- published: 28 May 2014
- views: 13150
-
remove the playlistSoil Moisture Active Passive
- remove the playlistSoil Moisture Active Passive
SMAP
SMAP is a Japanese boy band formed by Johnny & Associates. While originally consisting of six members, the group currently consists of five: Masahiro Nakai, Takuya Kimura, Goro Inagaki, Tsuyoshi Kusanagi, and Shingo Katori. The group's name is an acronym standing for Sports Music Assemble People.
The best selling boyband in Asia by more than 35 million records sold, SMAP released their first CD in 1991 and has since released over fifty singles and twenty albums. Approximately more than half of the singles and a half of the albums have reached the top of the Japanese Oricon music charts. In recent years, the interval between the band's single CD releases has become longer, and they are now released approximately once a year.
The members of SMAP have also pursued careers outside of music, including involvement in television variety shows, dramas, commercials, and movies, making them one of the most popular Johnny's groups. Largely due to their popularity, Johnny & Associates became the most successful agency in Japan, with earnings of almost three billion Japanese yen in 1995.
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/SMAP
SMAP1
Stromal membrane-associated protein 1 is a protein that in humans is encoded by the SMAP1 gene.
The protein encoded by this gene is similar to the mouse stromal membrane-associated protein-1. This similarity suggests that this human gene product is also a type II membrane glycoprotein involved in the erythropoietic stimulatory activity of stromal cells. Alternate splicing results in multiple transcript variants encoding different isoforms.
References
Further reading
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/SMAP1
Soil Moisture Active Passive
Soil Moisture Active Passive (SMAP) is an American environmental research satellite launched on 31 January 2015. It is one of the first Earth observation satellites being developed by NASA in response to the National Research Council’s Decadal Survey.
Mission overview
SMAP will provide measurements of the land surface soil moisture and freeze-thaw state with near-global revisit coverage in 2–3 days. SMAP surface measurements will be coupled with hydrologic models to infer soil moisture conditions in the root zone. These measurements will enable science applications users to:
SMAP observations will be acquired for a period of at least three years after launch. A comprehensive validation, science, and applications program will be implemented, and all data will be made available publicly through the NASA archive centers.
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Soil_Moisture_Active_Passive
Podcasts:
-
NASA's Soil Moisture Active Passive Mission
This video discusses NASA's upcoming Soil Moisture Active Passive mission -- SMAP for short. SMAP is currently scheduled for launch on Nov. 5, 2014. More information at https://smap.jpl.nasa.gov/
published: 28 May 2014 -
SMAP At Work - NASA's Soil Moisture Active Passive Satellite
In-depth information about NASA's upcoming SMAP mission can be found on the Alaska Satellite Facility's website at: https://asf.alaska.edu/smap/ The Alaska Satellite Facility is part of the University of Alaska Fairbanks. --------------------------- NASA's SMAP satellite will measure global soil moisture every three days for three years--including soil's freeze-thaw state. These measurements will be used to: 1) further understanding of processes that link the water, energy, and carbon cycles; 2) enhance weather and climate prediction models; 3) quantify net carbon flux in boreal landscapes; and 4) develop improved flood-prediction and drought-monitoring capabilities. Observatory: The SMAP spacecraft features an instrument suite deployed by an expendable launch vehicle into a 680-km, ...
published: 19 Jun 2014 -
Google Earth Engine Tutorial: SMAP (Soil Moisture Active Passive Satellite) Soil Moisture
SMAP (Soil Moisture Active Passive Satellite) Soil Moisture with Google Earth Engine. Learn more: https://spatialelearning.com Subscribe for more tutorials like this: https://bit.ly/3AcLXxy WATCH YOUTUBE PLAYLISTS Google Earth Engine JavaScript API YouTube Playlist: https://bit.ly/3cRq9gX Google Earth Engine Python YouTube Playlist: https://bit.ly/2Sqqe3Z Python for Spatial Data Analysis YouTube Playlist - https://bit.ly/3xc94px Spatial Data Analysis with QGIS - https://bit.ly/3zbVcxg WHAT TO WATCH NEXT Earth Engine Python API for Remote Sensing Analysis - https://youtu.be/p_7RlYM-Er0 Removing Clouds from Landsat Satellite Imagery - https://youtu.be/M9ftVPl4EN8 Remote Sensing Applications - https://youtu.be/joJ2uO3GFlY QGIS Tutorial: Google Earth Engine Plugin - https://youtu.be/9k1Xl...
published: 08 Jan 2019 -
NASA Earthdata Webinar: NASA Soil Moisture Active Passive Mission (SMAP) Data Products
NASA's Soil Moisture Active Passive (SMAP) Mission will produce global soil moisture data at unprecedented levels of accuracy and resolution. The SMAP Spacecraft launched on January 31, 2015. The SMAP instruments are deployed and operating. Data will be flowing and publicly available before the end of this calendar year. These data will both enable and enhance research into many major endeavors, including: * The processes that link the water, energy and carbon cycles, * Weather and climate prediction models, * Global quantification of the net flux of carbon in Boreal landscapes, and * Flood prediction and drought monitoring capabilities Indeed, the SMAP mission team anticipates that scientists, social scientists and policy makers will develop even more applications using SMAP data. This ...
published: 20 May 2015 -
SMAP's Global Impact - NASA's Soil Moisture Active Passive Satellite
In-depth information about NASA's upcoming SMAP mission can be found on the Alaska Satellite Facility's website at: https://asf.alaska.edu/smap/ The Alaska Satellite Facility is part of the University of Alaska Fairbanks. --------------------------- NASA's SMAP satellite will measure global soil moisture every three days for three years--including soil's freeze-thaw state. These measurements will be used to: 1) further understanding of processes that link the water, energy, and carbon cycles; 2) enhance weather and climate prediction models; 3) quantify net carbon flux in boreal landscapes; and 4) develop improved flood-prediction and drought-monitoring capabilities. Observatory: The SMAP spacecraft features an instrument suite deployed by an expendable launch vehicle into a 680-km, ...
published: 19 Jun 2014 -
Soil Moisture Active Passive Launch
On Jan. 31, Professor Dara Entekhabi and NASA successfully launched a satellite that will provide high-resolution global maps of soil moisture.
published: 23 Feb 2015 -
Download and Extract Soil Moisture Data from Sentinel 1 and SMAP using ArcGIS Desktop
How to download and extract soil moisture data from Sentinel-1 and SMAP. This soil moisture data generated from Sentinel-1 SAR and SMAP L-band Radiometer to overcome the failure of SMAP L-band SAR Sensor at 2015. This synthesized data is known to be not as accurate compared to original SMAP data (not available after 2015 due to sensor failure), but offer better spatial resolution. Music by : www.bensound.com and Me
published: 26 Apr 2020 -
The Soil Moisture Active Passive (SMAP) Mission
published: 30 Jun 2014
developed with YouTube
15:43
NASA's Soil Moisture Active Passive Mission
- Order: Reorder
- Duration: 15:43
- Uploaded Date: 28 May 2014
- views: 13150
This video discusses NASA's upcoming Soil Moisture Active Passive mission -- SMAP for short. SMAP is currently scheduled for launch on Nov. 5, 2014.
More infor...
This video discusses NASA's upcoming Soil Moisture Active Passive mission -- SMAP for short. SMAP is currently scheduled for launch on Nov. 5, 2014.
More information at https://smap.jpl.nasa.gov/
https://wn.com/Nasa's_Soil_Moisture_Active_Passive_Mission
This video discusses NASA's upcoming Soil Moisture Active Passive mission -- SMAP for short. SMAP is currently scheduled for launch on Nov. 5, 2014.
More information at https://smap.jpl.nasa.gov/
3:04
SMAP At Work - NASA's Soil Moisture Active Passive Satellite
- Order: Reorder
- Duration: 3:04
- Uploaded Date: 19 Jun 2014
- views: 14716
In-depth information about NASA's upcoming SMAP mission can be found on the Alaska Satellite Facility's website at: https://asf.alaska.edu/smap/
The Alaska Sat...
In-depth information about NASA's upcoming SMAP mission can be found on the Alaska Satellite Facility's website at: https://asf.alaska.edu/smap/
The Alaska Satellite Facility is part of the University of Alaska Fairbanks.
---------------------------
NASA's SMAP satellite will measure global soil moisture every three days for three years--including soil's freeze-thaw state. These measurements will be used to:
1) further understanding of processes that link the water, energy, and carbon cycles;
2) enhance weather and climate prediction models;
3) quantify net carbon flux in boreal landscapes; and
4) develop improved flood-prediction and drought-monitoring capabilities.
Observatory: The SMAP spacecraft features an instrument suite deployed by an expendable launch vehicle into a 680-km, near-polar, sun-synchronous orbit, with equator crossings at 6 a.m. and 6 p.m. local time. SMAP provides global coverage within three days at the equator and two days at boreal latitudes.
Instrument: The instrument includes a radiometer and a synthetic aperture radar (SAR), operating at L-band (1.20-1.41 GHz), that measure surface emission and backscatter, sensing soil conditions through moderate vegetation cover.
Operations: SMAP science measurements will be acquired for three years. A comprehensive validation program will be carried out after launch to assess the accuracies of soil-moisture and freeze-thaw estimates. Data products from the SMAP mission will be made available through the Alaska Satellite Facility DAAC and the NSIDC DAAC.
CREDITS
Produced by the Alaska Satellite Facility SAR DAAC
In cooperation with NASA / JPL
Additional material courtesy of Lucas A. Jones, John S. Kimball, Joseph Glassy (University of Montana); National Snow and Ice Data Center DAAC (NSIDC); Earth Science and Remote Sensing Unit, NASA Johnson Space Center; International Geosphere-Biosphere Programme; Globaia; UN Foundation; Ubaldo Fernandez;
https://wn.com/Smap_At_Work_Nasa's_Soil_Moisture_Active_Passive_Satellite
In-depth information about NASA's upcoming SMAP mission can be found on the Alaska Satellite Facility's website at: https://asf.alaska.edu/smap/
The Alaska Satellite Facility is part of the University of Alaska Fairbanks.
---------------------------
NASA's SMAP satellite will measure global soil moisture every three days for three years--including soil's freeze-thaw state. These measurements will be used to:
1) further understanding of processes that link the water, energy, and carbon cycles;
2) enhance weather and climate prediction models;
3) quantify net carbon flux in boreal landscapes; and
4) develop improved flood-prediction and drought-monitoring capabilities.
Observatory: The SMAP spacecraft features an instrument suite deployed by an expendable launch vehicle into a 680-km, near-polar, sun-synchronous orbit, with equator crossings at 6 a.m. and 6 p.m. local time. SMAP provides global coverage within three days at the equator and two days at boreal latitudes.
Instrument: The instrument includes a radiometer and a synthetic aperture radar (SAR), operating at L-band (1.20-1.41 GHz), that measure surface emission and backscatter, sensing soil conditions through moderate vegetation cover.
Operations: SMAP science measurements will be acquired for three years. A comprehensive validation program will be carried out after launch to assess the accuracies of soil-moisture and freeze-thaw estimates. Data products from the SMAP mission will be made available through the Alaska Satellite Facility DAAC and the NSIDC DAAC.
CREDITS
Produced by the Alaska Satellite Facility SAR DAAC
In cooperation with NASA / JPL
Additional material courtesy of Lucas A. Jones, John S. Kimball, Joseph Glassy (University of Montana); National Snow and Ice Data Center DAAC (NSIDC); Earth Science and Remote Sensing Unit, NASA Johnson Space Center; International Geosphere-Biosphere Programme; Globaia; UN Foundation; Ubaldo Fernandez;
- published: 19 Jun 2014
- views: 14716
5:17
Google Earth Engine Tutorial: SMAP (Soil Moisture Active Passive Satellite) Soil Moisture
- Order: Reorder
- Duration: 5:17
- Uploaded Date: 08 Jan 2019
- views: 2425
SMAP (Soil Moisture Active Passive Satellite) Soil Moisture with Google Earth Engine. Learn more: https://spatialelearning.com
Subscribe for more tutorials l...
SMAP (Soil Moisture Active Passive Satellite) Soil Moisture with Google Earth Engine. Learn more: https://spatialelearning.com
Subscribe for more tutorials like this: https://bit.ly/3AcLXxy
WATCH YOUTUBE PLAYLISTS
Google Earth Engine JavaScript API YouTube Playlist: https://bit.ly/3cRq9gX
Google Earth Engine Python YouTube Playlist: https://bit.ly/2Sqqe3Z
Python for Spatial Data Analysis YouTube Playlist - https://bit.ly/3xc94px
Spatial Data Analysis with QGIS - https://bit.ly/3zbVcxg
WHAT TO WATCH NEXT
Earth Engine Python API for Remote Sensing Analysis - https://youtu.be/p_7RlYM-Er0
Removing Clouds from Landsat Satellite Imagery - https://youtu.be/M9ftVPl4EN8
Remote Sensing Applications - https://youtu.be/joJ2uO3GFlY
QGIS Tutorial: Google Earth Engine Plugin - https://youtu.be/9k1Xlp31soE
How to Export Images with Google Earth Engine - https://youtu.be/W7N7_8L9SMI
SMAP (Soil Moisture Active Passive Satellite) - https://youtu.be/4LhSe8hjbLc
How to Make CHIRPS Rainfall Map - https://youtu.be/Wwivx2mQSbM
Supervised Classification using Landsat on Earth Engine - https://youtu.be/VcACE0qSbwQ
How to Calculate NDVI in Python https://youtu.be/tUJIfq4Ud48
Earth at Night with VIIRS Night Light - https://youtu.be/9SwHCeT0Pj4
CONTACT
info@spatialelearning.com
FOLLOW US
Courses: https://www.spatialelearning.com
Facebook: https://www.facebook.com/spatialelearning
Twitter: https://twitter.com/SpatialeLearn
YouTube: https://www.youtube.com/c/SpatialeLearning
https://wn.com/Google_Earth_Engine_Tutorial_Smap_(Soil_Moisture_Active_Passive_Satellite)_Soil_Moisture
SMAP (Soil Moisture Active Passive Satellite) Soil Moisture with Google Earth Engine. Learn more: https://spatialelearning.com
Subscribe for more tutorials like this: https://bit.ly/3AcLXxy
WATCH YOUTUBE PLAYLISTS
Google Earth Engine JavaScript API YouTube Playlist: https://bit.ly/3cRq9gX
Google Earth Engine Python YouTube Playlist: https://bit.ly/2Sqqe3Z
Python for Spatial Data Analysis YouTube Playlist - https://bit.ly/3xc94px
Spatial Data Analysis with QGIS - https://bit.ly/3zbVcxg
WHAT TO WATCH NEXT
Earth Engine Python API for Remote Sensing Analysis - https://youtu.be/p_7RlYM-Er0
Removing Clouds from Landsat Satellite Imagery - https://youtu.be/M9ftVPl4EN8
Remote Sensing Applications - https://youtu.be/joJ2uO3GFlY
QGIS Tutorial: Google Earth Engine Plugin - https://youtu.be/9k1Xlp31soE
How to Export Images with Google Earth Engine - https://youtu.be/W7N7_8L9SMI
SMAP (Soil Moisture Active Passive Satellite) - https://youtu.be/4LhSe8hjbLc
How to Make CHIRPS Rainfall Map - https://youtu.be/Wwivx2mQSbM
Supervised Classification using Landsat on Earth Engine - https://youtu.be/VcACE0qSbwQ
How to Calculate NDVI in Python https://youtu.be/tUJIfq4Ud48
Earth at Night with VIIRS Night Light - https://youtu.be/9SwHCeT0Pj4
CONTACT
info@spatialelearning.com
FOLLOW US
Courses: https://www.spatialelearning.com
Facebook: https://www.facebook.com/spatialelearning
Twitter: https://twitter.com/SpatialeLearn
YouTube: https://www.youtube.com/c/SpatialeLearning
- published: 08 Jan 2019
- views: 2425
1:19:37
NASA Earthdata Webinar: NASA Soil Moisture Active Passive Mission (SMAP) Data Products
- Order: Reorder
- Duration: 1:19:37
- Uploaded Date: 20 May 2015
- views: 6445
NASA's Soil Moisture Active Passive (SMAP) Mission will produce global soil moisture data at unprecedented levels of accuracy and resolution. The SMAP Spacecraf...
NASA's Soil Moisture Active Passive (SMAP) Mission will produce global soil moisture data at unprecedented levels of accuracy and resolution. The SMAP Spacecraft launched on January 31, 2015. The SMAP instruments are deployed and operating. Data will be flowing and publicly available before the end of this calendar year.
These data will both enable and enhance research into many major endeavors, including: * The processes that link the water, energy and carbon cycles, * Weather and climate prediction models, * Global quantification of the net flux of carbon in Boreal landscapes, and * Flood prediction and drought monitoring capabilities Indeed, the SMAP mission team anticipates that scientists, social scientists and policy makers will develop even more applications using SMAP data. This webinar provides existing and potential new users with an overview of the content and the format of all fifteen SMAP data products.
For more information about the SMAP Mission, http://smap.jpl.nasa.gov
For NASA ASF DAAC SMAP Data Information: https://www.asf.alaska.edu/smap/
For NASA NSIDC DAAC SMAP Data Information:
http://nsidc.org/data/smap
https://wn.com/Nasa_Earthdata_Webinar_Nasa_Soil_Moisture_Active_Passive_Mission_(Smap)_Data_Products
NASA's Soil Moisture Active Passive (SMAP) Mission will produce global soil moisture data at unprecedented levels of accuracy and resolution. The SMAP Spacecraft launched on January 31, 2015. The SMAP instruments are deployed and operating. Data will be flowing and publicly available before the end of this calendar year.
These data will both enable and enhance research into many major endeavors, including: * The processes that link the water, energy and carbon cycles, * Weather and climate prediction models, * Global quantification of the net flux of carbon in Boreal landscapes, and * Flood prediction and drought monitoring capabilities Indeed, the SMAP mission team anticipates that scientists, social scientists and policy makers will develop even more applications using SMAP data. This webinar provides existing and potential new users with an overview of the content and the format of all fifteen SMAP data products.
For more information about the SMAP Mission, http://smap.jpl.nasa.gov
For NASA ASF DAAC SMAP Data Information: https://www.asf.alaska.edu/smap/
For NASA NSIDC DAAC SMAP Data Information:
http://nsidc.org/data/smap
- published: 20 May 2015
- views: 6445
3:23
SMAP's Global Impact - NASA's Soil Moisture Active Passive Satellite
- Order: Reorder
- Duration: 3:23
- Uploaded Date: 19 Jun 2014
- views: 1696
In-depth information about NASA's upcoming SMAP mission can be found on the Alaska Satellite Facility's website at: https://asf.alaska.edu/smap/
The Alaska Sat...
In-depth information about NASA's upcoming SMAP mission can be found on the Alaska Satellite Facility's website at: https://asf.alaska.edu/smap/
The Alaska Satellite Facility is part of the University of Alaska Fairbanks.
---------------------------
NASA's SMAP satellite will measure global soil moisture every three days for three years--including soil's freeze-thaw state. These measurements will be used to:
1) further understanding of processes that link the water, energy, and carbon cycles;
2) enhance weather and climate prediction models;
3) quantify net carbon flux in boreal landscapes; and
4) develop improved flood-prediction and drought-monitoring capabilities.
Observatory: The SMAP spacecraft features an instrument suite deployed by an expendable launch vehicle into a 680-km, near-polar, sun-synchronous orbit, with equator crossings at 6 a.m. and 6 p.m. local time. SMAP provides global coverage within three days at the equator and two days at boreal latitudes.
Instrument: The instrument includes a radiometer and a synthetic aperture radar (SAR), operating at L-band (1.20-1.41 GHz), that measure surface emission and backscatter, sensing soil conditions through moderate vegetation cover.
Operations: SMAP science measurements will be acquired for three years. A comprehensive validation program will be carried out after launch to assess the accuracies of soil-moisture and freeze-thaw estimates. Data products from the SMAP mission will be made available through the Alaska Satellite Facility DAAC and the NSIDC DAAC.
CREDITS
Produced by the Alaska Satellite Facility SAR DAAC
In cooperation with NASA / JPL
Additional footage courtesy of Marshall Ambros, Cedric Charlesia, Bruce Malamud, mLufotos, Daniel Pinheiro, Priyanka Pruthi (UNICEF), and Manuel Teles
https://wn.com/Smap's_Global_Impact_Nasa's_Soil_Moisture_Active_Passive_Satellite
In-depth information about NASA's upcoming SMAP mission can be found on the Alaska Satellite Facility's website at: https://asf.alaska.edu/smap/
The Alaska Satellite Facility is part of the University of Alaska Fairbanks.
---------------------------
NASA's SMAP satellite will measure global soil moisture every three days for three years--including soil's freeze-thaw state. These measurements will be used to:
1) further understanding of processes that link the water, energy, and carbon cycles;
2) enhance weather and climate prediction models;
3) quantify net carbon flux in boreal landscapes; and
4) develop improved flood-prediction and drought-monitoring capabilities.
Observatory: The SMAP spacecraft features an instrument suite deployed by an expendable launch vehicle into a 680-km, near-polar, sun-synchronous orbit, with equator crossings at 6 a.m. and 6 p.m. local time. SMAP provides global coverage within three days at the equator and two days at boreal latitudes.
Instrument: The instrument includes a radiometer and a synthetic aperture radar (SAR), operating at L-band (1.20-1.41 GHz), that measure surface emission and backscatter, sensing soil conditions through moderate vegetation cover.
Operations: SMAP science measurements will be acquired for three years. A comprehensive validation program will be carried out after launch to assess the accuracies of soil-moisture and freeze-thaw estimates. Data products from the SMAP mission will be made available through the Alaska Satellite Facility DAAC and the NSIDC DAAC.
CREDITS
Produced by the Alaska Satellite Facility SAR DAAC
In cooperation with NASA / JPL
Additional footage courtesy of Marshall Ambros, Cedric Charlesia, Bruce Malamud, mLufotos, Daniel Pinheiro, Priyanka Pruthi (UNICEF), and Manuel Teles
- published: 19 Jun 2014
- views: 1696
1:42
Soil Moisture Active Passive Launch
- Order: Reorder
- Duration: 1:42
- Uploaded Date: 23 Feb 2015
- views: 111
On Jan. 31, Professor Dara Entekhabi and NASA successfully launched a satellite that will provide high-resolution global maps of soil moisture.
On Jan. 31, Professor Dara Entekhabi and NASA successfully launched a satellite that will provide high-resolution global maps of soil moisture.
https://wn.com/Soil_Moisture_Active_Passive_Launch
On Jan. 31, Professor Dara Entekhabi and NASA successfully launched a satellite that will provide high-resolution global maps of soil moisture.
- published: 23 Feb 2015
- views: 111
7:51
Download and Extract Soil Moisture Data from Sentinel 1 and SMAP using ArcGIS Desktop
- Order: Reorder
- Duration: 7:51
- Uploaded Date: 26 Apr 2020
- views: 30080
How to download and extract soil moisture data from Sentinel-1 and SMAP.
This soil moisture data generated from Sentinel-1 SAR and SMAP L-band Radiometer to ov...
How to download and extract soil moisture data from Sentinel-1 and SMAP.
This soil moisture data generated from Sentinel-1 SAR and SMAP L-band Radiometer to overcome the failure of SMAP L-band SAR Sensor at 2015. This synthesized data is known to be not as accurate compared to original SMAP data (not available after 2015 due to sensor failure), but offer better spatial resolution.
Music by : www.bensound.com and Me
https://wn.com/Download_And_Extract_Soil_Moisture_Data_From_Sentinel_1_And_Smap_Using_Arcgis_Desktop
How to download and extract soil moisture data from Sentinel-1 and SMAP.
This soil moisture data generated from Sentinel-1 SAR and SMAP L-band Radiometer to overcome the failure of SMAP L-band SAR Sensor at 2015. This synthesized data is known to be not as accurate compared to original SMAP data (not available after 2015 due to sensor failure), but offer better spatial resolution.
Music by : www.bensound.com and Me
- published: 26 Apr 2020
- views: 30080
1:39
The Soil Moisture Active Passive (SMAP) Mission
- Order: Reorder
- Duration: 1:39
- Uploaded Date: 30 Jun 2014
- views: 306
- published: 30 Jun 2014
- views: 306
15:43
NASA's Soil Moisture Active Passive Mission
This video discusses NASA's upcoming Soil Moisture Active Passive mission -- SMAP for shor...
published: 28 May 2014
NASA's Soil Moisture Active Passive Mission
NASA's Soil Moisture Active Passive Mission
- Report rights infringement
- published: 28 May 2014
- views: 13150
This video discusses NASA's upcoming Soil Moisture Active Passive mission -- SMAP for short. SMAP is currently scheduled for launch on Nov. 5, 2014.
More information at https://smap.jpl.nasa.gov/
3:04
SMAP At Work - NASA's Soil Moisture Active Passive Satellite
In-depth information about NASA's upcoming SMAP mission can be found on the Alaska Satelli...
published: 19 Jun 2014
SMAP At Work - NASA's Soil Moisture Active Passive Satellite
SMAP At Work - NASA's Soil Moisture Active Passive Satellite
- Report rights infringement
- published: 19 Jun 2014
- views: 14716
In-depth information about NASA's upcoming SMAP mission can be found on the Alaska Satellite Facility's website at: https://asf.alaska.edu/smap/
The Alaska Satellite Facility is part of the University of Alaska Fairbanks.
---------------------------
NASA's SMAP satellite will measure global soil moisture every three days for three years--including soil's freeze-thaw state. These measurements will be used to:
1) further understanding of processes that link the water, energy, and carbon cycles;
2) enhance weather and climate prediction models;
3) quantify net carbon flux in boreal landscapes; and
4) develop improved flood-prediction and drought-monitoring capabilities.
Observatory: The SMAP spacecraft features an instrument suite deployed by an expendable launch vehicle into a 680-km, near-polar, sun-synchronous orbit, with equator crossings at 6 a.m. and 6 p.m. local time. SMAP provides global coverage within three days at the equator and two days at boreal latitudes.
Instrument: The instrument includes a radiometer and a synthetic aperture radar (SAR), operating at L-band (1.20-1.41 GHz), that measure surface emission and backscatter, sensing soil conditions through moderate vegetation cover.
Operations: SMAP science measurements will be acquired for three years. A comprehensive validation program will be carried out after launch to assess the accuracies of soil-moisture and freeze-thaw estimates. Data products from the SMAP mission will be made available through the Alaska Satellite Facility DAAC and the NSIDC DAAC.
CREDITS
Produced by the Alaska Satellite Facility SAR DAAC
In cooperation with NASA / JPL
Additional material courtesy of Lucas A. Jones, John S. Kimball, Joseph Glassy (University of Montana); National Snow and Ice Data Center DAAC (NSIDC); Earth Science and Remote Sensing Unit, NASA Johnson Space Center; International Geosphere-Biosphere Programme; Globaia; UN Foundation; Ubaldo Fernandez;
5:17
Google Earth Engine Tutorial: SMAP (Soil Moisture Active Passive Satellite) Soil Moisture
SMAP (Soil Moisture Active Passive Satellite) Soil Moisture with Google Earth Engine. Lear...
published: 08 Jan 2019
Google Earth Engine Tutorial: SMAP (Soil Moisture Active Passive Satellite) Soil Moisture
Google Earth Engine Tutorial: SMAP (Soil Moisture Active Passive Satellite) Soil Moisture
- Report rights infringement
- published: 08 Jan 2019
- views: 2425
SMAP (Soil Moisture Active Passive Satellite) Soil Moisture with Google Earth Engine. Learn more: https://spatialelearning.com
Subscribe for more tutorials like this: https://bit.ly/3AcLXxy
WATCH YOUTUBE PLAYLISTS
Google Earth Engine JavaScript API YouTube Playlist: https://bit.ly/3cRq9gX
Google Earth Engine Python YouTube Playlist: https://bit.ly/2Sqqe3Z
Python for Spatial Data Analysis YouTube Playlist - https://bit.ly/3xc94px
Spatial Data Analysis with QGIS - https://bit.ly/3zbVcxg
WHAT TO WATCH NEXT
Earth Engine Python API for Remote Sensing Analysis - https://youtu.be/p_7RlYM-Er0
Removing Clouds from Landsat Satellite Imagery - https://youtu.be/M9ftVPl4EN8
Remote Sensing Applications - https://youtu.be/joJ2uO3GFlY
QGIS Tutorial: Google Earth Engine Plugin - https://youtu.be/9k1Xlp31soE
How to Export Images with Google Earth Engine - https://youtu.be/W7N7_8L9SMI
SMAP (Soil Moisture Active Passive Satellite) - https://youtu.be/4LhSe8hjbLc
How to Make CHIRPS Rainfall Map - https://youtu.be/Wwivx2mQSbM
Supervised Classification using Landsat on Earth Engine - https://youtu.be/VcACE0qSbwQ
How to Calculate NDVI in Python https://youtu.be/tUJIfq4Ud48
Earth at Night with VIIRS Night Light - https://youtu.be/9SwHCeT0Pj4
CONTACT
info@spatialelearning.com
FOLLOW US
Courses: https://www.spatialelearning.com
Facebook: https://www.facebook.com/spatialelearning
Twitter: https://twitter.com/SpatialeLearn
YouTube: https://www.youtube.com/c/SpatialeLearning
1:19:37
NASA Earthdata Webinar: NASA Soil Moisture Active Passive Mission (SMAP) Data Products
NASA's Soil Moisture Active Passive (SMAP) Mission will produce global soil moisture data ...
published: 20 May 2015
NASA Earthdata Webinar: NASA Soil Moisture Active Passive Mission (SMAP) Data Products
NASA Earthdata Webinar: NASA Soil Moisture Active Passive Mission (SMAP) Data Products
- Report rights infringement
- published: 20 May 2015
- views: 6445
NASA's Soil Moisture Active Passive (SMAP) Mission will produce global soil moisture data at unprecedented levels of accuracy and resolution. The SMAP Spacecraft launched on January 31, 2015. The SMAP instruments are deployed and operating. Data will be flowing and publicly available before the end of this calendar year.
These data will both enable and enhance research into many major endeavors, including: * The processes that link the water, energy and carbon cycles, * Weather and climate prediction models, * Global quantification of the net flux of carbon in Boreal landscapes, and * Flood prediction and drought monitoring capabilities Indeed, the SMAP mission team anticipates that scientists, social scientists and policy makers will develop even more applications using SMAP data. This webinar provides existing and potential new users with an overview of the content and the format of all fifteen SMAP data products.
For more information about the SMAP Mission, http://smap.jpl.nasa.gov
For NASA ASF DAAC SMAP Data Information: https://www.asf.alaska.edu/smap/
For NASA NSIDC DAAC SMAP Data Information:
http://nsidc.org/data/smap
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SMAP's Global Impact - NASA's Soil Moisture Active Passive Satellite
In-depth information about NASA's upcoming SMAP mission can be found on the Alaska Satelli...
published: 19 Jun 2014
SMAP's Global Impact - NASA's Soil Moisture Active Passive Satellite
SMAP's Global Impact - NASA's Soil Moisture Active Passive Satellite
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- published: 19 Jun 2014
- views: 1696
In-depth information about NASA's upcoming SMAP mission can be found on the Alaska Satellite Facility's website at: https://asf.alaska.edu/smap/
The Alaska Satellite Facility is part of the University of Alaska Fairbanks.
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NASA's SMAP satellite will measure global soil moisture every three days for three years--including soil's freeze-thaw state. These measurements will be used to:
1) further understanding of processes that link the water, energy, and carbon cycles;
2) enhance weather and climate prediction models;
3) quantify net carbon flux in boreal landscapes; and
4) develop improved flood-prediction and drought-monitoring capabilities.
Observatory: The SMAP spacecraft features an instrument suite deployed by an expendable launch vehicle into a 680-km, near-polar, sun-synchronous orbit, with equator crossings at 6 a.m. and 6 p.m. local time. SMAP provides global coverage within three days at the equator and two days at boreal latitudes.
Instrument: The instrument includes a radiometer and a synthetic aperture radar (SAR), operating at L-band (1.20-1.41 GHz), that measure surface emission and backscatter, sensing soil conditions through moderate vegetation cover.
Operations: SMAP science measurements will be acquired for three years. A comprehensive validation program will be carried out after launch to assess the accuracies of soil-moisture and freeze-thaw estimates. Data products from the SMAP mission will be made available through the Alaska Satellite Facility DAAC and the NSIDC DAAC.
CREDITS
Produced by the Alaska Satellite Facility SAR DAAC
In cooperation with NASA / JPL
Additional footage courtesy of Marshall Ambros, Cedric Charlesia, Bruce Malamud, mLufotos, Daniel Pinheiro, Priyanka Pruthi (UNICEF), and Manuel Teles
1:42
Soil Moisture Active Passive Launch
On Jan. 31, Professor Dara Entekhabi and NASA successfully launched a satellite that will ...
published: 23 Feb 2015
Soil Moisture Active Passive Launch
Soil Moisture Active Passive Launch
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- published: 23 Feb 2015
- views: 111
On Jan. 31, Professor Dara Entekhabi and NASA successfully launched a satellite that will provide high-resolution global maps of soil moisture.
7:51
Download and Extract Soil Moisture Data from Sentinel 1 and SMAP using ArcGIS Desktop
How to download and extract soil moisture data from Sentinel-1 and SMAP.
This soil moistu...
published: 26 Apr 2020
Download and Extract Soil Moisture Data from Sentinel 1 and SMAP using ArcGIS Desktop
Download and Extract Soil Moisture Data from Sentinel 1 and SMAP using ArcGIS Desktop
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- published: 26 Apr 2020
- views: 30080
How to download and extract soil moisture data from Sentinel-1 and SMAP.
This soil moisture data generated from Sentinel-1 SAR and SMAP L-band Radiometer to overcome the failure of SMAP L-band SAR Sensor at 2015. This synthesized data is known to be not as accurate compared to original SMAP data (not available after 2015 due to sensor failure), but offer better spatial resolution.
Music by : www.bensound.com and Me
1:39
The Soil Moisture Active Passive (SMAP) Mission
published: 30 Jun 2014
The Soil Moisture Active Passive (SMAP) Mission
The Soil Moisture Active Passive (SMAP) Mission
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- published: 30 Jun 2014
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SMAP
SMAP is a Japanese boy band formed by Johnny & Associates. While originally consisting of six members, the group currently consists of five: Masahiro Nakai, Takuya Kimura, Goro Inagaki, Tsuyoshi Kusanagi, and Shingo Katori. The group's name is an acronym standing for Sports Music Assemble People.
The best selling boyband in Asia by more than 35 million records sold, SMAP released their first CD in 1991 and has since released over fifty singles and twenty albums. Approximately more than half of the singles and a half of the albums have reached the top of the Japanese Oricon music charts. In recent years, the interval between the band's single CD releases has become longer, and they are now released approximately once a year.
The members of SMAP have also pursued careers outside of music, including involvement in television variety shows, dramas, commercials, and movies, making them one of the most popular Johnny's groups. Largely due to their popularity, Johnny & Associates became the most successful agency in Japan, with earnings of almost three billion Japanese yen in 1995.
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/SMAP
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by Smap
Holiday in the Sun
by: SmapHey you really need a holiday
But you don't know where to go
No time to go far away
No time to change the flow
Hey you really need to take a break
But you don't know what to do
You don't need tickets taking you to places you'd like to be
Look out your window now it's waiting there outside
Open the door and you're in a simple paradise
Gonna take a little holiday in the sun
Take it easy, have some fun
Just take some time
Let's get carried away
You can find a holiday wherever you go
Good times always shine, you know
So everyone
Come take a holiday in the sun
Hey you really need to get away
Leave your work and stress behind
You don't need to pack up your bags just bring a change of mind
Blue skies are calling you it's gonna be so nice
One step outside and you're in a simple paradise
Gonna take a little holiday in the sun
Take it easy, have some fun
Just take some time
Let's get carried away
You can find a holiday wherever you go
Good times always shine, you know
So everyone
Come take a holiday in the sun
Everybody needs a holiday