光谱成像技术

目的研究运用光谱成像技术进行物证形态检验的可能性和方法。

Objective To explore the application of spectral imaging to forensic science .

光谱成像技术和暗视场配光结合显现潜指印初探

Detecting Fingerprint by Spectral Imaging Combined with Dark Field Lighting

本论文基于窄带多光谱成像技术建立八通道CCD多光谱成像系统，它能够实时采集八个通道的图像，获得波长分布从可见到红外（420&940nm）八个波段的光谱响应值。

Based on the narrow band multi-spectral imaging technology a eight channel multi-spectral imaging system is set up which can acquire eight images in real time and eight Spectral responses ranging from 420 nm to 940 nm for a certain element .

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 .

机载多角度多光谱成像技术在电力系统中的应用

Application of Airborne Multiangular and Multispectral Imaging System in Power System

多光谱成像技术在颜色复制方面的应用及发展

Application and Development of Multispectral Imaging Technology in Color Reproduction

基于多光谱成像技术的水稻叶瘟检测分级方法研究

Identification and Classification of Rice Leaf Blast Based on Multi-Spectral Imaging Sensor

基于多光谱成像技术的大麦赤霉病识别

Identification of barley scab based on multi-spectral imaging technology

基于多光谱成像技术的印刷品真伪鉴别研究

Study of Printing Identification Based on Multi-spectrum Imaging Technology

基于高光谱成像技术的牛肉大理石花纹的评估

Analysis of Beef-marbling Grade Using Hyperspectral Imaging Technology

最后对我国发展超光谱成像技术提出一些建议。

It also brings out some suggestion of developing hyper-spectral imaging technology in China .

光谱成像技术及其在生物医学研究中的应用

Spectral Imaging Technique And its Biomedical Researching Applications

基于这一原理的多光谱成像技术可以准确快速地重建目标表面的光谱反射率。

Mutispectral imaging technology based on this principle can recover spectral reflectance accurately and quickly .

探讨了高光谱成像技术实现对虾冷藏时间的预测。

Studied the application prospect of Hyper Spectral Imaging technology in the determination of refrigeration of prawn .

光谱成像技术进展

Progress of spectral imaging technique

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 .

近年来，多光谱成像技术在一些对颜色重现要求较高的领域得到了广泛的应用。

In recent years , muti-spectral imaging technology has been widely used in some high-precision color reproduction area .

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 .

超光谱成像技术是一种图谱合一的光电探测识别技术，是光谱学和光学成像技术的有机结合。

Hyperspectral imaging technology is a photoelectric detection and recognition technology which is the combination of spectroscopy and optical imaging .

基于谱直方图及其相似性的纹理图像分割研究基于高光谱成像技术的牛肉大理石花纹的评估

Texture Segmentation Research Based on Spectral Histograms and Similarity of Spectral Histograms Analysis of Beef-marbling Grade Using Hyperspectral Imaging Technology

干涉型光谱成像技术是一种新型的光谱成像技术，近些年来发展迅速。

Fourier transform imaging spectrometer is a new technic , and has been developed very fast in recent ten years .

在此基础上，本实验继续研究了高光谱成像技术定量分析红枣表面毒死蜱含量。

On this basis , we studied the quantitative analysis of chlorpyrifos in the red jujube surface by the hyperspectral imaging .

随着光谱成像技术的发展，打印系统光谱特征化研究也逐渐成为相关领域的研究重点。

With the development of spectral imaging technology , spectral-based printer characterisation has become a hot research focus in the related filed .

文章介绍了星载超光谱成像技术的基本概念、主要应用目标和原理。综述了超光谱成像技术的国内外发展现状。

The paper introduces the basic concept and principle of hyper-spectral imaging technology , sums up the application of the technology in some countries .

主要研究内容结果为：（1）基于高光谱成像技术判别红枣表面农药残留的种类。

The results of main research content as follows : ( 1 ) Based on the hyperspectral imaging technique to discriminate pesticide residues in the surface of jujube .

紫外双光谱成像技术是光谱技术和成像技术的合成，是针对军事需求而发展起来的新型检测技术，图像融合是该技术的重要组成部分。

UV double spectra imaging technology consist of spectro-technique and imaging technology , which is mainly for the military application , and image fusion is an important part of it .

光致荧光技术及荧光光谱成像技术以其实时、微创或无创、副作用小及灵敏度高等特点，在肿瘤疾病的诊断上得到了广泛的应用。

The technology of light induced fluorescence and fluorescence imaging are used widely on the diagnosis of cancer because of the characters of on time , mini-invasive or non-invasive , low side-effect and high sensitivity .

高光谱成像技术是20世纪80年代初在遥感界发展起来的新兴研究领域，是上世纪末本世纪初的遥感前沿技术。

Hyperspectral imaging is the new research field which developed in the remote sensing in the early of 20th century 80s . It is also the leading-edge technology of remote sensing at turn of the century .

光谱成像技术可以同时从光谱维和空间维上获取被测目标的信息，即结合了空间成像系统和光谱检测系统的功能，因此近年在影像获取与处理领域中倍受重视。

Multi-spectral imaging technology , integrated with the capabilities of spatial imaging and spectral detecting , can acquire both spatial information and spectral information simultaneously , thus it is highly emphasized in acquisition and process of image .

本文对计算光谱成像技术进行了系统性的研究，主要内容包括：1.归纳总结了传统光谱成像技术的分类、应用及其遇到的瓶颈，介绍了计算光谱成像技术的研究现状。

Systematic study of computational imaging spectrometry is carried out in this paper , and the main work is included as follows : Firstly , the classification , applications and bottleneck of conventional imaging spectrometers are summarized .