I want to transform in Python 2d arrays/images to polar, process then, and subsequently transform them back to cartesian. The following is the result from ImajeJ Polar Transformer plugin (used on the concentric circles of the sample code):
The number and dims of the images is quite large so I was checking whether openCV has a fast and simple way to do this.
I read about cv.
PolarToCart but I failed to use it. I understand better the
LogPolar where the input and output are arrays, and where you can set the center, interpolation,and inversion (i.e
CV_WARP_INVERSE_MAP). Is there a way to use CartToPolar/PolarToCart in an similar fashion?
import numpy as np import cv #sample 2D array that featues concentric circles circlesArr = np.ndarray((512,512),dtype=np.float32) for i in range(10,600,10): cv.Circle(circlesArr,(256,256),i-10,np.random.randint(60,500),thickness=4) #logpolar lp = np.ndarray((512,512),dtype=np.float32) cv.LogPolar(circlesArr,lp,(256,256),100,cv.CV_WARP_FILL_OUTLIERS) #logpolar Inverse lpinv = np.ndarray((512,512),dtype=np.float32) cv.LogPolar(lp,lpinv,(256,256),100, cv.CV_WARP_INVERSE_MAP + cv.CV_WARP_FILL_OUTLIERS) #display images from scipy.misc import toimage toimage(lp, mode="L").show() toimage(lpinv, mode="L").show()
This is for a tomography (CT) workflow where rings artifacts can be filtered out easier if they appear as lines.