use very narrow and continuous spectrum of remote sensing image features continuous channel of technology.
本发明提供一种利用超声和光谱技术组合成像和分析生物结构的设备。
The invention provides an apparatus for combined imaging and analyzing of a biological structure by means of ultrasonic and spectroscopic techniques.
讲座将介绍在太赫兹光谱和成像和频率,振幅,分辨率和动态范围测量技术相关的校准方法。
The talk will describe measurement techniques in THz spectroscopy and imaging and related calibration methods for frequency, amplitude, resolution and dynamic range.
综述了近十年来HT光谱和成像技术在分析科学中的应用和研究进展。
The applications and advances of HT spectroscopy and imaging in the field of analytical science for the recent decade are reviewed in this paper.
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.
在多光谱摄影和光电成像技术基础上,本文提出了一种可实时化的多光谱图像融合系统。
Based on the multispectral photography and photoelectric imaging technology, a real-time fusion system of multispectral imaging is developed.
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.
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.
因此,在信息提取技术方面比起传统的光谱技术和成像技术提供更丰富、全面的信息。
Therefore, spectral imaging technology is the combination of spectral analysis and image analysis. Compared to the general spectroscopy, it has a great advantage in information extraction.
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.
首先对红外成像技术在医学领域的应用进行分析,并结合人体组织红外光谱特点,得出血管组织红外成像的基础。
Firstly, medical ir imaging has been analyzed, basing on the character of subcutaneous structures ir absorbing, got the theory about the research.
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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