Class 10: Earth-Orbiting Satellites And Review Thursday 5 Februar Reading: LKC 7.13 -- p. 574 - 615 Last lecture: Spectroscopy, mineral spectra
Class 10: Earth-Orbiting Satellites And Review
Dec 31, 2015
Thursday 5 February. Class 10: Earth-Orbiting Satellites And Review. Reading: LKC 7.13 -- p. 574 - 615 Last lecture: Spectroscopy, mineral spectra. Orbit Platform Sensor. C-130. Sputnik. 1957 Sputnik. 1999 EOS. Sputnik 2 with Laika. Airborne platforms – test beds, flexible paths. - PowerPoint PPT Presentation
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Class 10: Earth-Orbiting SatellitesAnd Review
Thursday 5 February
Reading: LKC 7.13 -- p. 574 - 615
Last lecture: Spectroscopy, mineral spectra
Orbit
Platform
Sensor
1957Sputnik
1999EOS
C-130
Sputnik
Sputnik 2with Laika
SEBASS Hyperspectral TIR sensor in a Twin Otter
Airborne platforms – test beds, flexible paths
Orbits
Key elements: - eccentricity - inclination - periapsis
Inclination
Low inclination High inclination
Hubble Space Telescope – low inclination
most Shuttles - low inclination
Exception: SRTM i=58º
High-inclination orbits
Special case –Sun-synchronous orbit(i ~ -81º)
Satellite is overhead at same local solar time all year
Why would you choose - late morning? - mid afternoon? - early morning?
Global coverage
Sensor characteristics
- spatial resolution and field of view- spectral resolution- spectral coverage- number of bands
Spatial resolution depends on experimenthigh – spatial detail, less emphasis on spectroscopymoderate – environmental monitoringlow – weather, oceanography
Spectral resolutionpanchromaticmultispectralhyperspectral (imaging spectroscopy)
Spectral coverage
Opticalreflected sunlightthermal infraredLiDAR
MicrowavepassiveRadar
Gamma ray, X ray, geophysical (magnetic, gravity fields)
LANDSAT – SUN-SYNCHRONOUS ORBIT
ThematicMapper
ESS 421 - 1st halftopics covered in class, reading, and labs
Images and maps - (x,y,z,,t)
Temporal data - Time-lapse movies
Spatial data - Photos and interpretation
Spectral data
Electromagnetic spectrum
Absorption and Beer’s law (=e-kz)
Transmission
Reflection
Scattering and Lambert’s law R=Io(cos i)/
Interaction of light and materials
Electronic processes (VNIR)
- electron transition (VIS), sharing (UV), crystral field (NIR)
Vibrations and overtones (SWIR-TIR)
Gas,liquid,glass, crystalline
Spectra of common materials
leaves, soil, water, clouds, snow, iron oxides, hydrated minerals
ESS 421 - 1st halfkey areas for midterm (Tuesday, 10 February 9:30-10:20)
Questions may be drawn from labs, lectures, text
Basic remote sensing parameters
irradiance, radiance, and their units
the electromagnetic spectrum
thermal emission
Atmospheric effects and scattering processes
Scattering and reflection from surfaces
Spectroscopy fundamentals
Spectra of common materials
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