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NAME

       r.sunmask  - Calculates cast shadow areas from sun position and elevation raster map.
       Either exact sun position (A) is specified, or date/time to calculate the sun position (B)
       by r.sunmask itself.

KEYWORDS

       raster, solar, sun position, shadow

SYNOPSIS

       r.sunmask
       r.sunmask --help
       r.sunmask  [-zsg]  elevation=name   [output=name]     [altitude=float]     [azimuth=float]
       [year=integer]     [month=integer]     [day=integer]    [hour=integer]    [minute=integer]
       [second=integer]    [timezone=integer]    [east=value]     [north=value]     [--overwrite]
       [--help]  [--verbose]  [--quiet]  [--ui]

   Flags:
       -z
           Do not ignore zero elevation

       -s
           Calculate sun position only and exit

       -g
           Print the sun position output in shell script style

       --overwrite
           Allow output files to overwrite existing files

       --help
           Print usage summary

       --verbose
           Verbose module output

       --quiet
           Quiet module output

       --ui
           Force launching GUI dialog

   Parameters:
       elevation=name [required]
           Name of input elevation raster map

       output=name
           Name for output raster map

       altitude=float
           Altitude of the sun in degrees above the horizon (A)
           Options: 0-89.999

       azimuth=float
           Azimuth of the sun in degrees from north (A)
           Options: 0-360

       year=integer
           Year (B)
           Options: 1950-2050

       month=integer
           Month (B)
           Options: 0-12

       day=integer
           Day (B)
           Options: 0-31

       hour=integer
           Hour (B)
           Options: 0-24

       minute=integer
           Minutes (B)
           Options: 0-60

       second=integer
           Seconds (B)
           Options: 0-60
           Default: 0

       timezone=integer
           Timezone
           East positive, offset from GMT, also use to adjust daylight savings

       east=value
           Easting coordinate (point of interest)
           Default: map center

       north=value
           Northing coordinate (point of interest)
           Default: map center

DESCRIPTION

       r.sunmask creates an output map layer based on an input elevation raster map layer and the
       position of the sun. The output map layer contains the cast shadow  areas  resulting  from
       sunlight  and  elevation.  The  user  can  either specify the sun position directly or the
       module calculates it from given location and date/time parameters using the SOLPOS  (Solar
       and Moon Position Algorithm) developed by the National Renewable Energy Laboratory (NREL).
       SOLPOS operates in two modes, either

           •   (A) parameters to specify the exact known position of the sun, or

           •   (B) parameters to specify the  date/time  for  the  sun  position  calculation  by
               r.sunmask itself
       must be used.

       The  module  performs  sunset/sunrise  checks  and  refraction correction for sun position
       calculation. Local coordinate systems are internally transformed to latitude/longitude for
       the SOLPOS algorithm. Elevation is not taken into account for sunset/sunrise calculations.

       The  solar  zenith  angle  ("sun angle above horizon") is defined as the angle between the
       horizon and the vertical (directly overhead or zenith). Its values  can  range  from  90°,
       when  the  sun  is  directly overhead, to 0°, when the sun is on the horizon. Values lower
       than 0° indicate that the sun is below the horizon.

       The solar azimuth angle ("sun azimuth") defines the direction of the sun.  It is the angle
       between  north  and the projection of the sun’s rays onto the horizontal plane. This angle
       is measured in a clockwise direction and can vary between 0° and  360°.  Specifically,  an
       azimuth  of  0° means the sun is in the north, 90° in the east, 180° in the south and 270°
       in the west.

NOTES

       r.sunmask and daylight saving time: Instead of converting  the  local  time  to  GMT,  the
       SOLPOS  algorithm uses what is known as Local Standard Time, which is generally defined as
       an offset from GMT.  So the key is the offset from GMT, which  is  the  solpos  Time  Zone
       parameter.  If the user specifies clock time (different for winter and summer), s/he would
       have to change the Time Zone parameter in r.sunmask (timezone parameter)  seasonally.  See
       also Daylight saving time by region and country.

       Note:  In  latitude/longitude projects the position coordinates pair (east/west) has to be
       specified in decimal degree (not DD:MM:SS). If not specified, the map center’s coordinates
       will   be   used.    Also   g.region   -l   displays   the  map  center’s  coordinates  in
       latitude/longitude (or g.region -c in the actual coordinate system).

       Note  for  module  usage  with  the  -g  flag,  when  performing  calculations  close   to
       sunset/sunrise:
        [...]
        sunangleabovehorizont=0.434240
        sunrise=07:59:19
        sunset=16:25:17
        Time (07:59:02) is before sunrise (07:59:19)!
        WARNING: Nothing to calculate. Please verify settings.
        No map calculation requested. Finished.
       In  above  calculation  it  appears  to  be a mistake as the program indicates that we are
       before sunrise while the sun angle above horizon is already positive.  The reason is  that
       sun  angle  above  horizon  is  calculated with correction for atmosphere refraction while
       sunrise and sunset are calculated without correction for atmosphere refraction. The output
       without -g flag contains related indications.

EXAMPLE

       Example  for North Carolina sample data set for the calculation of sun position angles and
       more:
       # set the region to a place near Raleigh (NC)
       g.region raster=elev_lid792_1m -p
       # compute only sun position and no output map
       r.sunmask -s elev_lid792_1m year=2012 month=2 \
                 day=22 hour=10 minute=30 timezone=-5
       Using map center coordinates: 638650.000000 220375.000000
       Calculating sun position... (using solpos (V. 11 April 2001) from NREL)
       2012/02/22, daynum: 53, time: 10:30:00 (decimal time: 10.500000)
       long: -78.678856, lat: 35.736160, timezone: -5.000000
       Solar position: sun azimuth: 143.006409, sun angle above horz. (refraction corrected): 36.233879
       Sunrise time (without refraction): 06:58:11
       Sunset time  (without refraction): 17:58:47
       # with -g flag, useful for eval() shell function
       r.sunmask -s -g elev_lid792_1m  year=2012 month=2 \
                 day=22 hour=10 minute=30 timezone=-5
       Using map center coordinates: 638650.000000 220375.000000
       Calculating sun position... (using solpos (V. 11 April 2001) from NREL)
       date=2012/02/22
       daynum=53
       time=10:30:00
       decimaltime=10.500000
       longitudine=-78.678856
       latitude=35.736160
       timezone=-5.000000
       sunazimuth=143.006409
       sunangleabovehorizon=36.233879
       sunrise=06:58:11
       sunset=17:58:47

Acknowledgements

       Acknowledgements: National Renewable Energy Laboratory for their SOLPOS 2.0  sun  position
       algorithm.

SEE ALSO

        g.region, r.sun, r.sunhours, r.slope.aspect

AUTHORS

       Janne Soimasuo, Finland, 1994
       update to FP by Huidae Cho, 2001
       SOLPOS algorithm feature added by Markus Neteler, 2001

SOURCE CODE

       Available at: r.sunmask source code (history)

       Accessed: Thursday Aug 01 11:30:25 2024

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