Google Earth Engine——地球静止卫星数据(GridSat-B1)提供了3个频道的数据:CDR质量的红外窗口(IRWIN)频道(接近11μm),可见光频道(接近0.6μm)和红外水汽

简介: Google Earth Engine——地球静止卫星数据(GridSat-B1)提供了3个频道的数据:CDR质量的红外窗口(IRWIN)频道(接近11μm),可见光频道(接近0.6μm)和红外水汽

This dataset provides a high quality Climate Data Record (CDR) of global infrared measurements from geostationary satellites.

The geostationary satellite data (GridSat-B1) provides data from 3 channels: the CDR-quality infrared window (IRWIN) channel (near 11μm), the visible channel (near 0.6μm) and the infrared water vapor (IRWVP) channel (near 6.7μm). The GridSat-B1 data is projected onto a global 0.07 degree latitude equal-angle grid with date coverage spanning from 1980-present. This data is sourced from the 3-hourly International Satellite Cloud Climatology Project (ISCCP) B1 data. The satellites included in this dataset with their longitudinal coverage over time can be seen here. In regions of overlap the CDR methodology merges satellites by selecting the nadir-most observations for each grid point.

Notes:

  • Mappings from satid to satellite name are contained in the image's properties as satid_number: "satellite_name", e.g. satid_0: GOES-13, satid_1: GOES-15, and satid_2: GOES-16.
  • IRWIN data has been corrected for view zenith angle, but this correction is not perfect. It also treats all satellites the same way, whereas the view zenith angle dependence will vary by satellite. Some VZA residual will be apparent.
  • IRWVP data has no view zenith angle correction and is not CDR quality.
  • VSCHN data has no view zenith angle corrections and is not CDR quality.
  • Removing the View Zenigth Angle correction for the IRWIN channels can be done with the following: Original_temperature_observed = irwin_cdr - irwin_vza_adj


该数据集提供了来自静止卫星的全球红外测量的高质量气候数据记录(CDR)。

地球静止卫星数据(GridSat-B1)提供了3个频道的数据:CDR质量的红外窗口(IRWIN)频道(接近11μm),可见光频道(接近0.6μm)和红外水汽(IRWVP)频道(接近6.7μm)。GridSat-B1的数据被投射到一个全球0.07度纬度的等角网格上,日期覆盖从1980年至今。该数据来自于每3小时一次的国际卫星云雾学项目(ISCCP)B1数据。该数据集所包含的卫星及其纵向覆盖范围可以在这里看到。在重叠的区域,CDR方法通过选择每个网格点的最底线的观测数据来合并卫星。

备注。


从satid到卫星名称的映射包含在图像的属性中,即satid_number: "satellite_name",例如satid_0: GOES-13,satid_1: GOES-15,satid_2: GOES-16。

IRWIN数据已经对视图天顶角进行了校正,但这种校正并不完美。它对所有卫星的处理方式也是一样的,而视线天顶角的依赖性会因卫星而异。一些VZA残余将是明显的。

IRWVP数据没有视区天顶角校正,不符合CDR质量。

VSCHN数据没有视图天顶角校正,不是CDR质量。

移除IRWIN通道的视图天顶角校正可以通过以下方式完成。Original_temperature_observed = irwin_cdr - irwin_vza_adj

Dataset Availability

1980-01-01T00:00:00 - 2021-06-30T00:00:00

Dataset Provider

NOAA

Collection Snippet

ee.ImageCollection("NOAA/CDR/GRIDSAT-B1/V2")

Resolution

7792 meters

Bands Table

Name Description Min* Max* Units Scale Offset
irwin_cdr Brightness temperature near 11μm, nadir-most observation -2093 13615 K 0.01 200
irwin_2 Brightness temperature near 11μm, second-best observation (based on view zenith angle) -4123 13579 K 0.01 200
irwin_3 Brightness temperature, third-best observation based on view zenith angle -1624 14240 K 0.01 200
irwvp Brightness temperature near 6.7μm, nadir-most observation -5907 10219 K 0.01 200
irwvp_2 Brightness temperature near 6.7μm, second-best observation based on view zenith angle -5081 10260 K 0.01 200
vschn Visible reflectance near 0.6μm, nadir-most observation -25000 4275 0.00004 1
vschn_2 Visible reflectance near 0.6μm, second-best observation based on view zenith angle -25000 3800 0.00004 1
irwin_vza_adj Adjustment made to all IRWIN channels. Provided to allow users to reverse the view zenith correction for the irwin_cdr variable. 36 171 K 0.25 -10
satid_ir1 satid values for irwin_cdr. For this and other satid bands, the mappings of satid to satellite name are given in the properties for each image 0 5 0 0
satid_ir2 satid values per pixel for irwin_2 0 5 0 0
satid_ir3 satid values per pixel for irwin_3 0 5 0 0
satid_wv1 satid values per pixel for irwvp 0 5 0 0
satid_wv2 satid values per pixel for irwvp2 0 5 0 0
satid_vs1 satid values per pixel for vischn 0 5 0 0
satid_vs2 satid values per pixel for vischn2 0 5 0 0

* = Values are estimated


影像属性:

Name Type Description
satid_0 String Satellite name (see notes)
satid_1 String Satellite name (see notes)
satid_2 String Satellite name (see notes)
satid_3 String Satellite name (see notes)
satid_4 String Satellite name (see notes)
satid_5 String Satellite name (see notes)


数据说明:

The NOAA CDR Program’s official distribution point for CDRs is NOAA’s National Climatic Data Center which provides sustained, open access and active data management of the CDR packages and related information in keeping with the United States’ open data policies and practices as described in the President's Memorandum on "Open Data Policy" and pursuant to the Executive Order of May 9, 2013, "Making Open and Machine Readable the New Default for Government Information". In line with these policies, the CDR data sets are nonproprietary, publicly available, and no restrictions are placed upon their use. For more information, see the Fair Use of NOAA's CDR Data Sets, Algorithms and Documentation pdf.


引用:

Kenneth R. Knapp, and NOAA CDR Program (2014): NOAA Climate Data Record (CDR) of Gridded Satellite Data from ISCCP B1 (GridSat-B1) 11 micron Brightness Temperature, Version 2. [indicate subset used]. NOAA National Climatic Data Center. doi:10.7289/V59P2ZKR [access date].

Knapp, K. R., S. Ansari, C. L. Bain, M. A. Bourassa, M. J. Dickinson, C. Funk, C. N. Helms, C. C. Hennon, C. D. Holmes, G. J. Huffman, J. P. Kossin, H.-T. Lee, A. Loew, and G. Magnusdottir, 2011: Globally gridded satellite (GridSat) observations for climate studies. Bulletin of the American Meteorological Society, 92, 893-907. doi:10.1175/2011BAMS3039.1


代码:

var dataset = ee.ImageCollection('NOAA/CDR/GRIDSAT-B1/V2')
                  .filter(ee.Filter.date('2017-05-01', '2017-05-14'));
var brightnessTemp = dataset.select(['irwin_cdr', 'vschn', 'irwvp']);
var brightnessTempVis = {
  min: 500.0,
  max: 10000.0,
};
Map.setCenter(7.71, 17.93, 2);
Map.addLayer(brightnessTemp, brightnessTempVis, 'Brightness Temperature');

 



相关文章
|
6月前
|
数据可视化 定位技术 Sentinel
如何用Google Earth Engine快速、大量下载遥感影像数据?
【2月更文挑战第9天】本文介绍在谷歌地球引擎(Google Earth Engine,GEE)中,批量下载指定时间范围、空间范围的遥感影像数据(包括Landsat、Sentinel等)的方法~
2494 1
如何用Google Earth Engine快速、大量下载遥感影像数据?
|
6月前
|
编解码 人工智能 算法
Google Earth Engine——促进森林温室气体报告的全球时间序列数据集
Google Earth Engine——促进森林温室气体报告的全球时间序列数据集
88 0
|
6月前
|
机器学习/深度学习 算法 数据可视化
基于Google Earth Engine云平台构建的多源遥感数据森林地上生物量AGB估算模型含生物量模型应用APP
基于Google Earth Engine云平台构建的多源遥感数据森林地上生物量AGB估算模型含生物量模型应用APP
224 0
|
6月前
|
数据可视化 数据挖掘 数据建模
R语言指数平滑法holt-winters分析谷歌Google Analytics博客用户访问时间序列数据
R语言指数平滑法holt-winters分析谷歌Google Analytics博客用户访问时间序列数据
|
6月前
|
数据处理
Google Earth Engine(GEE)——sentinel-1数据处理过程中出现错误Dictionary does not contain key: bucketMeans
Google Earth Engine(GEE)——sentinel-1数据处理过程中出现错误Dictionary does not contain key: bucketMeans
113 0
|
6月前
|
数据采集 编解码 人工智能
Google Earth Engine(GEE)——全球每日近地表空气温度(2003-2020年)
Google Earth Engine(GEE)——全球每日近地表空气温度(2003-2020年)
221 0
|
6月前
|
编解码 人工智能 数据库
Google Earth Engine(GEE)——全球道路盘查项目全球道路数据库
Google Earth Engine(GEE)——全球道路盘查项目全球道路数据库
145 0
|
6月前
|
编解码
Open Google Earth Engine(OEEL)——matrixUnit(...)中产生常量影像
Open Google Earth Engine(OEEL)——matrixUnit(...)中产生常量影像
77 0
|
6月前
Google Earth Engine(GEE)——导出指定区域的河流和流域范围
Google Earth Engine(GEE)——导出指定区域的河流和流域范围
266 0
|
6月前
|
传感器 编解码 数据处理
Open Google Earth Engine(OEEL)——哨兵1号数据的黑边去除功能附链接和代码
Open Google Earth Engine(OEEL)——哨兵1号数据的黑边去除功能附链接和代码
128 0

热门文章

最新文章