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  Eckpunkte und Aufloseung des ASAR-Bildes variieren frei -> allgemeingueltiges Programm fuer den Uebergang
  der Output erfolgt als Vektor in der Form x, y, Freiboardhoehe; eventuell die Floatangabe		   Eckpunkten und Aufloseung des ASAR-Bildes variieren frei -> allgemeingueltiges Programm fuer den Uebergang
  des Outputs erfolgt als Vektor in der Form x, y, Freiboardhoehe(fbh)



'''fbh_bildkoordinaten.py'''

{{{#!python
from polar_projection import *
from read_asar import *
from read_icesat import *
from coord_transform import *
from scipy import *

def fit_freeboard_ASAR(filename1,filename2):
    """filename1: ASAR data file, filename2: freeboard data file
       creates new coordinate system defined by corners of ASAR image and selects freeboard values within ASAR image box
       returns an array containing normalized image coordinates and corresponding freeboard values:
       [x_coordinate, y_coordinate, freeboardheight(cm)]"""
    
    sgn=-1 #Antarctica
    ASAR=array(read_asar_corners(filename1))
    ASAR_p=zeros(8)
    for k in arange(0,7,2): #computing polarstereographic coordinates
        ASAR_p[k:k+2]=mapll(ASAR[k],ASAR[k+1],sgn)

    A=coord_transformation(ASAR_p)

    # reading freeboard data and computing geographic into polarstereographic coordinates
    ICESAT_p,fbh=read_icesat(filename2,sgn) #fbh are measured freeboard heights in cm

    # calculating new coordinates for freeboard data
    x_neu=[]
    y_neu=[]
    for x,y in zip(ICESAT_p[0],ICESAT_p[1]):
        x_neu.append(dot(array([A[0,0],A[0,1]]),array([x,y]))+A[0,2])
        y_neu.append(dot(array([A[1,0],A[1,1]]),array([x,y]))+A[1,2])
   
    # cutting off non-corresponding data values
    m=-1
    index_vec=[]
    for xn,yn in zip(x_neu,y_neu):
        m=m+1
        if xn<=1. and xn >=0. and yn<=1. and yn >=0.:
            index_vec.append(m)

    x_bild=[]
    y_bild=[]
    fbh_bild=[]
    for i in index_vec:
        x_bild.append(x_neu[i])
        y_bild.append(y_neu[i])
        fbh_bild.append(fbh[i])

    x_y_fbh=array([x_bild,y_bild,fbh_bild])

    return x_y_fbh
}}}

'''coord_transform.py'''
{{{#!python
from Numeric import *
import LinearAlgebra as la

def coord_transformation(ASAR_p):
    # polarstereographic coordinate system
    y00,x00,y01,x01,y02,x02,y03,x03=int(ASAR_p[1]),int(ASAR_p[0]),int(ASAR_p[7]),int(ASAR_p[6]),int(ASAR_p[5]),int(ASAR_p[4]),int(ASAR_p[3]),int(ASAR_p[2])
    # new coordinate system with normalized coordinates
    y10,x10,y11,x11,y12,x12,y13,x13=0,0,1,0,1,1,0,1

    # calculating transformation matrix:
    P0=array([[x00, x01, x02, x03],[y00,y01,y02,y03],[1.0,1.0,1.0,1.0]])
    P1=array([[x10, x11, x12, x13],[y10,y11,y12,y13],[1.0,1.0,1.0,1.0]])

    Faktor1=dot(P1,transpose(P0))
    Faktor2=la.inverse(dot(P0,transpose(P0)))
    A=dot(Faktor1,Faktor2) # Transformation matrix
    return A
}}}


'''read_icesat.py'''


{{{#!python
import string
from polar_projection import *
from scipy import io

def read_icesat(filename,sgn):
    data=io.read_array(filename)
    polar=mapll(data[:,1],data[:,0],sgn)
    fbh=data[:,2]
    return polar,fbh
}}}

Die benötigten Module polar_projection.py und read_asar.py sind auf der Seite der Arbeitsgruppe 0 [[AG0_ASAR_Einlesen]] zu finden.

'''fbh_bildkoordinaten_test.py'''

Zum Testen hängt man an das obige Programm folgende Zeilen an:
{{{#!python
filename1='ASA_IMP_1PNDPA20060617_043346_000000162048_00362_22460_2136.N1'
filename2='LonLatFre_1706_6.xyz'
ergebnis=fit_freeboard_ASAR(filename1,filename2)
}}}

{{attachment:schemabild.jpg}}

{{attachment.schemabild2.jpg}}

Die Besprechung ueber das Vorgehen ihrer Aufgaben ergab:

  • die Transformation in polarstereographische Koordinaten und der nachfolgende Uebergang zu den Bildpunkten von ASAR

    Eckpunkten und Aufloseung des ASAR-Bildes variieren frei -> allgemeingueltiges Programm fuer den Uebergang des Outputs erfolgt als Vektor in der Form x, y, Freiboardhoehe(fbh)

fbh_bildkoordinaten.py 

   1 from polar_projection import *
   2 from read_asar import *
   3 from read_icesat import *
   4 from coord_transform import *
   5 from scipy import *
   6 
   7 def fit_freeboard_ASAR(filename1,filename2):
   8     """filename1: ASAR data file, filename2: freeboard data file
   9        creates new coordinate system defined by corners of ASAR image and selects freeboard values within ASAR image box
  10        returns an array containing normalized image coordinates and corresponding freeboard values:
  11        [x_coordinate, y_coordinate, freeboardheight(cm)]"""
  12     
  13     sgn=-1  #Antarctica
  14     ASAR=array(read_asar_corners(filename1))
  15     ASAR_p=zeros(8)
  16     for k in arange(0,7,2):       #computing polarstereographic coordinates
  17         ASAR_p[k:k+2]=mapll(ASAR[k],ASAR[k+1],sgn)
  18 
  19     A=coord_transformation(ASAR_p)
  20 
  21     # reading freeboard data and computing geographic into polarstereographic coordinates
  22     ICESAT_p,fbh=read_icesat(filename2,sgn)    #fbh are measured freeboard heights in cm
  23 
  24     # calculating new coordinates for freeboard data
  25     x_neu=[]
  26     y_neu=[]
  27     for x,y in zip(ICESAT_p[0],ICESAT_p[1]):
  28         x_neu.append(dot(array([A[0,0],A[0,1]]),array([x,y]))+A[0,2])
  29         y_neu.append(dot(array([A[1,0],A[1,1]]),array([x,y]))+A[1,2])
  30    
  31     # cutting off non-corresponding data values  
  32     m=-1
  33     index_vec=[]
  34     for xn,yn in zip(x_neu,y_neu):
  35         m=m+1
  36         if xn<=1. and xn >=0. and yn<=1. and yn >=0.:
  37             index_vec.append(m)
  38 
  39     x_bild=[]
  40     y_bild=[] 
  41     fbh_bild=[]
  42     for i in index_vec:
  43         x_bild.append(x_neu[i])
  44         y_bild.append(y_neu[i])
  45         fbh_bild.append(fbh[i])
  46 
  47     x_y_fbh=array([x_bild,y_bild,fbh_bild])
  48 
  49     return x_y_fbh

coord_transform.py 

   1 from Numeric import *
   2 import LinearAlgebra as la
   3 
   4 def coord_transformation(ASAR_p):
   5     # polarstereographic coordinate system
   6     y00,x00,y01,x01,y02,x02,y03,x03=int(ASAR_p[1]),int(ASAR_p[0]),int(ASAR_p[7]),int(ASAR_p[6]),int(ASAR_p[5]),int(ASAR_p[4]),int(ASAR_p[3]),int(ASAR_p[2])
   7     # new coordinate system with normalized coordinates  
   8     y10,x10,y11,x11,y12,x12,y13,x13=0,0,1,0,1,1,0,1
   9 
  10     # calculating transformation matrix:
  11     P0=array([[x00, x01, x02, x03],[y00,y01,y02,y03],[1.0,1.0,1.0,1.0]])
  12     P1=array([[x10, x11, x12, x13],[y10,y11,y12,y13],[1.0,1.0,1.0,1.0]])
  13 
  14     Faktor1=dot(P1,transpose(P0))
  15     Faktor2=la.inverse(dot(P0,transpose(P0)))
  16     A=dot(Faktor1,Faktor2)  # Transformation matrix
  17     return A

read_icesat.py 

   1 import string
   2 from polar_projection import *
   3 from scipy import io
   4 
   5 def read_icesat(filename,sgn):
   6     data=io.read_array(filename)
   7     polar=mapll(data[:,1],data[:,0],sgn)
   8     fbh=data[:,2]
   9     return polar,fbh

Die benötigten Module polar_projection.py und read_asar.py sind auf der Seite der Arbeitsgruppe 0 AG0_ASAR_Einlesen zu finden.

fbh_bildkoordinaten_test.py

Zum Testen hängt man an das obige Programm folgende Zeilen an: 

   1 filename1='ASA_IMP_1PNDPA20060617_043346_000000162048_00362_22460_2136.N1'
   2 filename2='LonLatFre_1706_6.xyz'
   3 ergebnis=fit_freeboard_ASAR(filename1,filename2)

schemabild.jpg

attachment.schemabild2.jpg

LehreWiki: \AG1_Freibord (last edited 2008-07-11 11:19:34 by NinaMaass)