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干涉光谱数据处理技术研究进展 总被引:4,自引:0,他引:4
干涉光谱成像技术是一类同时具有成像、光谱测量功能的新型信息获取技术,由于干涉光谱成像仪获取的数据是目标的干涉数据,是一种中间数据,不能为用户直接所用,必须通过数据处理技术进行处理才能得到高质量的光谱数据,最终为用户所用.文章将干涉光谱数据处理技术分为通用型和专用型两大类,首先介绍了通用型干涉光谱数据处理技术的发展历程,然后针对干涉光谱成像技术的分类,介绍了不同类型干涉光谱数据的提取方式,对近些年来国内外专用型干涉光谱数据处理技术的发展进行了分析介绍.最后,对干涉光谱数据处理技术的发展趋势进行了展望. 相似文献
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针对大口径望远镜拼接式主镜,提出一种基于迈克尔逊干涉原理的低相干光谱干涉检测系统.应用该系统对拼接子镜间相位失调误差进行实时检测,进而对失调子镜进行相应校正,以实现拼接子镜的共面排布.子镜间相位误差通过干涉图形间的不匹配性进行提取.给出了该低相干光谱干涉检测系统的具体结构,叙述了该干涉检测系统的检测原理.针对该系统的干涉条纹对比度V及系统的最低信噪比SNRdBmin进行了分析,论证了通过该低相干光谱干涉检测系统进行子镜间相位误差检测的可行性. 相似文献
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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。在星载使用时,由于卫星数据传输容量的限制,需要对干涉成像光谱仪获得的原始干涉数据进行压缩,然后经过数据传输,到地面进行解压缩,再进行光谱复原处理,才能交给用户使用,干涉数据的压缩是一项新的技术,国内外很少有专门的文献进行介绍,基于该单位对此技术多年的研究,针对空间调制型干涉光谱成像仪数据的特点,结合环境与灾害监测预报小卫星星座A星超光谱成像仪的数据,提出了一种针对空间调制型干涉成像光谱仪的数据压缩方法,获得了很好的结果。 相似文献
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空间调制型干涉光谱成像仪数据处理方法 总被引:1,自引:0,他引:1
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。干涉成像光谱仪获得的是间接数据干涉图,不能被用户直接使用,需要进行干涉数据反演处理,包括数据预处理(干涉图修正)、切趾、相位修正、傅里叶变换、光谱辐射定标等一系列复杂的处理,目前国内外尚未有文献对干涉数据处理技术进行全面的分析,文章基于作者单位对此技术多年的研究,针对空间调制型干涉光谱成像仪的数据处理方法,结合环境与灾害卫星超光谱成像仪的数据,提出了一套有效的数据反演方法和流程,获得了很好的数据反演结果。 相似文献
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Target tracking technology that is based on aerial videos is widely used in many fields; however, this technology has challenges, such as image jitter, target blur, high data dimensionality, and large changes in the target scale. In this paper, the research status of aerial video tracking and the characteristics, background complexity and tracking diversity of aerial video targets are summarized. Based on the findings, the key technologies that are related to tracking are elaborated according to the target type, number of targets and applicable scene system. The tracking algorithms are classified according to the type of target, and the target tracking algorithms that are based on deep learning are classified according to the network structure. Commonly used aerial photography datasets are described, and the accuracies of commonly used target tracking methods are evaluated in an aerial photography dataset, namely, UAV123, and a long-video dataset, namely, UAV20L. Potential problems are discussed, and possible future research directions and corresponding development trends in this field are analyzed and summarized. 相似文献
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Kuang Tsan Lin 《Optics Communications》2009,282(4):527-248
An encoding method is used to encrypt the Fourier-transformed information of a hidden (covert) digital image in an overt image, while the Fourier-transformed information must be encoded with binary codes. All of the pixels in an overt image are classified into five groups that are called identification, type, tracing, dimension, and information codes. Identification codes are used to judge if the overt image contains codes that belong to the proposed encoding method or not; type codes are used to judge the encoding type; tracing codes are used to judge the encoding trace; dimension codes are used to judge the size of the hidden information; and information codes are used to decode the hidden information. Applying the proposed encoding method is rather easy, and host images corresponding to overt images are not needed for decoding work. The experiment has demonstrated four types of encoding for the proposed encoding method to reconstruct covert images without any distortion or only with a little distortion. 相似文献
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Andrea D’Anna Mario Commodo Cristophe Allouis 《Proceedings of the Combustion Institute》2007,31(1):621-629
Spectral optical techniques are combined to characterise the distribution of large-molecule soot precursors, nanoparticles of organic carbon, and soot in two turbulent non-premixed ethylene flames with differing residence times. Laser-induced fluorescence, laser-induced incandescence and light scattering are used to define distributions across the particle size distribution. From the scattering and laser-induced emission measurements it appears that two classes of particles are formed. The first ones are preferentially formed in the fuel-rich region of the flame closer to the nozzle, have sizes of the order of few nanometers but are not fully solid particles, because the constituent molecules still maintain their individual identity exhibiting strong broadband fluorescence in the UV. The second class of particles constituted by solid particles, with sizes of the order of tens of nanometers are able to absorb a sufficient number of photons to be heated to incandescent temperatures. These larger particles are formed at larger residence times in the flame since they are the result of slow growth processes such as coagulation or carbonization. The flames are also modeled in order to produce mixture fraction maps. A new discovery is that nanoparticles of organic carbon concentration, unlike soot, does correlate well with mixture fraction, independent of position in the flame. This is likely to be a significant benefit to future modelling of soot inception processes in turbulent non-premixed flames. 相似文献
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As borders between different entities, lines are an important element of natural images. Indeed, the neurons of the mammalian
visual cortex are tuned to respond best to lines of a given orientation. This preferred orientation varies continuously across
most of the cortex, but also has vortex-like singularities known as pinwheels. In attempting to describe such patterns of
orientation preference, we are led to consider underlying rotation symmetries: Oriented segments in natural images tend to
be collinear; neurons are more likely to be connected if their preferred orientations are aligned to their topographic separation.
These are indications of a reduced symmetry requiring joint rotations of both orientation preference and the underlying topography.
This is verified by direct statistical tests in both natural images and in cortical maps. Using the statistics of natural
scenes we construct filters that are best suited to extracting information from such images, and find qualitative similarities
to mammalian vision.
PACS84.35+i 89.70.+c 87.57.Nk 相似文献
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Jesús Gutirrez-Gutirrez Fernando M. Villar-Rosety Xabier Insausti Marta Zrraga-Rodríguez 《Entropy (Basel, Switzerland)》2022,24(5)
In the era of the Internet of Things, there are many applications where numerous devices are deployed to acquire information and send it to analyse the data and make informed decisions. In these applications, the power consumption and price of the devices are often an issue. In this work, analog coding schemes are considered, so that an ADC is not needed, allowing the size and power consumption of the devices to be reduced. In addition, linear and DFT-based transmission schemes are proposed, so that the complexity of the operations involved is lowered, thus reducing the requirements in terms of processing capacity and the price of the hardware. The proposed schemes are proved to be asymptotically optimal among the linear ones for WSS, MA, AR and ARMA sources. 相似文献
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High-level ab initio calculations are employed to generate potential energy curves for rare gas cations, RG+, interacting with neutral atoms of other rare gases, RG′, that are lighter (RG′ = Ne–Rn). The calculations employ the RCCSD(T) method, with doubly-augmented basis sets of quintuple-ζ quality. The interaction potential curves, with the full counterpoise correction applied, are calculated point-by-point. Spin-orbit coupling is applied analytically in an atom-based model. The potentials are used to calculate spectroscopic parameters, which are then compared to recent experimental work, and the very limited previous theoretical work. In addition, the potentials are used to calculate ion transport properties and the ion mobilities are compared to the few experimental data available. 相似文献