共查询到18条相似文献,搜索用时 140 毫秒
1.
HJ-1A/B卫星CCD影像的武汉市东湖水色三要素遥感研究 总被引:2,自引:0,他引:2
以武汉市东湖为研究区域,利用同步的MODIS-Terra气溶胶光学厚度数据为输入参数,采用FLAASH模型对2010年3月11日HJ-1A/B卫星CCD影像进行大气校正处理,并利用多年实测数据建立叶绿素a浓度、悬浮泥沙浓度、黄色物质吸收系数三要素神经网络反演模型,对水色三要素进行反演。通过对反演结果与实测数据的对比分析可知,悬浮泥沙浓度、黄色物质吸收系数和叶绿素a浓度的平均相对误差分别为28.052%、17.628%和35.621%,表明HJ-1A/B卫星CCD传感器基本能满足II类水体水色要素的遥感监测需求。 相似文献
2.
悬浮泥沙是湖泊水体的重要水质要素之一,是湖泊水生态系统重要影响因子。利用遥感提取的鄱阳湖底质类型数据,对各类型底质区域上泥沙模型参数进行敏感性分析,基于2011年实测的不同底质区上泥沙浓度数据率定得到空间上不一致的泥沙模型参数,从而建立鄱阳湖丰水期二维悬浮泥沙输运模型。利用该模型模拟预测2013年丰水期悬浮泥沙输移过程,实测泥沙数据验证表明,模拟悬浮泥沙均方根误差为19.8 mg/L,相关系数R2为0.78,该模型能够较好地进行悬浮泥沙模拟预测。对比模型模拟和遥感反演的悬浮泥沙空间分布,两者具有较好的空间一致性,进一步表明该模型能够可靠地模拟预测鄱阳湖悬浮泥沙的时空动态变化。本研究充分利用遥感数据辅助建立鄱阳湖泥沙输移模型,为湖泊水环境动态变化监测提供有力的技术方法支撑,为进一步进行鄱阳湖水环境动态变化的数值模拟预测研究提供基础。 相似文献
3.
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
4.
曹妃甸近海Ⅱ类水体光谱反射率与悬浮泥沙浓度相关性研究 总被引:3,自引:1,他引:2
利用水面以上法对曹妃甸近海Ⅱ类水体进行现场光谱测量,对获取的数据与同步采集的水体悬浮泥沙浓度进行相关分析,初步建立了水体悬浮泥沙浓度与TM数据对应的可见光至近红外波段遥感反射率的经验模型.研究结果表明:该地区近海Ⅱ类水体的反射率随悬浮泥沙浓度的增加而增加,在泥沙浓度小于20 mg/L时,570 nm处的反射率随泥沙浓度增加而增大的特征优于670 nm处的,但当泥沙浓度大于20 mg/L时,后者反射率的增幅明显优于前者;TM 3中心波段处的反射率与表层悬浮泥沙浓度(SPM)呈显著的指数相关,利用模型计算的悬浮泥沙浓度平均相对误差低于±28%. 相似文献
5.
本文以珠江口悬浮泥沙水质采样数据及高光谱数据为基础,构建了人工神经网络(ANN)、支持向量回归机(SVR)、随机森林(RF)悬浮泥沙反演模型,结果发现模型预测精度从高到低依次为:RF、ANN、SVR。采用随机森林模型对珠江口悬浮泥沙反演,结果得到珠江口岸悬浮泥沙浓度呈现西高东低,从近岸到离岸逐渐递减趋势。主要是由于珠江口地形为喇叭形,在季风和潮汐共同作用下,珠江口顶部区域受潮汐和风向混合作用强烈。在远离珠江口顶部区域地形较为开阔,各支流径流的悬浮泥沙汇聚堆积在珠江口西南区域,导致珠江口西南区域悬浮泥沙浓度高。 相似文献
6.
以北京市为研究区域,联合使用光学遥感数据和雷达数据,对植被覆盖区地表土壤水分进行反演研究。在利用同期光学数据提取出归一化水分指数(normalized differential water index,NDWI)之后,利用water-cloud模型去除植被层在土壤水分后向散射中的贡献,然后考虑到地表粗糙度,在构建后向散射数据库的基础上分别利用HH和HV极化方式的后向散射系数构建土壤水分反演模型,并对反演结果进行对比研究。结果表明,采用HH极化方式反演土壤水分的均方根误差为0.044,相对误差为15.5%;采用HV极化方式反演土壤水分的均方根误差为0.057,相对误差为20.3%;相比而言,HH极化的反演效果更好。 相似文献
7.
杭州湾最大浑浊带(turbidity maximum zone,TMZ)受自然和人类活动的双重影响,年际变化显著。为探究杭州湾水域TMZ和表层悬浮泥沙浓度的年际变化特征,优选1984-2015年间30幅Landsat卫星影像,建立杭州湾水域表层悬沙浓度反演模型,模型经实测数据验证,平均相对误差为23.3%。对每张卫星影像进行悬沙浓度反演,进而提取TMZ面积数据。结果表明,杭州湾悬沙浓度面积分布类型均为正偏分布,且偏态系数由0.63增长至2.03,高悬沙浓度区域占比不断缩小。杭州湾各区域悬沙浓度均呈下降趋势,北岸芦潮港站下降趋势最为显著,减幅达73%。杭州湾TMZ面积年化下降率为4.57%,大于长江和钱塘江年输沙量的年化下降率3.74%。河流来沙减少和潮滩围垦导致的当地泥沙来源减少及水流携沙能力降低是影响TMZ面积降低的重要因素。 相似文献
8.
为了更好地进行土壤水分反演,发展了一种基于ALOS/PALSAR数据、利用自适应神经模糊推理系统(adaptive neuro fuzzy inference system,ANFIS)反演土壤水分的方法.首先,根据研究区实际情况,利用AIEM和Oh模型模拟了试验区裸土区的后向散射特性,建立了后向散射系数与地表粗糙度之间的关系;然后,考虑到研究区地表粗糙度几乎没有变化这一情况,设定了地表粗糙度对后向散射系数的影响为常量;在此基础上,分别利用ANFIS,BP神经网络、多元线性回归和多元非线性回归方法构建了裸土区土壤水分的反演模型,并利用野外实测数据对模型进行了验证.研究结果表明,采用ANFIS方法构建的模型反演精度最高,其均方根误差为0.030,相对误差为14.5%.因此,可以利用ANFIS方法反演裸土区的土壤水分含量,其反演结果具有较高的精度. 相似文献
9.
基于遥感反演结果的悬浮泥沙时空动态规律研究--以珠江河口及邻近海域为例 总被引:9,自引:1,他引:9
选择了珠江口及其邻近海域1995年~2000年152个时相的NOAA/AVHRR影像反演的悬浮泥沙浓度结果,通过对悬浮泥沙反演结果影像的叠加,求算叠加像素点像素平均值,计算了研究海域在1995~2000年间月、季及丰枯水期几个时间尺度上的悬浮泥沙平均浓度及其平均变化。结果大致表明了陆地径流对海域的影响范围和悬浮泥沙在海域的运动方向。 相似文献
10.
三峡工程蓄水以来,清水下泄,坝下游河段发生了长时间、长距离的沿程冲刷,河流悬浮泥沙浓度发生改变,给沿岸生态系统带来了不利影响。随机森林算法灵活、稳健,已被广泛应用于各类生态环境变量的回归预测分析,但其在水体悬浮泥沙浓度估算方面的能力尚未得到充分认识。基于泥沙站点监测数据和MODIS卫星遥感反射率数据,通过构建随机森林非参数回归预测模型,对三峡工程坝下游宜昌至城陵矶河段在建坝前后14年间(2002年—2015年)各月的悬浮泥沙浓度进行遥感估算。研究表明:(1)基于随机森林的悬浮泥沙浓度估算模型表现较好,模型预测值与实测值间相关性好、预测精度高,优于其他模型(线性回归、支持向量机、人工神经网络模型)。(2)在参与模型构建的MODIS波段变量中,红波段被认为是最重要的预测变量,但不能单独使用它进行预测,悬浮泥沙遥感预测需要多变量共同参与。(3)将悬浮泥沙数据按季节分类所构建的随机森林模型,其平均误差为0.46 mg/L,平均相对均方根误差为12.33%,估算效果最优,能够满足较高精度下悬浮泥沙浓度估算的需求。综上,可以考虑以季节为划分依据,用随机森林回归模型估算悬浮泥沙浓度,并用于后期坝下游河道悬浮泥沙浓度时空反演。 相似文献
11.
双极化SAR数据反演裸露地表土壤水分 总被引:1,自引:0,他引:1
为了较高精度地获取大范围地表土壤水分,提出一种基于双极化合成孔径雷达数据的裸露地表土壤水分反演模型即非线性方程组,通过改进的粒子群算法求解非线性方程组从而得到土壤水分。首先通过AIEM模型数值模拟和回归分析,得到一种新的组合粗糙度,然后模拟分析得到土壤水分与雷达后向散射系数的关系,从而建立雷达后向散射系数与组合粗糙度、土壤水分的经验关系。利用ASAR C波段双极化雷达数据,基于经验关系和改进的粒子群算法即可实现土壤水分的反演。经过黑河流域实测土壤水分数据对模型进行验证,反演结果与实测数据具备良好的相关性(R~2=0.778 6)。与以往同一区域研究成果比较,文中的方法反演精度有所提高,更适用于裸露地表土壤水分反演。 相似文献
12.
Estuarine sediment deposition during wetland restoration: A GIS and remote sensing modeling approach
Michelle Elizabeth Newcomer Amber Jean Michael Kuss Tyler Ketron Alex Remar Vivek Choksi J. W. Skiles 《国际地球制图》2013,28(4):451-467
Restoration is currently underway in the industrial salt flats of San Francisco Bay, California. Remote sensing of suspended sediment concentration and other GIS predictor variables were used to model sediment deposition within recently restored ponds. Suspended sediment concentrations were calibrated to reflectance values from Landsat TM 5 and ASTER satellite image data using three statistical techniques—linear regression, multivariate regression, and Artificial Neural Network (ANN) regression. Multivariate and ANN regressions using ASTER proved to be the most accurate methods, yielding r2 values of 0.88 and 0.87, respectively. Predictor variables such as sediment grain size and tidal frequency were used in the Marsh Sedimentation (MARSED) model for predicting deposition rates. MARSED results show a root mean square deviation (RMSD) of 66.8 mm (<1σ) between modeled and field observations. This model was applied to a pond breached in November 2010 and indicated that the pond will reach sediment equilibrium levels after 60 months of tidal inundation. 相似文献
13.
Wenmei Li Erxue Chen Zengyuan Li Wangfei Zhang Chang Jiang 《Journal of the Indian Society of Remote Sensing》2016,44(1):41-48
Tomo-SAR technique has been used for hemi-boreal forest height and further forest biomass estimation through allometric equation. Backscattering coefficient especially in longer wavelength (L- or P-band) is thought as a useful parameter for hemi-boreal forest biomass retrieval. The aim of this paper is to assess the performance of vertical backscattering power and backscattering coefficient for hemi-boreal forest aboveground biomass (AGB) estimation with airborne P-band data. The test site locates in southern Sweden called Remningstorp test site, and the in-situ forest AGB ranges from 14 t/ha to 245 t/ha at stand level. Multi-baseline P-band Pol-InSAR data in repeat-path mode collected during March and May in 2007 at Remningstorp test site was used. We found that the correlation coefficient (R) between backscattering coefficient of P-band HH polarization and the in-situ forest biomass reached 0.87. The R for P-band VV backscattering power at 5 m is 0.71 and 10 m is 0.72. Backscattering coefficient in HH polarization and vertical backscattering power at 5 m and 10 m were applied to construct a model for hemi-boreal forest AGB estimation by backward step-wise regression and cross-validation approach. The results showed that the estimated forest AGB ranges from 19 to 240 t/ha, and the constructed model obtained a higher R and smaller RMSE, the value of R is 0.91, RMSE is 30.43 t/ha at Remningstorp test site. 相似文献
14.
辐射沙脊群海域悬沙场遥感反演方法 总被引:1,自引:1,他引:0
利用2006年江苏908调查水文泥沙测验数据和同期MODIS影像建立遥感定量反演模式,获取了半个潮周期的悬沙场以及全潮平均悬沙场,进行了辐射沙脊群海域悬沙场遥感反演方法的研究,并结合悬沙数学模型对结果进行了验证。研究表明,在辐射沙脊群海域,敏感参数(B1-B4)/(B1+B4)的对数模式反演悬沙场精度较高;遥感反演结果在总体上与数学模型计算结果相似,悬沙高值区主要分布在弶港、废黄河口和长江口附近;在细节上比数学模型表现得更精细,能清晰地反映河口、沙洲、水道等地貌对悬沙分布的影响。 相似文献
15.
S. Jonna P. K. Mohanty K. V. S. Badarinath A. K. Chakraborthi 《Journal of the Indian Society of Remote Sensing》1988,16(4):27-32
A Laboratory experiment has been conducted to establish relation between absolute percent reflectance as measured by Exotech spectro-radiometer compatible to LANDSAT MSS and corresponding known sediment concentrations in a specially designed laboratory sedimentation tank under known illumination conditions. Sediment samples are collected from the bed load deposits of JAYAKWADI reservoir by using a bed load sampler and are analysed in the laboratory for their particle size distribution. Sediment concentrations in the range of 50–1100 mg/l are used in the experiment. A multiple linear regression equation has been developed between absolute percent reflectance and sediment concentration. The results indicate that diffused absolute reflectance from water volume increases with increased sediment concentration and separability between bands is higher at higher concentrations. Exotech band 2 provides significant response from suspended sediment concentrations. There is almost one to one correspondence between predicted (from the model) suspended sediment concentrations and actual concentrations with a coefficient of determination of 0.962 and a standard eror of estimate of 56.47 mg/l. This may be due to the fact that most of the noise sources are nearly eliminated in the controlled laboratory experiment. 相似文献
16.
K. H. V. Durga Rao Ambesh Kumar Singh P. S. Roy 《Journal of the Indian Society of Remote Sensing》2009,37(3):433-441
The scope of this research was to study lake morphology using spatial simulation technique, to develop revised elevation-capacity
curve, to develop elevation-water spread area curve, to study the relation between suspended sediment and remote sensing satellite
data, and to estimate suspended sediment load in the lake using a Geographic Information System coupled with ground truth.
The study area was the Bhopal Upper Lake, which has been classified as one of the major wetlands in India by the Ministry
of Water Resources, India. A precise digital elevation model was created using 0.5 meter interval contour information collected
from bathometric surveys. Water-spread areas at different water levels were simulated spatially in a Geographic Information
System (GIS) through the neighbourhood connectivity operator. Revised elevation-capacity curve and elevation-area curve of
the lake were prepared using the simulated results. Simulated water spread area at full tank level (FTL) was compared with
the actual water spread area delineated using remote sensing data. Water samples at different locations of the lake were collected
and located using the Global Positioning System (GPS) instrument. These samples were analysed in the laboratory for suspended
sediment concentration. Different image processing techniques were applied to LANDSAT 5 TM satellite digital data (except
thermal band). Correlation between radiance values of band 2 and suspended sediments was established and a positive linear
equation was found to fit the data best. Spatial distribution of suspended sediment load was estimated using the developed
regression equation and band 2 radiance image of the complete lake. Total suspended sediment load and loss of capacity at
full tank level were computed. 相似文献
17.
Ping Yang Si-Chee Tsay Heli Wei Guang Guo Qiang Ji 《Geoscience and Remote Sensing Letters, IEEE》2005,2(2):128-131
The surface radiance spectrum within the terrestrial infrared window (i.e., wavelengths between 8-12 /spl mu/m or wavenumbers between 833-1250 cm/sup -1/) is sensitive to the optical and microphysical properties of cirrus clouds. Numerous microwindows where atmospheric absorption is minimum exist in the spectral regions of 820-960 cm/sup -1/ and 1100-1240 cm/sup -1/. The minimum radiances at the microwindows in these two spectral regions can be fitted by using two linear lines. The slope of the fitting line for the spectral region of 820-960 cm/sup -1/ is sensitive to the effective size of ice crystals within cirrus clouds, whereas the intercept of the fitting line for the spectral region of 1100-1240 cm/sup -1/ is sensitive to the optical thickness of the clouds. Based on this spectral feature, a new retrieval method has been developed for simultaneously retrieving cirrus optical thickness and the effective particle size of ice crystals. Furthermore, the ice water path of cirrus clouds can be estimated from the retrieved values of cloud optical thickness and effective particle size. 相似文献
18.
Wenting Quan 《Journal of the Indian Society of Remote Sensing》2014,42(3):495-503
In this study, a theoretical model for studying the scaling effects on the two-band ratio of red to near-infrared band (TBRRN) is suggested. The model is used to explain the relationship between scaling error and local scale error; the results revealed that a special scale scaling procedure can be divided into a series smaller scale scaling procedures, and the total scaling error is the sum of the scaling error of these series’ smaller scale scaling procedure. Consequently, under the condition that the local scale is adequately fine, the total scale error at the target scale may be estimated accurately. In order to understand the mechanisms associated with scale in practical remote sensing, TBRRN data with 250 m and 1 km resolution is estimated from MODIS data at 645 and 859 nm, retrieved on September 1, 2009, in the Yellow River estuary, China. It is found that the TBRRN estimated from the 1 km resolution MODIS data is ~2.94 % smaller than as estimated from the 250 m MODIS data. The large scaling error distributes neither in the turbid waters, nor in the low suspended sediment regions, but instead in the high-low suspended sediment concentration transitional zone, which may be attributed to the spatial variable of suspended sediment in the transitional zone. This paper also points out that, owing to the importance of total scale error in achieving NASA’s mission in oceanic remote sensing, the way in which to conveniently and precisely estimate the total scale error of remote sensing parameters may potentially be an important topic in the field of oceanic remote sensing, both in present research and in the future. 相似文献