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发展机载激光荧光雷达系统测量叶绿素a的浓度,模拟了采用三倍频355 nm波长激光作为激发光,机载海洋激光荧光雷达在不同飞行高度和测量不同深度水层的情况下,测量海表叶绿素a浓度的相对误差。依据模拟的参数建立机载激光荧光雷达系统并进行初步机载实验,获得了同经验数据较为一致的测量结果。 相似文献
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海洋生物样品中硒的氢化物发生-原子荧光分析(HG-AFS) 总被引:2,自引:0,他引:2
张朝辉 《中国海洋大学学报(自然科学版)》2001,31(3):375-381
采用硼氢化钠还原法将试样中硒还原为挥发性硒化氢 ,氩为载气将硒化氢吹出并导入火焰原子化器进行原子荧光测定。以正交设计法对该还原反应、氢化物转移、原子化及原子荧光测定条件等进行了详细研究。实验结果表明 ,在佳化条件下 ,该法检出限为 0 .0 72μ g/ dm3,相对标准偏差为 2 .0 %。标准曲线表明 ,在 0 .0 0 0~ 1.0 0 0μ g/ dm3Se浓度范围内 ,有理想的线性关系。本法测定海洋生物样品硒的回收率为 95.8%~ 10 2 .4 %。 相似文献
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实验采用邻苯二胺与双乙酰形成的化合物产生荧光的方法测定酒类中的双乙酰 ,其测定范围为 0 .0 0 5~ 0 .36 μg/ m L,方法的检出限为 3.2 ppb。并对实验条件、干扰、回收率、精密度和可靠性实验等进行了研究和最优化 ,此方法简便、灵敏、准确。 相似文献
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本文研究了全息存储实验中以波长532 nm的半导体激光器作为记录和读出光源,碱性品红作为光敏剂的丙烯酰胺基光致聚合物薄膜的光致光衍射现 象.它可以考虑为透过全息干涉条纹的原始入射光和反射光,与来自光聚物中未曝光的不均匀表面和内部的散射光四波混频的结果.根据简并四波混频理论中的位相匹配条件对双光束全息写入时产生的衍射光锥,以及单光束辐照复现时产生的衍射光锥现象分别做出了理论解释;并且利用全息散射理论结合三角学知识对入射光的入射角与衍射光锥的锥角的依赖关系进行了深入讨论. 相似文献
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水温 2 0℃条件下 ,选用 6种方式进行稚鲍剥离对比实验。电剥离方式在剥离效率、稚鲍存活率 (长、短期 )及生长速度方面均具有明显的优势 ;混合气体处理与升温刺激的剥离效果最差 ,其余 3种方式 (酒精、氨基甲酸乙酯、乙基氨基香酸麻醉 )没有显著差异。对不同规格稚鲍剥离实验结果表明 ,8mm以下稚鲍选用高强度电剥离 ( 0 .5~ 0 .7V/ cm)方式为最佳 ;8~ 10 mm稚鲍选用中强度 ( 0 .3~ 0 .4 V/ cm) ;12 mm以上稚鲍可使用低强度电剥离 ( 0 .1~ 0 .2 V/ cm)方式。 相似文献
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由于传统情况,匹配场处理器主要针对接收信号为高斯信号,而海洋环境中存在大量的有色噪声,因此设计基于高阶累积量的匹配场处理器具有一定价值。本文介绍了一种在海洋声层析环境下用高阶累积量来降低匹配场处理中高斯有色噪声的算法,对比研究了基于高阶累积量的简正波声场匹配场处理器、传统线性匹配场处理器、自适应匹配场处理器及二阶MUSIC算法匹配场处理器在相同声场环境条件下的匹配场定位效果。研究结果表明,在不考虑参数失配与计算量前提下,接收信号经过基于高阶累积量的简正波声场匹配场处理器后再进行匹配场定位,能有效降低旁瓣,且使用高阶累积量可显著消除海洋传播环境中高斯有色噪声和高斯白噪声对信号的干扰,其匹配效果优于另外三种匹配场处理器。 相似文献
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以2015—2016年白天和夜间的VIIRS,MODIS-Terra和MODIS-Aqua三个红外SST产品为研究对象,探讨了3个红外SST的全球覆盖情况,包括统计全年有效观测天数和每日全球海洋覆盖率,将3个红外SST与Argo浮标在全球范围以及大西洋、印度洋、太平洋进行匹配统计分析,同时对匹配点平均偏差与标准偏差随纬度的变化进行研究,最后将3个红外SST进行交叉比对。结果表明:VIIRS在白天和夜间全年观测到的最大有效观测天数高于MODIS-Terra和MODIS-Aqua,该数据白天观测到的范围最大、全球海洋覆盖率也最高,夜间3个红外SST观测范围和覆盖率差别不大;VIIRS SST产品在全球以及3个大洋统计中数据质量较MODIS-Terra和MODIS-Aqua更接近Argo浮标;3个数据白天的SST平均偏差和标准差随纬度变化除了南北高纬度地区,整体浮动相差不大,VIIRS整体偏差在0℃附近,MODIS-Aqua次之,MODIS-Terra大部分都在0℃以下。夜间偏差与标准差随纬度变化平缓,在南北半球高纬度地区波动也小于白天。VIIRS白天和夜间SST值都高于其他2个红外SST。白天,VIIRS与MODIS-Aqua的温度值接近;夜间,则与MODIS-Terra的温度值接近。 相似文献
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L. G. Bolshakova 《Izvestiya Atmospheric and Oceanic Physics》2009,45(6):770-778
The requirements imposed on the spectral characteristics of optical filters for portable optical ozonometers are analyzed;
when satisfied, they make it possible to determine the total atmospheric ozone to an accuracy no lower than the accuracy achieved
by complex spectral slit instruments. Considered is the dependence of the calculated ozone absorption coefficients on the
spectral characteristic of the filters and total ozone for the nonmonochromatic radiation measured with two optical filters.
Estimates of the role of contrast and permissible values of the background transmittance of filters in the range of 294.8–400
nm are presented. With these estimates taken into account, it is recommended in two-filter ozonometers to use interference
filters with a transmission maxima at 305.5–307 and 326–330 nm with a spectral width of their bands at half of the height
of the maximum transmission of 2–5 nm. 相似文献
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We calculate the microphysical characteristics of stratospheric aerosol from lidar-sensing data at wavelengths of 355 and 532 nm using a priori information about the aerosol spectra obtained from balloon and aircraft measurement data. We analyze the mode structure of the spectra and its coupling with the integral microphysical characteristics of aerosol. For most implementations, it was shown that two aerosol modes (of background and volcanic natures) make commensurate contributions to integral aerosol characteristics, which makes it difficult to use the traditional method of model estimates. It is more efficient to use an optical model of a statistical character that is based on approximation dependences between the required integral aerosol characteristics and lidar-measured optical characteristics. We found that the area, volume, and effective size of particles and the lidar ratio at a wavelength of 355 nm correlated with the absolute values of backscattering coefficients at wavelengths of 355 or 532 nm and the lidar ratio at the wavelength of 532 nm correlated with the ratio of backscattering coefficients at these wavelengths. We estimate the error in the determination of integral characteristics of aerosol using the model developed. The model efficiency is demonstrated on real data of stratospheric aerosol lidar sensing. 相似文献
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海洋激光荧光雷达海面油膜种类鉴别研究 总被引:1,自引:0,他引:1
海洋激光雷达在探测海面油荧光方面的应用 ,受到广泛重视。海洋激光荧光雷达是以物质荧光谱理论为基础 ,将荧光技术应用于海面油膜检测领域。本文介绍了激光荧光原理 ,青岛海洋大学海洋激光雷达的基本结构和工作过程 ,以及该套系统进行海面油膜种类鉴别的使用方法和适用范围。通过实验证明 ,该套系统性能可靠 ,测量值稳定 ,能够进行一定程度上的油荧光测量。提出采用荧光强度 4 35 / 380 ,4 35 / 5 0 0 ,4 35 / 5 5 0 ,3个比值作为油样荧光特性的描述值进行油种鉴别。相对其他的鉴别方法 ,三比值法无须配置溶液 ,适于现场测量。根据系统响应情况提取的特征值不但更有针对性 ,而且由于特征值数量多 ,对荧光谱分布曲线的描述更加准确。 相似文献
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Radiation of sound from a spherical piston, set in the side of a rigid sphere, undergoing harmonic radial surface vibrations in an acoustic halfspace is analyzed in an exact fashion using the classical method of separation of variables. The method of images in combination with the translational addition theorems for spherical wave functions is employed to take the presence of the flat boundary into account. The analytical results are illustrated with numerical examples in which the piston is pulsating near the rigid/compliant boundary of a water-filled halfspace. Subsequently, the basic acoustic field quantities such as the acoustic radiation impedance load and the radiation intensity distribution are evaluated for representative values of the parameters characterizing the system. Numerical results reveal the important effects of excitation frequency, source position, and cap angle on the acoustic radiation impedance load and the radiation intensity distribution. The presented work can lead to a better understanding of dynamic response of near-surface underwater transducers. 相似文献
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A. S. Gurvich 《Izvestiya Atmospheric and Oceanic Physics》2012,48(6):585-594
A simple derivation of the equations describing the backscatter enhancement (BSE) effect of waves on small inhomogeneities in a randomly inhomogeneous medium is presented. The BSE effect is considered in a locally isotropic turbulent atmosphere. It is shown that a system of remote sounding of atmospheric turbulence can be constructed on the basis of BSE measurements. The scheme of a lidar for BSE measurement, along with routine lidar sounding, is proposed. With the use of models it is shown that regions of increased turbulence can be detected with such a lidar. 相似文献
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The operation of a lidar intended for clear air turbulence (CAT) positioning on the basis of the backscatter enhancement (BSE) effect is analyzed using a turbulence model with a power-law spectrum. Systematic distortions occurring due to a need to regularize the lidar positioning problem solution are estimated. It is shown that the effect of molecular viscosity of air on the positioning result can be neglected if the wave parameter, which characterizes the diffraction manifestation, is higher than 3. This corresponds to sounding ranges of more than 1 km for optical or UV lidars. The analysis results show that the BSE lidar positioning accuracy weakly depends on the exponent in the turbulence spectrum in regions of severe turbulence. The results can justify a physical experiment for the design of an aircraft system for the lidar detection of CAT regions ahead of the flight course. 相似文献
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Deterministic sea-wave prediction (DSWP) models are appearing in the literature designed for quiescent interval prediction in marine applications dominated by large swell seas. The approach has focused upon spectral methods which are straightforward and intuitively attractive. However, such methods have the disadvantage that while the sea is aperiodic in nature, the standard discrete spectral processing techniques force an absolutely periodic structure onto the resulting sea surface prediction models. As it is the shape of the sea surface that is important in such applications, particularly near the end of the domain which is important, the standard windowing techniques used in signal processing work to reduce leakage artifacts cannot be employed. This has necessitated the use of end matching methods that can be both inconvenient and may reduce the fraction of the time for which legitimate predictions are available. As a result, an investigation has been undertaken of the use of finite impulse response prediction filters to provide the necessary dispersive phase shifting required in DSWP systems. The present work examines the theoretical basis for such filters and explores their properties together with their application to both long and short crested swell seas. It is shown that wide band forms of such filters are only convergent in the sense of distributions having both infinite duration impulse responses and asymptotically divergent first derivatives. However, appropriate band limitation can produce useful finite impulse responses allowing implementation via standard discrete convolution methods. It is demonstrated that despite the prediction filters having a non-causal impulse response such filters can be used in practice due to a combination of the asymmetric nature of the impulse response and the fundamental nature of the prediction process. The findings are confirmed against actual sea-wave data. 相似文献
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Combining Lidar Elevation Data and IKONOS Multispectral Imagery for Coastal Classification Mapping 总被引:1,自引:0,他引:1
This article studies the effect of airborne lidar (surface) elevation data on the classification of multispectral IKONOS images over a coastal area. The lidar data and IKONOS images are treated as independent multiple bands to conduct the classification. To do so, the lidar elevation data is first resampled to the same ground spacing interval and stretched to the same radiometric range as the IKONOS images. An unsupervised classification based on the ISODATA algorithm is then used to determine a class schema of six classes: road, water, marsh, roof, tree, and sand. Training sites and checking sites are selected over the lidar-IKONOS merged data set for the subsequent supervised classification and quality evaluation. The complete confusion matrices and average quality indices are presented to assess and compare the classification results. It is shown that the inclusion of the lidar elevation data benefits the separation of classes that have similar spectral characteristics, such as roof and road, water and marsh. The overall classification errors, especially the false positive errors, are reduced by up to 50%. Moreover, by using the lidar elevation data, the classification results show more realistic and homogeneous distribution of geographic features. This property will benefit the subsequent vectorization of the classification maps and the integration of the vector data into a geographical information system. 相似文献
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This article studies the effect of airborne lidar (surface) elevation data on the classification of multispectral IKONOS images over a coastal area. The lidar data and IKONOS images are treated as independent multiple bands to conduct the classification. To do so, the lidar elevation data is first resampled to the same ground spacing interval and stretched to the same radiometric range as the IKONOS images. An unsupervised classification based on the ISODATA algorithm is then used to determine a class schema of six classes: road, water, marsh, roof, tree, and sand. Training sites and checking sites are selected over the lidar-IKONOS merged data set for the subsequent supervised classification and quality evaluation. The complete confusion matrices and average quality indices are presented to assess and compare the classification results. It is shown that the inclusion of the lidar elevation data benefits the separation of classes that have similar spectral characteristics, such as roof and road, water and marsh. The overall classification errors, especially the false positive errors, are reduced by up to 50%. Moreover, by using the lidar elevation data, the classification results show more realistic and homogeneous distribution of geographic features. This property will benefit the subsequent vectorization of the classification maps and the integration of the vector data into a geographical information system. 相似文献