You can make a lot of use of the power of numpy here. Note that the code below outputs "brightness" in the range [0, 255].

```
#!/bin/env python
import numpy as np
from scipy.misc import imread
#Read in the image
img = imread('/users/solbrig/smooth_test5.png')
#Sum the colors to get brightness
brightness = img.sum(axis=2) / img.shape[2]
#Find the maximum brightness in each row
row_max = np.amax(brightness, axis=1)
print row_max
```

If you think your image might have an alpha layer, you can do this:

```
#!/bin/env python
import numpy as np
from scipy.misc import imread
#Read in the image
img = imread('/users/solbrig/smooth_test5.png')
#Pull off alpha layer
if img.shape[2] == 4:
alph = img[:,:,3]/255.0
img = img[:,:,0:3]
else:
alph = np.ones(img.shape[0:1])
#Sum the colors to get brightness
brightness = img.sum(axis=2) / img.shape[2]
brightness *= alph
#Find the maximum brightness in each row
row_max = np.amax(brightness, axis=1)
print row_max
```