In OpenCV 3.0 you can use **findTransformECC**. I have copied this ECC Image Alignment code from LearnOpenCV.com where a very similar problem is solved for aligning color channels. The post also contains code in Python. Hope this helps.

```
// Read the images to be aligned
Mat im1 = imread("images/image1.jpg");
Mat im2 = imread("images/image2.jpg");
// Convert images to gray scale;
Mat im1_gray, im2_gray;
cvtColor(im1, im1_gray, CV_BGR2GRAY);
cvtColor(im2, im2_gray, CV_BGR2GRAY);
// Define the motion model
const int warp_mode = MOTION_EUCLIDEAN;
// Set a 2x3 or 3x3 warp matrix depending on the motion model.
Mat warp_matrix;
// Initialize the matrix to identity
if ( warp_mode == MOTION_HOMOGRAPHY )
warp_matrix = Mat::eye(3, 3, CV_32F);
else
warp_matrix = Mat::eye(2, 3, CV_32F);
// Specify the number of iterations.
int number_of_iterations = 5000;
// Specify the threshold of the increment
// in the correlation coefficient between two iterations
double termination_eps = 1e-10;
// Define termination criteria
TermCriteria criteria (TermCriteria::COUNT+TermCriteria::EPS, number_of_iterations, termination_eps);
// Run the ECC algorithm. The results are stored in warp_matrix.
findTransformECC(
im1_gray,
im2_gray,
warp_matrix,
warp_mode,
criteria
);
// Storage for warped image.
Mat im2_aligned;
if (warp_mode != MOTION_HOMOGRAPHY)
// Use warpAffine for Translation, Euclidean and Affine
warpAffine(im2, im2_aligned, warp_matrix, im1.size(), INTER_LINEAR + WARP_INVERSE_MAP);
else
// Use warpPerspective for Homography
warpPerspective (im2, im2_aligned, warp_matrix, im1.size(),INTER_LINEAR + WARP_INVERSE_MAP);
// Show final result
imshow("Image 1", im1);
imshow("Image 2", im2);
imshow("Image 2 Aligned", im2_aligned);
waitKey(0);
```