高分辨连续光源原子吸收光谱仪检测饮用矿泉水中的金属离子   总被引：2，自引：1，他引：2  

汪雨 《岩矿测试》2007,26(6):485-489

简要介绍了高分辨连续光源原子吸收光谱仪（HS—CS—AAS）的基本特点，并利用HS—CS—AAS测定了饮用矿泉水中的钙、镁、锶、钾、钠等微量元素。结果表明，测定各种离子的加标回收率为96．2％～100．9％，相对标准偏差（RSD，n=7）为0．44％～4．90％。  相似文献   

变化检测技术及其在高分辨率卫星遥感影像中的应用     

XING Shuai  SUN Man  XU Qing  GENG Xun 《测绘学院学报》2007,(Z1)

对高分辨率遥感卫星影像利用变化检测技术更新现有的影像数据库或地图数据库是一项对测绘具有重要意义的工作。对现有的变化检测技术进行了分类总结,然后提出了对高分辨率遥感卫星影像进行变化检测的实施流程,最后结合数学形态学算法对SPOT5影像(2.5 m分辨率)进行了相关实验。  相似文献   

Minimising algorithm-induced artefacts in true ortho-image generation: a direct method implemented in the vector domain     

Yongwei  Sheng 《The Photogrammetric Record》2007,22(118):151-163

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光谱与纹理信息复合的土地利用/覆盖变化动态监测研究   总被引：8，自引：0，他引：8  

张锦水  潘耀忠  韩立建  苏伟  何春阳 《遥感学报》2007,11(4):500-510

及时、准确地动态监测地球表面特性对于掌握人类和自然现象之间的关系和相互作用是非常重要的,并为决策的制定奠定基础。传统卫星遥感的土地利用/覆盖变化动态监测方法基本上可分为光谱直接比较法和分类比较法两大类,但两类方法多以光谱信息为基础来提取土地利用变化信息,而忽略纹理等空间信息。本研究中,基于变化向量分析方法,将光谱与纹理两种信息复合计算变化强度,并采用支持向量机法提取变化/非变化信息,通过监督分类确定变化区域内的土地利用/覆盖类型的转移方向,完成土地利用/覆盖动态监测。最后,利用两期TM数据,对海淀区1997—2004年进行土地利用/覆盖变化动态监测,以验证该方法。该方法较分类后比较法在一定程度上减少误差积累,降低了错误类型转化,提取的变化信息总精度达到93.1%,Kappa为0.862,比利用光谱信息双窗口变步长的变化向量分析方法提取出土地利用/覆盖变化信息的精度有一定的提高(总体精度为90.2%,Kappa为0.804)。纹理信息与光谱信息复合,能够更大拉开变化/非变化信息之间的距离,有利于动态变化信息的提取,是该方法能够有效提取变化信息的关键所在。  相似文献   

粒度Hough变换及其在遥感影像直线检测中的应用   总被引：1，自引：0，他引：1  

巫兆聪  万茜婷  梁静  周正 《武汉大学学报(信息科学版)》2007,32(10):860-863

在基于Hough变换的遥感影像直线检测的过程中引入粒度计算的概念,利用粒度计算具有多角度、多层次观察问题的能力,对遥感影像中的直线边缘特征进行不同粗细的粒度分析,建立粒度计算概念下的直线检测算法,实现对不同长短、粗细直线的识别。真实的IKONOS遥感影像机场跑道提取试验证明了该方法的有效性。  相似文献   

Anomaly Detection in MODIS Land Products via Time Series Analysis     

ZHANG Jingxiong David Roy Sadashiva Devadiga ZHENG Min 《地球空间信息科学学报》2007,10(1):44-50

With remote sensing information products becoming increasingly varied and arguably improved, scientific applications of such products rely on their quality assessment. In an operational context such as the NASA (National Aeronautics and Space Administration) information production based on the MODIS (Moderate Resolution Imaging Spectroradiometer) instrument on board Earth Observing System (EOS) Terra and Aqua satellites, efficient ways of detecting product anomaly, i.e., to discriminate between product artifacts and real changes in Earth processes being monitored, are extremely important to assist and inform the user communities about potential unreliability in the products. A technique for anomaly detection, known as MAD (the median of absolute deviate from the median), in MODIS land products via time series analysis is described, which can handle intra- and in-ter-annual variation in the data by using MAD statistics of the original data and their first-order difference. This method is shown to be robust and work across major land products, including NDVI, active fire, snow cover, and surface reflectance, and its applicabil-ity to multi-disciplinary products is anticipated.  相似文献   

A Bayesian approach to the detection of gross errors based on posterior probability     

Q. Gui  Y. Gong  G. Li  B. Li 《Journal of Geodesy》2007,81(10):651-659

Existing methods for gross error detection, based on the mean shift model or the variance inflation model, have hardly considered or taken advantage of the potential prior information on the unknown parameters. This paper puts forward a Bayesian approach for gross error detection when prior information on the unknown parameters is available. Firstly, based on the basic principle of Bayesian statistical inference, the Bayesian method—posterior probability method—for the detection of gross errors is established. Secondly, considering either non-informative priors or normal-gamma priors on the unknown parameters, the computational formula of the posterior probability is given for both the mean shift model and the variance inflation model, respectively, under the condition of unequal weight and independent observations. Finally, as an example, a triangulation network is computed and analyzed, which shows that the method given here is feasible.  相似文献   

Sensitivity equations for hyperbolic conservation law-based flow models     

Vincent Guinot  Matthieu LeménagerBernard Cappelaere 《Advances in water resources》2007

The present paper focuses on the governing equations for the sensitivity of the variables to the parameters in flow models that can be described by one-dimensional scalar, hyperbolic conservation laws. The sensitivity is shown to obey a hyperbolic, scalar conservation law. The sensitivity is a conserved scalar except in the case of discontinuous flow solutions, where an extra, point source term must be added to the equations in order to enforce conservation. The propagation speed of the sensitivity waves being identical to that of the conserved variable in the original conservation law, the system of conservation laws formed by the original hyperbolic equation and the equation satisfied by the sensitivity is linearly degenerate. A consequence on the solution of the Riemann problem is that rarefaction waves for the variable of the original equation result in vacuum regions for the sensitivity. The numerical solution of the hyperbolic conservation law for the sensitivity by finite volume methods requires the implementation of a specific shock detection procedure. A set of necessary conditions is defined for the discretisation of the source term in the sensitivity equation. An application to the one-dimensional kinematic wave equation shows that the proposed numerical technique allows analytical solutions to be reproduced correctly. The computational examples show that first-order numerical schemes do not yield satisfactory numerical solutions in the neighbourhood of moving shocks and that higher-order schemes, such as the MUSCL scheme, should be used for sharp transients.  相似文献   

Effects of underground cavities on Rayleigh waves—Field and numerical experiments     

A. Nasseri-Moghaddam  G. Cascante  C. Phillips  D.J. Hutchinson 《Soil Dynamics and Earthquake Engineering》2007,27(4):300-313

This paper presents the results of a multi-channel analysis of surface waves (MASW) test conducted over near-surface mine workings, with the objective of delineating the underlying. Numerical studies were carried out to explain and extend the results. The displacement time histories at the surface show amplitude changes in the region over the void, and the Fourier spectra show significant energy concentration on and in the vicinity of the cavity. Different numerical models are constructed and the responses at the surface of the medium and around voids of different sizes and embedment depths are monitored. The numerical results show that part of the incident energy is trapped within the void. The trapped energy bounces back and forth inside the void, until it is attenuated by radiation. The effect of the trapped energy is seen as a concentration of energy over the void region in the frequency domain. The amount of trapped energy is a function of the size and embedment of the void, as well as of the frequency content of the source. The void absorbs part of the energy and radiates it as body waves. Therefore, the recorded responses at the surface carry valuable information about the void. The characteristics of the void can be extracted from the surface responses by analyzing the responses in time, frequency, and spatial domains.  相似文献   

Radar measurements of integral parameters of hailstorms used on hail suppression projects     

Viktor Makitov   《Atmospheric Research》2007,83(2-4):380-388

The exact quantitative estimation of hailstorm precipitation intensity, allowing determining successfully the crop hail damage, is extremely necessary while carrying out of programs of experimental researches of the hail clouds as well as at realization of operative projects on hail suppression. On the other hand, the possibility of obtaining a trustworthy information about changes of hailfall intensity during cloud seeding operations enables to judge more objectively about seeding effect and to make a decision about its beginning and termination. Just because of such a parameter, the kinetic energy of hailfalls presents a great interest for the researchers. As it is known, measuring the kinetic energy of hailfalls is carried out both directly by ground network of hailpads, and by radar methods. The accuracy of the radar methods of the hail kinetic energy measurement strongly depends not only on the choice of an optimum formula for calculation but also on the algorithm used for separating hail and rain parts of radar echo and on the way it was used in the hail–rain mixture zone of precipitation.The method of calculating the kinetic energy of the hailfalls, based on empirical dependence of hail probability P_h on a height of a zone of a radar echo with a reflectivity of 45 dBZ above a level of zero isotherm ΔH₄₅, is offered in the given work. The algorithm of separating hail and rain parts of a radar echo and the way it was applied in a hail–rain mixture zone is described. The examples of hail streaks in contours of radar reflectivity and in isopleths of hail kinetic energy obtained using the given algorithm are shown.In Mendoza province (Argentina), a hail suppression project (1993–1997) for the analysis of the vertical structure of a radar echo with Z_max > 45 dBZ, such new parameter is an integral altitude, was used. This dimensionless parameter is most sensitive to such a condition of radar echo when all four contours of increased reflectivity Z₄₅, Z₅₅, Z₆₅, and Z₇₅ synchronously reach the maximal values. The analysis of time distributions of the main radar parameters of hailstorms on a background of values of integral altitude is resulted. It is shown that local hailfall maximum intensities on the ground are observed after the achievement of maximum integral altitude with a certain delay. It enables to predict zones of the greatest hail damage in a mode of radar observation.  相似文献