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How would I go about finding the bounding box or window for the region of whitespace surrounding the numbers in the image below?:

Original image:

enter image description here

Height: 762 pixels Width: 1014 pixels


Something like: {x-bound:[x-upper,x-lower], y-bound:[y-upper,y-lower]} so I can crop to the text and input into tesseract or some OCR.


I had thought of slicing the image into hard coded chunk sizes and analysing at random, but i think it would be too slow.

Example code using pyplot adapted from (Using python and PIL how can I grab a block of text in an image?):

from PIL import Image
import numpy as np
import matplotlib.pyplot as plt
im = Image.open('/home/jmunsch/Pictures/Aet62.png')
p = np.array(im)
p = p[:,:,0:3]
p = 255 - p
lx,ly,lz = p.shape


#I was thinking something like this 
#The image is a 3-dimensional ndarray  [[x],[y],[color?]]
#Set each value below an axes mean to 0
[item = 0 for item in p[axis=0] if item < p.mean(axis=0)]

# and then some type of enumerated groupby for each axes
#finding the mean index for each groupby(0) on axes


Based on the graphs each of the valleys would indicate a place to bound.

  • The first graph shows where lines of text would be
  • The second graph shows where characters would be

Plot example plt.plot(p.sum(axis=1)):

enter image description here

Plot example output plt.plot(p.sum(axis=0)):

enter image description here

Related posts/docs:

update: solution by HYRY

enter image description here

share|improve this question
What do you mean by "region"? You want the coordinates for a rectangle that contains the letters in your first image? What does it need to generalize to? –  machow Jul 11 '14 at 1:11
numpy just does arrays (and some basic stats, etc..). It sounds like you need a computer vision library like scikit-image. Especially if you don't want a bounding box for only this image (which you could probably eyeball). –  machow Jul 11 '14 at 1:28
I appreciate the tip on a Computer Vision library, but numpy can manipulate arrays, which can then be converted back to images with PIL. As an example: pix = np.array(im);cropped_to_corner = Image.fromarray(pix[0:200,0:200]) Just figured out how to get at the x-axis –  jmunsch Jul 11 '14 at 1:40
What's your question, then? If you could rephrase it, or say what you've tried, it might be a little more clear what you're trying to accomplish. I don't know how the code you posted relates to your question. –  machow Jul 11 '14 at 3:47
@machow Apologies for the confusing question. I tried to reword it after doing some reading. –  jmunsch Jul 11 '14 at 7:04

1 Answer 1

up vote 3 down vote accepted

I think you can use Morphology functions in scipy.ndimage, here is an example:

import pylab as pl
import numpy as np
from scipy import ndimage
img = pl.imread("Aet62.png")[:, :, 0].astype(np.uint8)
img2 = ndimage.binary_erosion(img, iterations=40)
img3 = ndimage.binary_dilation(img2, iterations=40)
labels, n = ndimage.label(img3)
counts = np.bincount(labels.ravel())
counts[0] = 0
img4 = labels==np.argmax(counts)
img5 = ndimage.binary_fill_holes(img4)
result = ~img & img5
result = ndimage.binary_erosion(result, iterations=3)
result = ndimage.binary_dilation(result, iterations=3)
pl.imshow(result, cmap="gray")

the output is:

enter image description here

share|improve this answer
very cool. I'll probably use -result for tesseract. Is it overall just a bad idea trying to use histograms? (e.g. scipy-lectures.github.io/packages/scikit-image/… ) For the less mathematically inclined like myself? –  jmunsch Jul 11 '14 at 16:01

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