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1.
在油气资源遥感探测中,通过烃渗漏引起的海表面甲烷气浓度异常来探测海底气藏是最直接的方法之一。为了更好地识别海表甲烷异常,提高遥感反演精度,对海表甲烷气含量进行定量光谱分析研究。设计室内甲烷波谱测试平台,获取海水背景下不同含量甲烷高光谱数据为数据,对光谱数据预处理及进行比值导数光谱法,并提取光谱吸收特征参数,对甲烷含量与光谱参数之间进行相关性分析,构建甲烷含量的反演模型。比值导数光谱法确实抑制了海水背景信息,突出了甲烷特征。1650—1664 nm和2180—2210 nm波段范围的光谱参数与甲烷含量相关性显著;其中,波谷、波深、面积、斜率与甲烷含量显著相关。基于2180—2210 nm波段范围建立的波谷、波深、面积、斜率四元回归方程y=-14.356 - 5931.796x1 - 4325.081x2+241.481x3+7531.973x4拟合效果最好,R2为0.9817;且在此波段范围内基于波深建立的单变量甲烷反演模型y = 2047.571x - 9.758,R2为0.9741,比基于其他变量所建立的反演模型效果要好。成功获取了和海水背景下甲烷含量线性相关显著的对应波段和吸收特征,可为利用多/高光谱遥感预测勘探海表面甲烷气浓度提供一定的理论和技术依据。 相似文献
2.
受同物异谱和异物同谱现象的影响,对遥感影像进行分类时若仅利用光谱信息则分类精度的提高将会受到限制,而局部空间统计特征可以通过对地物空间聚集度的描述与分析在一定程度上减轻这种影响。本文研究了局部空间统计在不同指数(Moran’s I, Getis-Ord Gi, Geary’s C)、邻域规则和间隔距离下,对高空间分辨率的SPOT 5影像分类精度的影响规律。首先,对波段1进行局部空间统计分析,运算结果作为纹理波段添加到原始的光谱波段中;然后,综合利用光谱波段和纹理波段进行监督分类;最后,选取测试样本进行分类的精度评价,并比较分析不同条件下的分类精度,得到地物分类精度同参数之间的关系与规律。通过分析可以得出Getis-Ord Gi指数对于总体分类精度的提高最理想,总体分类精度从 87.74%提高到95.12%。 相似文献
3.
耕层土壤有机质高光谱间接估测模型 总被引:1,自引:0,他引:1
针对光学遥感技术只能获取表层土壤光谱信息而无法直接估测耕层土壤有机质含量的问题,探索建立基于表层土壤高光谱信息的耕层土壤有机质间接估测模型。以山东省济南市章丘区采集的76个表层、耕层土壤样本数据为基础,首先分析原始光谱反射率的光谱特征;然后利用反射率的一阶微分、平方根的一阶微分和对数倒数的一阶微分等方法对原始光谱反射率进行变换,并根据极大相关性原则选取估测因子;最后根据表层土壤有机质含量与耕层有机质含量间的内在关系,建立耕层土壤有机质含量的间接估测模型。结果表明,以557、1 621、2 107和2 316 nm波段对数倒数的一阶微分变换值和864 nm波段反射率平方根倒数一阶微分的变换值为估测因子,使用二次函数关系模型对耕层土壤有机质含量间接估测的精度最高,其决定系数R~2为0.784,平均相对误差为10.7%。研究表明,利用表层土壤高光谱信息间接估测耕层有机质含量可行有效。 相似文献
4.
黄河口水体光谱特性及悬沙浓度遥感估测 总被引:10,自引:1,他引:10
通过黄河口含沙水体野外遥感光谱反射率的观测实验,探讨了黄河口水体表观光谱特性,分析了悬浮体中有机颗粒含量和悬沙粒度对光谱特性的影响。针对Landsat TM/ETM^+影像波段特性,对黄河口含沙水体在其可见光至近红外4个波段的光谱特性进行了模拟分析,并结合表观光谱观测数据建立了经验回归函数,以估测不同时相黄河口水体表层悬沙的浓度。 相似文献
5.
基于野外测定的水质参数,通过研究三峡坝区水体中水色要素浓度与反射率之间的关系,选择反演叶绿素、悬浮物、溶解性有机物的最佳波段,建立了反演水色要素浓度的遥感定量模型。研究表明,在波段比值的基础上进行幂次修正的波段组合反射率与SS浓度相关性较好(R2=0.76),可以用来估算悬浮物浓度;悬浮物浓度影响叶绿素浓度的反演精度,通过在模型中增加一个红绿波段比值指数项的方法能够抑制或削弱悬浮物的影响,提高了叶绿素浓度的反演精度(R2=0.75);DOC反演模型中,绿光波段与红光波段反射率的对数值能较好的估算DOC浓度,且与log(DOC)相关程度最高,决定系数为0.85,反演精度较高。 相似文献
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《国土资源遥感》2018,(4)
以杭州湾及其邻近海域为研究区,利用现场实测光谱模拟了近海高光谱成像仪(hyperspectral imager for the coastal ocean,HICO)波段,并在光谱特征分析的基础上确定特征波段,通过比较单波段、波段比值和反射峰面积等算法,建立了该海域悬浮物的遥感反演模型,并采用均方根误差和相对误差进行精度评价。研究结果表明,利用724. 84 nm与461. 36 nm波段光谱反射率比值建立的模型精度较高;模型的决定系数为0. 925 2,反演得到的悬浮物浓度与实测悬浮物浓度之间的均方根误差为14. 09 mg/L,平均相对误差为5. 2%。本研究对利用HICO模拟数据反演近海岸水体悬浮物具有一定的参考意义。 相似文献
8.
黄浦江水质指标与反射光谱特征的关系分析 总被引:16,自引:0,他引:16
利用地物光谱测量技术及同步配套的常规水质采样分析实验,对上海市黄浦江全河段水体进行调查研究。共选取31个典型站位进行了光谱测量和同步水质取样,每个测点分析了9个水质指标,包括TP,TN,CODMn,CODCr,NH3-N,BOD5,DO,悬浮物浓度和浊度。各水质参数之间存在较大的相关性,以总氮(TN)和悬浮物浓度两个水质指标为例,分析了这两个水质指标与单波段归一化反射率、反射率的一阶微分、不同波段之间反射率的比值以及反射率取对数等之间的相关关系,给出了以上两个水质指标的单波段归一化反射率、一阶微分反射率识别的特征波段,以及两个波段比值的最佳波段组合。建立了常规水质参数与水体光谱反射率之间的关系模型,为利用遥感技术监测水环境提供了基础。 相似文献
9.
鄱阳湖富营养化高光谱遥感监测模型初探 总被引:4,自引:1,他引:3
基于对光谱反射率与水质参数的相关分析,分别选取特征波长建立水质参数高光谱估测模型。结合修正营养状态指数,对湖泊的富营养化程度进行了监测和评价。结果表明:①总氮、总磷含量和透明度值的高光谱估测模型效果较理想;②单项指数评价水体富营养化水平其结果存在较大差异,综合考虑多个指标,计算营养指数的平均值,可以对富营养化程度进行正确的评价;③由于悬浮物浓度变化较大,掩盖了水体的叶绿素a信息,以致叶绿素a估测模型不具有通用性,为了完善叶绿素a浓度估测模型需要获得大范围、多季节的光谱数据,以便建立更有代表性和通用性的模型;④评价结果显示,鄱阳湖呈现轻度到中度富营养化状态,需要采取有力的保护措施防止进一步恶化。 相似文献
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11.
Martin Schlerf Clement Atzberger Joachim Hill Henning Buddenbaum Willy Werner Gebhard Schüler 《International Journal of Applied Earth Observation and Geoinformation》2010
The research evaluated the information content of spectral reflectance (laboratory and airborne data) for the estimation of needle chlorophyll (CAB) and nitrogen (CN) concentration in Norway spruce (Picea abies L. Karst.) needles. To identify reliable predictive models different types of spectral transformations were systematically compared regarding the accuracy of prediction. The results of the cross-validated analysis showed that CAB can be well estimated from laboratory and canopy reflectance data. The best predictive model to estimate CAB was achieved from laboratory spectra using continuum-removal transformed data (R2cv = 0.83 and a relative RMSEcv of 8.1%, n = 78) and from hyperspectral HyMap data using band-depth normalised spectra (R2cv = 0.90, relative RMSEcv = 2.8%, n = 13). Concerning the nitrogen concentration, we observed somewhat weaker relations, with however still acceptable accuracies (at canopy level: R2cv = 0.57, relative RMSEcv = 4.6%). The wavebands selected in the regression models to estimate CAB were typically located in the red edge region and near the green reflectance peak. For CN, additional wavebands related to a known protein absorption feature at 2350 nm were selected. The portion of selected wavebands attributable to known absorption features strongly depends on the type of spectral transformation applied. A method called “water removal” (WR) produced for canopy spectra the largest percentage of wavebands directly or indirectly related to known absorption features. The derived chlorophyll and nitrogen maps may support the detection and the monitoring of environmental stressors and are also important inputs to many bio-geochemical process models. 相似文献
12.
S. Kasi Viswanath N. K. Tripathi K. R. Salin 《Journal of the Indian Society of Remote Sensing》2018,46(4):675-685
Chlorophyll-a (Chl-a) and Suspended Solid Concentration (SSC) shows the productivity of water and their surrounding environment. These parameters can be effectively estimated through several remote sensing techniques. From the recent reports on the Gulf of Thailand, it is found that Chl-a and SSC are increasing in coastal areas due to changing environment caused by variations in the global carbon cycle, climate change and water pollution linking to anthropogenic conditions such as high population density and rapid urbanization in neighbouring coastal areas deteriorating the coastal and marine environment. Various models are evaluated in this study for estimation of marine Chl-a and SSC by employing Ocean Colour Monitor-2 sensor of Oceansat-2 satellite for Northern Gulf of Thailand. The retrieval of Chl-a and SSC by the atmospheric correction of visible bands from 400 to 700 nm to attain normalized water-leaving radiances and then a suitable algorithm is applied. The In-situ reflectance values of sea waters are measured using the ASD spectroradiometer. The reflectance values of the spectroradiometer are correlated for the same day atmospherically corrected satellite reflectance and the analysis offers high correlation R2 0.73. Satellite derived, Chl-a and SSC are correlated with observed in situ Chl-a and SSC. This analysis offered better correlation of R2 0.86 and 0.85 respectively with the algorithms of Chl-a and SSC. 相似文献
13.
Forage is among the essential ecosystem services provided by tropical savannas. Expected changes in climate and land use may cause a strong decline in herbaceous forage provision and thus make it advisable to monitor its dynamics. Spectroscopy offers promising tools for fast and non-destructive estimations of forage variables, yet suffers from unfavourable measurement conditions during the tropical growing period such as frequent cloud cover and high humidity. This study aims to test whether spatio-temporal information on the quality (metabolisable energy content, ME) and quantity (green biomass, BM) of West African forage resources can be correlated to in situ measured reflectance data. We could establish robust and independent models via partial least squares regression, when spectra were preprocessed using second derivative transformation (ME: max. adjusted R2 in validation (adjR2VAL) = 0.83, min. normalised root mean square error (nRMSE) = 7.3%; BM: max. adjR2VAL = 0.75, min. nRMSE = 9.4%). Reflectance data with a reduced spectral range (350–1075 nm) still rendered satisfactory accuracy.Our results confirm that a strong correlation between forage characteristics and reflectance of tropical savanna vegetation can be found. For the first time in field spectroscopy studies, forage quality is modelled as ME content based on 24-h in vitro gas production in the Hohenheim gas test system and crude protein concentration of BM. Established spectral models could help to monitor forage provision in space and time, which is of great importance for an adaptive livestock management. 相似文献
14.
In this paper, we focused on the retrieval of the LAI in an alpine wetland located in western part of China in late August and early July 2011. A two-layer canopy reflectance model (ACRM) was used to establish the relationships between the LAI and the reflectance of near-infrared (NIR) and red (RED) wavebands. The reflectance data were derived from Landsat TM L1T product and the Terra and Aqua MODIS 16-day and 8-day composite reflectance products (MOD/MYD09) at 250 m resolution. Due to the lack of the information about some major input parameters for ACRM, which are sensitive to model outputs in the reflectance of NIR and RED wavebands, the inverse problem was ill-posed. To overcome this problem, a method of increasing the sensitivity of the LAI while reducing the influence of other model free parameters based on the study of free parameters’ sensitivity to the ACRM outputs and the region’s features was studied. The area of interest was divided into two parts using the approximately statistic normalized difference vegetation index (NDVI) value around 0.5. One part was sparse vegetation (0.1 < NDVI < 0.5), which is more sensitive to soil background effects and less sensitive to the canopy biophysical and biochemical variables. The other part was dense vegetation (0.5 ≤ NDVI < 1.0), which is less sensitive to soil background effects and more sensitive to plant canopies and leaf parameters. Then, the relationships of ρnir–LAI and ρred–LAI were established using a look-up table algorithm for the two parts. Furthermore, a regularization technique for fast pixel-wise retrieval was introduced to reduce the elements of LUT sets while maintaining a relatively high accuracy. The results were very promising compared to the field measured LAI values that the correlation (R2) of the measured LAI values and retrieved LAI values reached 0.95, and the root-mean-square deviation (RMSD) was 0.33 for late August, 2011, while the R2 reached 0.82 and RMSD was 0.25 for early July 2011. 相似文献
15.
杭州湾HJ CCD影像悬浮泥沙遥感定量反演 总被引:6,自引:0,他引:6
利用环境小卫星CCD(HJ CCD)影像对杭州湾悬浮泥沙浓度(SSC)进行了反演研究。通过对杭州湾水体遥感反射率(Rrs)与SSC进行相关性分析发现,在690nm和830nm左右出现显著的反射峰,分别位于HJ CCD影像的第3和第4波段范围内;大于700nm波长处的Rrs与SSC相关性较好。基于实测Rrs和SSC之间的相关关系,利用第4和第3波段比值作为遥感因子建立SSC反演模型,模型决定系数达到0.90。借鉴近红外-短波红外(NIR-SWIR)结合的大气校正方法反演出的准同步MODIS气溶胶数据,实现了HJ CCD影像的大气校正,第3、第4波段的大气校正结果相对误差分别为5.54%和6.97%。结果显示,HJ CCD影像反演的SSC相对误差为7.12%;杭州湾悬浮泥沙浓度要显著高于长江口,且内部差异明显。研究表明,通过适当的大气校正方法和反演算法,HJ CCD影像可用于杭州湾悬浮泥沙浓度的估计。 相似文献
16.
Sampling for suspended sediment concentrations (SSC) in inland waters is traditionally based on collecting samples at sparse
locations and in limited intervals. A number of investigators explored the utility of earth-observing satellites and air-borne
sensors for monitoring of SSC over vast areas. Two approaches are commonly deployed: (1) empirical relationships between a
chosen remotely sensed quantity and the actual in-situ SSC; and (2) bio-optical models founded on radiative transfer modeling. Unfortunately, in-situ measurements are often unavailable for direct image calibration, and inherent optical properties of optically active constituents
(specific scattering and absorption coefficients) are usually unknown. This paper examines the possibility to retrieve SSC
from multispectral satellite imagery without any in-situ data, i.e. using only image-derived information. The fundamental principle of image selfcalibration relies on the fact that
in the visual domain of wavelengths (∼400–700 nm) the at-sensor reflectance becomes “saturated“ at high SSC, whereas the near-infrared
domain (∼700–900 nm) remains almost perfectly linearly related to sediment concentrations. The core idea of the self-calibrating
procedure is rather simple and is based on fitting an exponential function between reflectance and SSC, with SSC replaced
by a linear relationship between SSC and reflectance in the near-infrared domain. As a first approximation of the non-linearity
between reflectance and SSC levels in the 400–700 nm range, we used the equation proposed by Schiebe et al. (1992), although other equations, especially those arising from optical theory could be used as well. The technique is illustrated
on a moderately sediment-laden reservoir and two scenes acquired from Landsat ETM+. The standard error of the estimated SSC
was below 15 mg/L (i.e. ∼25 % relative error for the observed range of SSC). Although the proposed algorithm does not yield
better results than other models mentioned in the literature, the primary advantage of the outlined methodology is that no
in-situ measurements (water sampling nor spectral profiling) are needed — i.e. only image-derived information is used. 相似文献
17.
Barnaby Clark Juha SuomalainenPetri Pellikka 《ISPRS Journal of Photogrammetry and Remote Sensing》2011,66(4):429-445
The appropriate utilization of multi-temporal SPOT multispectral satellite imagery in quantitative remote sensing studies requires the removal of atmospheric effects. One widely used and potentially very accurate way of achieving absolute atmospheric correction is the calibration of at-satellite radiance data to field measures of the surface reflectance factor (ρs). There are a number of variations in this technique, which are known collectively as empirical line (EL) approaches. However, the successful application of an EL spectral calibration requires the presence and careful selection of appropriate pseudo-invariant ground targets within each scene area. Real surfaces, even those that are man-made and vegetation-free, display non-Lambertian reflectance behaviour to some extent. Because of the ±31° off-nadir incidence angle range of the SPOT sensors, this is a crucial consideration. In favourable circumstances, it may be possible to utilize a goniometer to collect multiangular ρs measurements, but for widespread lower cost application of EL approaches currently, the use of a handheld spectrometer to measure nadir only ρs is a more realistic proposition. In either case, the selection of targets that have more limited and stable multiangular reflectance behaviour is preferable. Details are given of the reflectance properties of a variety of spectrally bright potential calibration surface types, encompassing sands, gravel, asphalts, and managed and artificial grass turf surfaces, measured in the field using the Finnish Geodetic Institute Field Goniospectrometer (FIGIFIGO). Bright calibration site selection requirements for SPOT data are discussed and the physical mechanisms behind the varying reflectance characteristics of the surfaces are considered. The most desirable properties for useful calibration targets are identified. The results of this study will assist other workers in the identification of likely suitable EL calibration sites for medium and high resolution optical satellite data, and therefore help optimize efforts in the time consuming and costly process of measuring ρs in the field. 相似文献
18.
应用高光谱遥感数据估算土壤表层水分的研究 总被引:8,自引:0,他引:8
土壤水分是土壤的重要组成部分,它在陆地表层和大气之间的物质和能量交换方面扮演着重要角色,寻求快速而准确的方法估算土壤水分具有重要意义。通常,从可见光一近红外对土壤表层水分的估计多是建立在土壤水分与反射率的关系之上的。而在土壤水分含量不高时,土壤水分的增加使土壤光谱反射率在整个波长范围内降低,尤其在760nm,970nm,1190nm,1450nm,1940nm和2950nm等水分吸收波段,而在土壤水分含量较高时,土壤水分的增加会使土壤光谱反射率在某些光谱波段升高。而土壤水分的估计往往是基于土壤水分与土壤水分吸收波段的吸收强度之间的线性关系上,虽然这些经验的方法对于估算某些土壤的表层水分含量是有效的,但这些关系应用于其它条件(如不同种类土壤、土壤湿度变化范围很大的情况)时却面临很多困难,这与土壤的光谱反射率是由土壤的组成成分(土壤水分、有机质、氧化铁和粘土矿物等)的含量和它们在土壤中的分布密切相关。微分技术处理“连续”的光谱是遥感中常用的数学方法,微分技术能部分消除低频光谱成分的影响。现在微分光谱已广泛地应用于研究植被的生物物理参数、矿物和有机质等。然而利用微分光谱对土壤水分反演的研究却鲜见报道。本文通过对实验室中多种不同类型的土壤进行光谱与土壤表层水分含量进行观测,探讨了通过土壤反射率与微分光谱对土壤表层水分的反演方法。4种类型的土壤光谱数据(反射率(R),反射率倒数的对数(log(1/R)),反射率的一阶微分光谱(dR/dλ),反射率倒数的对数的一阶微分光谱(d(log(1/R))/dλ))与土壤表层水分之间的关系在本文中得到分析,R与log(1/R)对于不同土壤类型与土壤表层水分都很敏感,说明通过R与log(1/R)反演土壤表层水分受土壤类型的影响很大,而dR/dλ,d(log(1/R))/dλ)对土壤类型却不敏感,对土壤表层水分较为敏感,说明dR/dλ和d(log(1/R))/dλ)对于反演不同类型土壤具有很大的潜力,微分光谱与土壤水分在某些波段具有显著的相关性。通过随机对9种土壤(各具有4个土壤水分)的数据建立反演土壤水分的模型,并其他9种土壤(各具有4个土壤水分)的数据进行验证模型,结果表明,dR/dλ和d(log(1/R))/dλ)能够显著提高R与log(1/R)对于不同土壤类型土壤表层水分的反演精度,由于吸收过程是非线性的,在四种类型的土壤光谱数据中,总体来说,d(log(1/R))/dλ)具有最好的能力预测不同类型土壤的表层水分含量。 相似文献
19.
Yan Zhu Xia YaoYongChao Tian XiaoJun LiuWeiXing Cao 《International Journal of Applied Earth Observation and Geoinformation》2008
The common spectra wavebands and vegetation indices (VI) were identified for indicating leaf nitrogen accumulation (LNA), and the quantitative relationships of LNA to canopy reflectance spectra were determined in both wheat (Triticum aestivum L.) and rice (Oryza sativa L.). The 810 and 870 nm are two common spectral wavebands indicating LNA in both wheat and rice. Among all ratio vegetation indices (RVI), difference vegetation indices (DVI) and normalized difference vegetation indices (NDVI) of 16 wavebands from the MSR16 radiometer, RVI (870, 660) and RVI (810, 660) were most highly correlated to LNA in both wheat and rice. In addition, the relations between VIs and LNA gave better results than relations between single wavebands and LNA in both wheat and rice. Thus LNA in both wheat and rice could be indicated with common VIs, but separate regression equations are better for LNA monitoring. 相似文献
20.
Suspended sediment yield is a very important environmental indicator within Amazonian fluvial systems, especially for rivers dominated by inorganic particles, referred to as white water rivers. For vast portions of Amazonian rivers, suspended sediment concentration (SSC) is measured infrequently or not at all. However, remote sensing techniques have been used to estimate water quality parameters worldwide, from which data for suspended matter is the most successfully retrieved. This paper presents empirical models for SSC retrieval in Amazonian white water rivers using reflectance data derived from Landsat 5/TM. The models use multiple regression for both the entire dataset (global model, N = 504) and for five segmented datasets (regional models) defined by general geological features of drainage basins. The models use VNIR bands, band ratios, and the SWIR band 5 as input. For the global model, the adjusted R2 is 0.76, while the adjusted R2 values for regional models vary from 0.77 to 0.89, all significant (p-value < 0.0001). The regional models are subject to the leave-one-out cross validation technique, which presents robust results. The findings show that both the average error of estimation and the standard deviation increase as the SSC range increases. Regional models were more accurate when compared with the global model, suggesting changes in optical proprieties of water sampled at different sampling stations. Results confirm the potential for the estimation of SSC from Landsat/TM historical series data for the 1980s and 1990s, for which the in situ database is scarce. Such estimates supplement the SSC temporal series, providing a more comprehensive SSC temporal series which may show environmental dynamics yet unknown. 相似文献