Summary:
    Nadir-viewing hyperspectral sensor overlooking Stennis Space Center from 3 km altitude for a series of three different aerosol loads.

Included files:
    Stennis1p0_RAD.bsq		MCScene radiance cube for default rural aerosols case
    Stennis1p0_RAD.bsq.hdr	header file for above
    Stennis0p5_RAD.bsq		MCScene radiance cube for 50% rural aerosol load case
    Stennis0p5_RAD.bsq.hdr	header file for above
    Stennis1p5_RAD.bsq		MCScene radiance cube for 150% rural aerosol load case
    Stennis1p5_RAD.bsq.hdr	header file for above
    Stennis.bsq.SRC		pixel LOS source surface reflectance cube for all aerosol loads cases
    Stennis.bsq.SRC.hdr		header file for above  file
    Stennis1p0.OD.txt		average optical depth cube for default rural aerosols case
    Stennis0p5.OD.txt		average optical depth cube for 50% rural aerosol load case
    Stennis1p5.OD.txt		average optical depth cube for 150% rural aerosol load case
    readme_Stennis.txt		this file
    
Scenario:
    Source reflectance data = AVIRIS data of Stennis Space Center, atmosphere removed with FLAASH, resampled to a HyMap spectral grid
    nBands = 125
    first sensor band (chan, lambda, FWHM)=    1   400.0000    16.0000 nm
    last sensor band (chan, lambda, FWHM)=  125  2493.3000    18.1000 nm
    nxPixels = 511
    nyPixels = 511
    xPixelSize = 2 m
    yPixelSize = 2 m
    sensor view = nadir
    SensorAlt (m) = 3000.     
    SolarZenith (deg) = 48.18     
    SolarAzimuth (deg) = 278.46     
    DEM used = yes, but the scene is quite flat with a mean altitude of ~6 m above sea level
    atmosphere model = MODTRAN mid-latitude summer
    aerosol model = MODTRAN rural
    default sea level visibility at 550 nm = 23 km
    clouds = none