Ofbyld:Vesuvius SRTM3.png
Grutte fan dit proefbyld: 711 × 599 piksels. Oare resolúsjes: 285 × 240 piksels | 570 × 480 piksels | 942 × 794 piksels.
Oarspronklik bestân (942 × 794 pixels, bestânsgrutte: 922 KB, MIME-type: image/png)
Gearfetting
| Beskriuwing |
English: Shaded terrain map of the Naples and Mount Vesuvius region from SRTM3 elevation data. Each pixel corresponds to about 70x70 m. SRTM tile used was http://dds.cr.usgs.gov/srtm/version2_1/SRTM3/Eurasia/N40E014.hgt.zip. The top of the image is 41°N, the left side is 14°E.
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| Datum | |
| Boarne | Eigen wurk |
| Auteur |
Morn the Gorn compass rose from Maps_template-fr.svg: Eric Gaba (Sting - fr:Sting) |
| Oare ferzjes |
Derivative works of this file: This file was derived from: Vesuvius SRTM3.xcf |
Code
SRTM data was plotted with the following Python 2 script (requires Python Imaging Library and NumPy) and then rescaled in Gimp to correct for the raw data aspect ratio at that latitude (about 92 m x 70 m). Terrain shading and hypsometric colors were combined in Gimp in layer multiply mode.
# Read SRTM3 file and create shaded relief
# 2010-04-05
from struct import unpack,calcsize
from numpy import *
import numpy as np
from PIL import Image
row_length = 1201 # row_length is 1201 for SRTM3 or 3601 for SRTM1
file_name = "N40E014.hgt" # from http://dds.cr.usgs.gov/srtm/version2_1/SRTM3/Eurasia/
hlim = 800 # height limit for map [m]
ref_lat = 40.55 # reference latitude
earth_eq = 6371. * 1000. * 2. * pi
x_scale = 1./360.*earth_eq*cos(ref_lat/180.*pi)/row_length
y_scale = 1./360.*earth_eq/row_length
print "1 pixel = %u * %u m" % (x_scale, y_scale)
print "factor", y_scale/x_scale
h = zeros((row_length, row_length))
f = open(file_name, 'r')
li = []
for j in range(row_length):
for i in range(row_length):
d = f.read(2)
(height,) = unpack('>h', d)
h[i,j] = height
if height < -1000:
li.append((i,j))
hmax = h.max()
h3 = zeros_like(h)
h3[:,:] = h[:,:]
print len(li), "missing data points"
def get_nei(z):
h2 = h[z[0]-1:z[0]+2,z[1]-1:z[1]+2]
nn = sum(where(h2 < -1000, 0, 1))
av = sum(where(h2 > -1000, h2, 0)) / float(nn)
return nn, av
# fill missing points with a nearest-neighbor averaging method:
loop = len(li)
lim = 7
while loop > 0:
sd = False
for q in range(len(li)):
if h[li[q]] > -1000.: continue
n, a = get_nei(li[q])
if n >= lim:
print li[q],loop, n, a, lim
h3[li[q]] = a
loop -= 1
sd = True
if not sd: lim -= 1
h[:,:] = h3[:,:]
print "missing points done"
def hext(a):
"Hex color to triplet."
r,g,b = a[0:2], a[2:4], a[4:6]
return int(r, 16), int(g, 16), int(b, 16)
# from http://en.wikipedia.org/wiki/Wikipedia:WikiProject_Maps/Conventions/Topographic_maps:
col_sea = hext("0978ab")
cols = """
{{Mapcolor|r=245|v=244|b=242|hex=#F5F4F2|col=black}}
{{Mapcolor|r=224|v=222|b=216|hex=#E0DED8|col=black}}
{{Mapcolor|r=202|v=195|b=184|hex=#CAC3B8|col=black}}
{{Mapcolor|r=186|v=174|b=154|hex=#BAAE9A|col=black}}
{{Mapcolor|r=172|v=154|b=124|hex=#AC9A7C|col=black}}
{{Mapcolor|r=170|v=135|b=83|hex=#AA8753|col=black}}
{{Mapcolor|r=185|v=152|b=90|hex=#B9985A|col=black}}
{{Mapcolor|r=195|v=167|b=107|hex=#C3A76B|col=black}}
{{Mapcolor|r=202|v=185|b=130|hex=#CAB982|col=black}}
{{Mapcolor|r=211|v=202|b=157|hex=#D3CA9D|col=black}}
{{Mapcolor|r=222|v=214|b=163|hex=#DED6A3|col=black}}
{{Mapcolor|r=232|v=225|b=182|hex=#E8E1B6|col=black}}
{{Mapcolor|r=239|v=235|b=192|hex=#EFEBC0|col=black}}
{{Mapcolor|r=225|v=228|b=181|hex=#E1E4B5|col=black}}
{{Mapcolor|r=209|v=215|b=171|hex=#D1D7AB|col=black}}
{{Mapcolor|r=189|v=204|b=150|hex=#BDCC96|col=black}}
{{Mapcolor|r=168|v=198|b=143|hex=#A8C68F|col=black}}
{{Mapcolor|r=148|v=191|b=139|hex=#94BF8B|col=black}}
{{Mapcolor|r=172|v=208|b=165|hex=#ACD0A5|col=black}}
"""
col = []
for l in cols.splitlines():
if len(l) < 10: continue
i = l.find('#')
if i > -1:
col.append(hext(l[i+1:i+7]))
col.reverse() # -> bottom to top
o = Image.new('RGB', h.shape)
def interp(c, f):
"Interpolate into color table."
r = int((1.-f) * col[c][0] + f * col[c+1][0])
g = int((1.-f) * col[c][1] + f * col[c+1][1])
b = int((1.-f) * col[c][2] + f * col[c+1][2])
return r,g,b
for j in range(row_length):
for i in range(row_length):
c, f = divmod(h[j,i] / hmax * (len(col)-1), 1)
if 0 < h[j,i] < hmax:
o.putpixel((j,i), interp(int(c), f))
elif h[i,j] == hmax:
o.putpixel((j,i), col[-1])
else: o.putpixel((j,i), col_sea)
o.save("map_height.png") # save height map
o2 = o.crop((0,0,942,603))
o2.save("map_height_cropped.png")
# taken from hillshade.py:
#def illumination(idata,azdeg=315.0,altdeg=45.):
def illumination(idata,azdeg=225.0,altdeg=45.):
# convert alt, az to radians
az = azdeg*np.pi/180.0
alt = altdeg*np.pi/180.0
# gradient in x and y directions
dx, dy = np.gradient(idata)
slope = 0.5*np.pi - np.arctan(np.hypot(dx, dy))
aspect = np.arctan2(dx, dy)
odata = np.sin(alt)*np.sin(slope) + np.cos(alt)*np.cos(slope)*np.cos(-az -\
aspect - 0.5*np.pi)
# rescale to interval -1,1
# 1 means maximum sun exposure and 0 means complete shade.
odata = (odata - odata.min())/(odata.max() - odata.min())
return odata
il = 255 * illumination(h)
o4 = Image.new('RGBA', il.shape)
for j in range(row_length-1):
for i in range(row_length-1):
v = int(il[j,i])
if 0 <= v < 128:
alpha = (255 - 2*v)
o4.putpixel((j,i), (0,0,0,alpha))
elif v == 128:
o4.putpixel((j,i), (0,0,0,0))
elif 128 < v < 256:
alpha = 2*(v-128)
o4.putpixel((j,i), (255,255,255,alpha))
else:
o4.putpixel((j,i), (255,255,255,0))
o4.save("il_NW_alpha.png") # NW-illuminated (alpha transparency for use with Inkscape)
Lisinsje
I, the copyright holder of this work, hereby publish it under the following licenses:
This file is licensed under the Creative Commons Attribution-Share Alike 3.0 Unported license.
- Fiel jo frij:
- te dielen – it wurk te kopiearjen, fersprieden en út te stjoeren
- te fermingen – it wurk oan te passen
- Under de neikommende betingsten:
- Nammefermelding – You must give appropriate credit, provide a link to the license, and indicate if changes were made. You may do so in any reasonable manner, but not in any way that suggests the licensor endorses you or your use.
- Lyk diele – If you remix, transform, or build upon the material, you must distribute your contributions under the same or compatible license as the original.
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Der wurdt tastimming jûn ta kopiearjen, fersprieden en/of wizigjen fan dit dokumint ûnder de betinksten fan de GNU-lisinsje foar iepen dokumintaasje, ferzje 1.2, as eltse lettere ferzje útjûn troch de Free Software Foundation; sûnder Ynfariante Seksjes, sûnder Omkaftteksten foar de Foarkante en sûnder Omkaftteksten foar de Efterkante. In kopy fan de lisinsje is opnaam yn de seksje "Text of the GNU Free Documentation License". |
You may select the license of your choice.
| Annotations | This image is annotated: View the annotations at Commons |
Triemskiednis
Klik op in datum/tiid om it bestân te besjen sa't it op dat stuit wie.
| Datum/Tiid | Miniatuer | ôfmjittings | Meidogger | Opmerking | |
|---|---|---|---|---|---|
| lêste | 5 apr 2010, 03.01 | | 942 × 794 (922 KB) | Morn | corrected color of a lake |
| 5 apr 2010, 02.56 |  | 942 × 794 (1,01 MB) | Morn | removed artifacts in shadows | |
| 4 apr 2010, 21.06 |  | 942 × 794 (908 KB) | Morn | compass rose | |
| 4 apr 2010, 16.49 |  | 942 × 794 (899 KB) | Morn | removed slight banding in the water | |
| 4 apr 2010, 16.41 |  | 942 × 794 (904 KB) | Morn | color version | |
| 4 apr 2010, 14.18 |  | 942 × 794 (750 KB) | Morn | scale | |
| 3 apr 2010, 22.55 |  | 942 × 794 (652 KB) | Morn | {{Information |Description={{en|1=Shaded terrain image of the Naples and Mount Vesuvius region from SRTM3 data. Each pixel corresponds to about 70x70 m.}} |Source={{own}} |Author=Morn the Gorn |Date=2010-03-04 |Permission= |other_ve |
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