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Panoramic Photo Generation from Video

Project for ANU ENGN4528/6528 (Computer Vision), Semester 1. May 21, 2018.

See the project report here.

Besides, there are 4 mini projects in this course which can be found here.

Approach

  • Key frame selection
  • SIFT (Scale Invariant Feature Transform) Matching
  • RANSAC (Random Sample Consens)
  • Cylindrical Projection
  • Image Blending (Linear, Laplacian)
  • Image Cropping

Experiment Environment

  • Python 3.6.3
    • numpy 1.14.3
    • OpenCV 3.4.0.12
    • OpenCV-contrib 3.4.0.12

Note that OpenCV and OpenCV-contrib must be lower than (not including) 3.4.3. Because SIFT is a patented algorithm and has been excluded after 3.4.3 (see Issue: Include non-free algorithms). Installing an old version (up to 3.4.2) can solve this problem. For example, with pip:

$ pip install opencv-python==3.4.2.17
$ pip install opencv-contrib-python==3.4.2.17

Data

360video.mp4: Scenery near ANU campus, taken from a smart phone camera. Original Video

Outcome:

Panoramic Photo

Codes

  • cap_key_frames.py
  • generate_pano.py
  • stitch.py
  • append_operation.py

Usage

Run python3 cap_key_frames.py 'file' to extract key frames of the video file. Replace 'file' with the video file path. If not given, the default value is '360video.mp4'. The captured frames are stored in key_frames/. The stride parameter for accelerating the process can be adjusted in line 27.

Run python3 generate_pano.py 'num' to stitch the frames in key_frames/ successively (including cylindrical projection, blending and cropping). This will generate an image called panoramic.jpg, which is the outcome. Replace 'num' with the number of frames to be stitched. If not given, the default value is 23.