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[SOLVED] (ecse 415) assignment 2: feature extraction 1 harris corner detection (20 points)

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For this part of the assignment, you will examine the workings of the Harris corner detector.
Implement the Harris corner detector as described in class (Lecture 5, Slide 48, and Tutorial 2&3)
mainly using NumPy , going through each of the described steps:
1. Compute the image derivatives (optionally, blur first).
2. Compute the square of the derivatives.
3. Apply Gaussian Filtering on the output of Step 2.
4. Compute the cornerness function response: Determinant(H) − kT race(H)
2
), where
k=0.05.5. Perform non-maximum suppression.
Note 1: note that you can use OpenCV functions for gaussian filtering and computing image
derivatives.Note 2: This question is worth 20 points:
• 10 points for correct analysis and displaying desired outputs.
• 10 points for correct, complete, and clean code.Note 3: You can access the images from: ‘data/Q1’ Apply the algorithm to three different images:
1. Checkerboard (Left part of Figure 1): Change the value of the threshold to attain detected
corners that are similar to those in the right part of Figure 1. Observe and report the effect
of changing the threshold values.2. Building image (Figure 2): Explore the different thresholds and report your observations.
Figure 1: Checkerboard input image and the expected Harris corner detector
output. (red dots represent the detected corners) (source)
Figure 2: Federal Building in Port Huron, MI, US (source)Note 1: This question is worth 40 points:
• 4 points for answering section 2.1 correctly.
• 6 point for correct analysis and displaying desired outputs for section 2.2.
• 10 points for correct analysis and displaying desired outputs for section 2.3.
• 10 points for correct analysis and displaying desired outputs for section 2.4.
• 10 points for correct, complete, and clean code.Note 2: For this question, you should utilize the pair of images that you captured in assignment 1. In
this question, we are going to call them image_1 and image_2. Verify the invariance of SIFT features
under changes in image scale and rotation. You are allowed to use inbuilt OpenCV/Scikit-Image
functions for this question.Note 3: An instance of a brute-force method here could be computing Euclidean distances between
all possible pairs of sift features in the two images.2.1 SIFT in a nutshell
Briefly describe the 4 main actions/steps of the SIFT method.
2.2 SIFT between two different pictures
1. Compute SIFT keypoints for image_1 and image_2.
2. Match all keypoints between two images using a brute-force method.
3. Sort the matching keypoints according to the matching distance.
4. Display the top ten matched keypoints.
5. Plot the matching distance for the top 100 matched keypoints. Plot the indices of keypoints
on the x-axis and the corresponding matching distance on the y-axis.2.3 Invariance Under Scale
1. Compute SIFT keypoints for the image_1.
2. Scale image_1 using scaling factors of (0.25, 0.6, 3, 5). This should result in a total of 4
different transformed images. Display scaled images.
3. Compute SIFT keypoints for all scaled images (total 4) transformed images.4. Match all keypoints of image_1 to the transformed images from the previous part using a
brute-force method.
5. Sort the matching keypoints according to the matching distance.6. Display the top ten matched keypoints for each pair of the image_1 and a transformed image.
7. Plot the matching distance for the top 100 matched keypoints. Plot the indices of keypoints
on the x-axis and the corresponding matching distance on the y-axis.8. Discuss the trend in the plotted results. What is the effect of increasing the scale on the
matching distance? Explain.2.4 Invariance Under Rotation
1. Rotate image_1 at the angle of (30, 75, 90, 180). Display rotated images.
2. Compute SIFT keypoints for all (total 4) transformed images.
3. Match all keypoints of image_1 to the transformed images using a brute-force method.4. Sort the matching keypoints according to the matching distance.
5. Display the top ten matched keypoints for each pair of image_1 and a transformed image.
6. Plot the matching distance for the top 100 matched keypoints. Plot the indices of the key
points on the x-axis and the corresponding matching distance on the y-axis.7. Discuss the trend in the plotted results. What is the effect of increasing the angle of rotation
on the matching distance? Explain.You are given three different views of the same scene in a folder ‘data/Q3’ (Figure:3). Follow
these steps in order to stitch given images:
(a) Compute the SIFT keypoints and corresponding descriptors for images 1 and 2.
(b) Find matching keypoints in images 1 and 2 and display the 20 best pairs.(c) Find the homography that best matches the keypoints from image 1 and 2 using the
RANSAC method, and apply the resulting transformation to image 1. Image 2 should
not be transformed.(d) Stitch the transformed image 1 and the original image 2 together using linear image
blending. Let us call this image 12. Display this image.
(e) Compute the SIFT keypoints and corresponding descriptors for images 12 and 3.(f) Find the matching keypoints in 12 and 3 images and display the 20 best pairs.
(g) Compute the homography using the RANSAC method. Apply the transformation to
image 3. Image 12 should not be transformed.(h) Stitch the transformed image 3 and image 12 together using linear image blending.
Display the resulting image.
(i) Discuss: Note that we could also use multi-band blending in the section (h). When
should one prefer pyramid blending over linear blending?
Hint: Here is a short introduction to image blending.
Figure 3: Scenery to Stitch.

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[SOLVED] (ecse 415) assignment 2: feature extraction 1 harris corner detection (20 points)
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