This script can be used to create a "spoke pattern" image in the style of the ones featured in the following paper:
Downing K.H., Glaeser R.M., Restoration of weak phase-contrast images recorded with a high degree of defocus: The "twin image" problem associated with CTF correction, Ultramicroscopy 108 (2008), 921-928
All tweakable parameters are defined in the first lines of the script, which can be edited before the script is executed. The script generates the image, opens a viewer to show it and saves it in the current folder with the name specified by the user.
Usage:
dng spoke_pattern.py <output image>
import math
import sys
wedge_start = 20
wedge_end = 500
number_of_bands = 11
size_of_image_x = 500
size_of_image_y = 500
pixel_sampling = 1.0 * Units.A
threshold = 2.0 * Units.A
amplitude = 255
image=img.CreateImage(img.Size(size_of_image_x,size_of_image_y))
image.CenterSpatialOrigin()
image.SetSpatialSampling(pixel_sampling)
image_extent=image.GetExtent()
start_y=image_extent.GetStart()[1]
end_y=image_extent.GetEnd()[1]
start_x=image_extent.GetStart()[0]
end_x=image_extent.GetEnd()[0]
for y in range (start_y,end_y+1):
wedge_width=wedge_start+(y-start_y)*(wedge_end-wedge_start)/(end_y-start_y)
for x in range (start_x,end_x+1):
half_wedge=wedge_width/2.0
outer_bands=(number_of_bands-1)/2
factor=(0.5+outer_bands)*math.pi/half_wedge
if float(x)>-half_wedge and float(x)<half_wedge:
value=255*math.cos(float(x)*factor)
image.SetReal(img.Point(x,y),value)
image.ApplyIP(filter)
v=gui.CreateDataViewer(image,"Modulated Image")
1.8.1.1
