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1.
不同类型土壤Cu含量高光谱联合反演建模 总被引:1,自引:0,他引:1
《测绘科学》2020,(8)
为探明不同类型土壤重金属Cu的敏感波段及构建普适性高光谱定量反演模型,该文以湖南省红壤、水稻土和潮土3种主要类型土壤为研究对象,在光谱预处理及组合变换基础上,采用相关性分析和逐步回归筛选重金属Cu敏感波段,并分别构建一元回归和逐步回归联合反演模型。结果表明,相较于原始光谱,组合变换光谱与土壤重金属相关性明显提高;通过逐步回归筛选重金属Cu的敏感波段位于400~850 nm和1 800~2 200 nm区域;相较于一元线性回归,逐步回归模型预测精度显著提升,应用对倒一阶微分光谱中400、590、620、670、790、850、1 790、2 270 nm波段反射率构建逐步回归模型反演精度达到最优,满足重金属Cu含量监测精度需求,同时为发展基于高光谱影像大面积反演不同土壤类型重金属Cu含量提供理论支撑。 相似文献
2.
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
3.
水稻叶面积指数(leaf area index,LAI)是评价其长势的重要农学参数,高光谱遥感能够实现叶面积指数的快速无损监测。为了寻找反演水稻LAI的最优植被指数,扩展水稻LAI高光谱估测模型的普适性,选取宁夏引黄灌区水稻为研究对象,通过设置不同氮素处理,借助相关分析、回归分析等方法研究高光谱植被指数与水稻LAI之间的定量关系,并通过确立的最优波段组合,构建4种植被指数与水稻LAI的高光谱反演模型。结果表明,水稻LAI在抽穗末期达到最大值,并随氮素水平的增加而增加;水稻冠层原始光谱反射率在400~722 nm和1 990~2 090 nm波段与LAI达到极显著负相关水平,在近红外区域760~1 315 nm与LAI呈极显著正相关。模型检验结果表明,以比值植被指数RVI(850,750)为变量建立的水稻LAI估测模型最佳,研究结果可为水稻LAI的高光谱估测提供地域参考。 相似文献
4.
采用小区实验与大田应用相结合的方法, 依据扬州实验小区地面实测拔节期、抽穗期及灌浆期的水稻叶片、冠层光谱及氮和叶绿素含量, 采用光谱吸收特征和植被指数分析方法, 得到估算水稻氮和叶绿素含量的最佳光谱特征参数; 结合覆盖江苏姜堰地区大田的Hyperion高光谱遥感影像, 建立反演水稻冠层氮和叶绿素含量的模型, 对研究区大田水稻冠层氮和叶绿素含量进行了反演及制图。结果表明: 经波深中心归一化方法分析, 发现以670nm为中心的光谱吸收特征面积与水稻氮含量呈显著相关性; 基于反转归一化光谱, 结合560nm和670nm两个波段, 建立的植被指数NDVI560_670能很好地反演水稻叶绿素含量。 相似文献
5.
《国土资源遥感》2021,(1)
土壤中碳酸钙的含量是土壤分类及肥力评价的重要依据。研究选取陕西省黄土高原区的78个黄绵土土壤样品为研究对象,在分析碳酸钙含量的基础上,采用SVC HR-1024i便携式光谱仪获取土壤样品的可见光、近红外与短波红外高光谱反射率(350~2 500 nm)数据,对原始光谱曲线分别进行一阶微分、二阶微分和连续统去除3种数学变换,运用相关分析法和连续投影算法分别进行敏感波段的选取,采用随机森林回归建立土壤碳酸钙的估算模型。结果表明:黄绵土的光谱曲线特征相似,在1 440 nm,1 900 nm和2 200 nm等处均存在明显的吸收特征,且碳酸钙含量与光谱反射率呈现正相关态势;基于二阶微分与连续投影算法的随机森林估算模型精度最高,验证集R~2为0.82,相对分析误差(residual predictive deviation,RPD)值为2.37。 相似文献
6.
高光谱吸收特征参数反演草地光合有效辐射吸收率 总被引:1,自引:0,他引:1
在植被光合有效辐射吸收率(FAPAR)遥感估算中被广泛采用的植被指数法,其估算精度往往受到"红波段吸收峰"峰值点光谱反射率易饱和特征的影响。考虑到高光谱吸收特征参数能较好地诠释地物光谱吸收特征的细节信息,基于微分法与包络线去除法研发"高光谱曲线特征吸收峰自动识别法"识别对FAPAR敏感的特征吸收峰,再结合连续统去除法以及光谱吸收指数(SAI)提取FAPAR的高光谱吸收特征参数,构建估算天然草地冠层水平FAPAR的高光谱吸收特征参数模型。结果表明:(1)天然草地冠层FAPAR与高光谱吸收特征参数具有很好的相关性,其中,"红波段吸收峰"SAI对FAPAR变化最为敏感,在植被覆盖度较高时,其饱和性相比"红波段吸收峰"峰值点反射率与归一化植被(NDVI)值有较大的提升。(2)以"红波段吸收峰"SAI为变量的对数方程为FAPAR的最佳估算模型,在植被覆盖度处于中与高时,其FAPAR预测精度比NDVI模型有不同程度的提高。研究采用的高光谱吸收特征参数一定程度上弥补了部分植被指数因饱和问题在估算FAPAR时的不足,可作为植被FAPAR反演的新参数,适用于中、高覆盖度的天然草地FAPAR监测。 相似文献
7.
针对高光谱定量反演土壤重金属含量的模型精度不足的问题,本文从时频空间的角度引入时频分析法——集合经验模态分解(EEMD)。采用EEMD法分解土壤高光谱,获得不同频率的本征模态(IMF)分量,通过分析IMF分量与重金属含量的相关性,提取特征光谱,构建EEMD-SVM定量反演模型。研究结果表明,通过EEMD法分解土壤光谱,可有效地提取土壤光谱中的微弱信息;构建EEMD-SVM模型可较好地反演土壤重金属Cd含量,模型的决定系数R2为0.920 3,明显高于基于一阶微分处理光谱数据后构建的SVM模型的R2(0.786 6)。即说明在土壤重金属定量反演领域,EEMD可作为一种新的光谱处理方法。 相似文献
8.
崔爱红 《测绘与空间地理信息》2016,(9)
在实测嘉兴南湖地区总磷总氮水质参数的基础上,利用2012年11月份获取的AISA高光谱数据,建立总磷总氮的反演估测模型并进行分析。结果表明:以968 nm、944 nm、968/944 nm为因子的总氮多元线性回归模型的拟合精度最高;总磷的最佳反演模型是以905 nm、720 nm、720/905 nm为因子的多元线性模型。 相似文献
9.
叶片作为植物冠层的基本组成元素,其自身的光学特性直接影响着遥感所能获得的植物冠层反射光谱。从原理上讲,叶片的光学特性不仅取决于其内部生化组分含量的多少,还与其物理结构密切相关。因此对叶片内部物理结构进行估算有助于分离其对叶片光谱的影响,从而提高叶片生化信息反演的精度。在基于叶片内部辐射传输过程的PROSPECT模型中,叶片内部结构用一个假想的叶肉结构参数N来描述。PROSPECT模型模拟光谱发现,N对叶片反射率和透过率均影响显著,且影响范围涵盖400—2500nm的全部波段。本文利用水稻叶片实测光谱和生化数据尝试了3种N的估算方法,包括两种经验方法和一种模型反演方法,并对其进行比较。结果表明,由于两种经验方法都基于N和表观叶面积(SLA)之间的非线性经验公式,因此两者具有内在的数学关系。运用模型反演方法估算的N可在实测水稻光谱和模型模拟光谱间得到最小RMSE,且其在数值上小于两种经验方法的估算值。以N为因变量,叶片光谱反射率为自变量,运用逐步线性回归分析建立了N的光谱估算模型,550nm,816nm,1210nm和1722nm四个波段被选入模型,回归效果较好,为N的估算提供了一种新的经验方法。 相似文献
10.
对河北省昌黎县闫庄铁矿床的磁铁石英岩型铁矿石261件样品进行了光谱反射率测量,并与其铁含量进行了相关关系研究,目
的是对钻孔岩芯编录的新方法即高光谱岩芯编录在此类矿床中的可行性进行分析。研究结果表明,铁矿石反射率较低,一般为5%~20%
,铁离子的吸收峰主要表现在400~1 100 nm范围内,铁矿石中铁含量与850~900 nm的反射率均值呈现显著指数负相关关系,为高光谱
岩芯编录在此类矿床中的可行性提供了理论依据和技术途径。 相似文献
11.
面向土壤分类的高光谱反射特征参数模型 总被引:2,自引:0,他引:2
提出了一种无损、快速、成本低的土壤分类方法,选取松嫩平原4种典型土壤(黑土、黑钙土、风砂土和草甸土)耕层(0—20 cm)土样的实验室反射光谱数据作为研究对象,采用重采样、包络线消除法处理光谱数据,提取反映反射光谱特征的光谱特征参数,利用K均值聚类(K-means clustering)和决策树(decision tree)分别进行聚类分析和分类模型构建,实现土壤的快速分类。结果表明,利用表层土壤反射光谱特征参数构建的决策树分类模型可以对研究区土壤进行分类。研究成果有望加快土壤制图,为土壤理化性质的时空变化研究提供技术支持。 相似文献
12.
Magendran Thangavelu Sanjeevi Shanmugam Arya Kumar Bhattacharya 《Journal of the Indian Society of Remote Sensing》2011,39(4):473-483
This paper present the results of a preliminary study to assess the potential of the visible, NIR and SWIR energy of the EMR
in differentiating iron ores of different grades in a rapid manner using hyperspectral radiometry. Using different iron ore
samples from Noamundi and Joda mines, Jharkhand and Orissa, states of India, certain spectro-radiometric measurements and
geochemical analysis were carried out and the results have been presented. It was observed that the primary spectral characteristics
of these iron ores lie in the 850 to 900 nm and 650–750 nm regions. The spectral parameters for each curve used for studying
the iron ores are: (i) the slopes of the spectral curve in 685–725 nm region; (ii) position of the peak with respect to wavelength
in 730–750 nm region and (iii) radius of curvature of the absorption trough in the 850–900 nm region. Comparison of these
spectral parameters and the geochemistry of the samples indicates that the position of the peak of the curve in 730–750 nm
region shifts towards longer wavelength with increasing iron oxide content, while the slope of the curvature in the 685–725 nm
region has a strong negative correlation with the iron oxide content of the samples. Similarly, a strong negative correlation
is observed between the radius of curvature of the 850–900 nm absorption trough and the iron oxide content. Such strong correlations
indicate that hyperspectral radiometry in the visible and NIR regions can give a better estimate and quantification of the
grades of iron ores. This study has demonstrated that generation of empirical models using hyperspectral radiometric techniques
is helpful to quantify the grade of iron ores with limited geochemical analysis. 相似文献
13.
R. N. Sahoo M. Bhavanarayana B. C. Panda C. N. Arika R. Kaur 《Journal of the Indian Society of Remote Sensing》2005,33(1):17-23
Accurate estimation of soil moisture through remote sensing technique has been a challenge till date. In optical and thermal
remote sensing, there is no index developed to detect the changes in soil moisture levels. In microwave region, soil roughness
and other target parameters equally affect the technique for soil moisture estimation. Therefore, a computational technique
in C language based on Shannon’s Information Theory (Shannon, 1948) has been developed to calculate total information content
from multispectral radiometer data. The total information content is a compressed single value, which quantifies the information
content of soil spectral reflectance in the electromagnetic spectrum range (400–1100 nm) under study. This technique was tested
over a wide range of soil moisture levels. The study revealed that as compared to other techniques total information content
index is very sensitive to change in moisture content of soil. This technique could not only quantify the soil moisture content
in optical and near infra red region, but also led to a simplified one dimensional separability and clustering analysis. 相似文献
14.
A. Brosinsky A. Lausch D. Doktor C. Salbach I. Merbach S. Gwillym-Margianto M. Pause 《Journal of the Indian Society of Remote Sensing》2014,42(2):311-324
The assessment and quantification of spatio-temporal soil characteristics and moisture patterns are important parameters in the monitoring and modeling of soil landscapes. Remote-sensing techniques can be applied to characterize and quantify soil moisture patterns, but only when dealing with bare soil. For soils with vegetation, it is only possible to quantify soil-moisture characteristics through indirect vegetation indicators, i.e. the “vitality” of plants. The “vitality” of vegetation is a sum of many indicators, whereby different stress factors can induce similar changes to the biochemical and physiological characteristics of plants. Analysis of the cause and effect of soil-moisture properties, patterns and stress factors can therefore only be carried out using an experimental approach that specifically separates the causes. The study describes an experimental approach and the results from using an imaging hyperspectral sensor AISA-EAGLE (400–970 nm) and a non-imaging spectral sensor ASD (400–2,500 nm) under controlled and comparable conditions in a laboratory to study the spectral response compared to biochemical and biophysical vegetation parameters (“vitality”) as a function of soil moisture characteristics over the entire blooming period of Ash trees. At the same time that measurements were taken from the hyperspectral sensors, the following vegetation variables were also recorded: leaf area index (LAI), chlorophyll meter value — SPAD-205, vegetation height, C/N content and leaf water content as indicators of the “vitality” and the state of the vegetation. The spectrum of each hyperspectral image was used to calculate a range of vegetation indices (VI’s) with relationships for soil moisture characteristics and stress factors. The relationship between vegetation indices and plant “vitality” indicators was analysed using a Generalized Additive Model (GAM). The results show that leaf water content is the most appropriate vegetation indicator for assessing the “vitality” of vegetation. With the Water Index (WI) it was possible to differentiate between the moisture treatments of the control, moisture drought stress and the moisture flooding treatment over the entire growing season of the plants (R 2?=?0.94). There is a correlation between the “vitality” vegetation parameters (LAI, C/N content and vegetation height) and the indicators NDVI, WI, PRI and Vog2. In our study with Ash trees the vegetation parameter chlorophyll was found not to be a suitable indicator for detecting the “vitality” of plants using the spectral indicators. There is a possibility that the sensitivity of the indicators selected was too low compared to changes in the chlorophyll content of Ash trees. Adding the co-variable ‘time’ strengthens the correlation, whereas incorporating time and moisture treatment only improves the model very slightly. This shows that changes to the biochemical and biophysical characteristics caused by phenology, overlay a differentiation of the moisture treatments. 相似文献
15.
Y. Divya S. Sanjeevi K. Ilamparuthi 《Journal of the Indian Society of Remote Sensing》2014,42(3):589-600
This paper examines the hyperspectral signatures (in the Visible Near Infrared (VNIR)-Shortwave Infrared (SWIR) regions) of soil samples with varying colour and minerals. 36 samples of sands (from river and beach) with differing clay contents were examined using a hyperspectral radiometer operating in the 350–2,500 nm range, and the spectral curves were obtained. Analysis of the spectra indicates that there is an overall increase in the reflectance in the VNIR-SWIR region with an increase in the content of kaolinite clay in the sand samples. As regards the red and black clays and sand mixtures, the overall reflectance increases with decreasing clay content. Several spectral parameters such as depth of absorption at 1,400 nm and 1,900 nm regions, radius of curvature of the absorption troughs, slope at a particular wavelength region and the peak reflectance values were derived. There exists a correlation between certain of these spectral parameters (depth, slope, position, peak reflectance, area under the curve and radius of the curve) and the compositional and textural parameters of the soils. Based on these well-defined relations, it is inferred that hyperspectral radiometry in the VNIR and SWIR regions can be used to identify the type of clay and estimate the clay content in a given soil and thus define its geotechnical category. 相似文献
16.
土壤有机质光谱特征研究 总被引:38,自引:0,他引:38
对在宜兴市和横山县采集的174个土样400nm~2500nm波段的光谱曲线进行了研究。为了有效去除背景噪声对目标光谱的影响,并将非线性关系线性化,首先对土壤光谱进行了14种变换,然后运用光谱微分技术、逐步回归分析等方法研究了土壤光谱反射特性与土壤有机质之间的关系。结果表明,反射率对数的一阶微分这一变换形式对土壤有机质含量最为敏感。建立了相应的回归预测模型,模型方程判定系数达到0.885,较好地利用土壤光谱反射特性预测了土壤有机质的含量。 相似文献
17.
土壤有机质光谱特征研究(英文) 总被引:1,自引:0,他引:1
The study on soil spectral reflectance features is the physical basis for soil remote sensing. Soil organic matter content
influences the soil spectral reflectance dramatically. This paper studied the spectral curves between 400 nm∼2500 nm of 174
soil samples which were collected in Hengshan county and Yixing county. Fourteen types of transformations were applied to
the soil reflectance R to remove the noise and to linearize the correlation between reflectance (independent variable) and soil organic matter (SOM)
content (dependent variable). Then, the methods such as derivative spectrum technology and stepwise regression analysis, were
applied to study the relationship between these soil spectral features and soil organic matter content. It shows that order
1 derivative of the logarithm of reflectance (O1DLA) is the most sensitive to SOM among the various transform types of reflectance
in consideration. The regression model whose coefficient of determination reaches 0.885 is built. It predicted the soil organic
matter content with higher effect.
Supported by the National Natural Science Foundation of China (No. 40271007). 相似文献
18.
不同含水量土壤偏振光谱特征定量分析 总被引:1,自引:0,他引:1
水分含量是影响土壤偏振光谱特征的重要参数之一,研究土壤不同水分含量的偏振光谱特征在土壤偏振遥感波段的选择和图像解释上具有重要意义,为应用偏振遥感信息进行土壤调查及理化性质的分析提供依据。本文通过在350-2500 nm波段范围内对不同水分含量的土壤进行偏振光谱测试与分析,研究土壤偏振光谱数据与水分含量之间的关系,建模并检验其精度,对影响土壤偏振光谱特征的各个因素设计科学的正交实验,研究含水量、偏振角度、探测角和方位角等各个因素及其交互作用对土壤偏振光谱特征的影响。结果表明,含水量与偏振角度的交互作用和含水量本身对土壤偏振光谱的影响最大,显著性最强,其次是探测角与含水量的交互作用的影响,而偏振角对土壤偏振光谱有一定的影响,其他因素对土壤光谱偏振反射的影响不大。 相似文献
19.
Yang Han Yunsheng Zhao Yeqiao Wang 《Journal of the Indian Society of Remote Sensing》2014,42(4):727-732
Moisture is one of the important parameters in soil polarized spectrum. It has great significance in soil remote sensing band selection and image interpretation; it also provides the information for soil investigation and analysis on physical and chemical properties. In this paper we tested and analyzed the soil polarized spectrum with different moisture in 350?~?2,500 nm wavelength, to study on the relationship between soil polarized spectral data and moisture, to determine the spectral response and changes in soil moisture, and establish models between spectral data and soil moisture. We also designed a orthogonal test on the various factors that affect soil polarized spectral characteristics, in which we studied soil moisture, polarized angle, detected angle and azimuth of the various factors and their interactions. The results showed it was most significant that the soil moisture and the interaction of soil moisture and polarized angle, followed by the interaction effect of detected angle and moisture, while the polarized angle had a little impact on the soil polarized spectrum. 相似文献
20.
Paresh H. Rathod Carsten Brackhage Ingo Müller Freek D. Van der Meer Marleen F. Noomen 《Journal of the Indian Society of Remote Sensing》2018,46(12):1925-1937
The aim of this study was to monitor changes in leaf spectral reflectance due to phytoaccumulation of trace elements (Cd, Pb, and As) in sunflower mutant (M5 mutant line 38/R4-R6/15-35-190-04-M5) grown in spiked and in situ metal-contaminated potted soils. Reflectance spectra (350–2500 nm) of leaves were collected using portable ASD spectroradiometer, and respective leaves sample were analyzed for total metal contents. The spectral changes were quite noticeable and showed increased visible and decreased NIR reflectance for sunflower grown in soil spiked with 900 mg As kg?1, and in in situ metal-contaminated soils. These changes also involved a blue-shift feature of red-edge position in the first derivatives spectra, studied vegetation indices and continuum removed absorption features at 495, 680, 970, 1165, 1435, 1780, and 1925 nm wavelength. Correlograms of leaf-metal concentration and reflectance values show highest degrees of overall correlation for visible, near-infrared, and water-sensitive wavelengths. Partial least square and multiple linear regression statistical models (cross-validated), respectively, based on Savitzky–Golay filter first-order derivative spectra and combination of spectral feature such as vegetation indices and band depths yielded good prediction of leaf-metal concentrations. 相似文献