Supplemental Videos

Video #1: Comparison between Liu et al. 09 and our method

Original Video   Liu et al. 09   Our Method

 

Video #2: Comparison between Liu et al. 09 and our method

Original Video   Liu et al. 09   Our Method

 

Video #3: Cases where full 3d reconstruction fails: the camera pans only with little translation

Original Video   Liu et al. 11   Our Method

 

Video #4: Cases where full 3d reconstruction fails: the camera pans only with little translation

Original Video   Our Method

 

Video #5: Cases where full 3d reconstruction fails: camera zoom

Original Video   Our Method

 

Video #6: Cases where full 3d reconstruction fails: camera zoom

Original Video   Our Method

 

Video #7: Cases where full 3d reconstruction fails: in-camera stabilization

Original Video   Our Method

 

Video #8: Cases where full 3d reconstruction fails: in-camera stabilization

Original Video   Liu et al. 11   Our Method

 

Video #9: More comparison between Liu et al. 11 and our method

Original Video   Liu et al. 11   Our Method

 

Video #10: More comparison between Liu et al. 11 and our method

Original Video   Liu et al. 11   Our Method

 

Video #11: More comparison between Liu et al. 11 and our method

Original Video   Liu et al. 11   Our Method

 

Video #12: Scene with moving object, failure case of Liu et al. 11

Original Video   Liu et al. 11   Our Method

 

Video #13: Dynamic Scenes: Time-View Reprojection

Original Video   Standard epipolar transfer   With time-view reprojection

 

Video #14: Dynamic Scenes: Time-View Reprojection

Original Video   Standard epipolar transfer   With time-view reprojection

 

Video #15: Degenerate Scenes: Dynamic window size

   Original Video   Our Method

 

Video #16: Uniform Correspondence Maps

Original Video   Our Method, without additional tracking   Our Method, with additional epipolar tracking

Video #17: Path Fitting

Original Video   Our Method, with path fitting

 

Video #18: Fail Case: insufficient trajectories

Original Video

 

Video #19: Fail Case: camera occlusions cut trajectories

Original Video

 

Video #20: Fail Case: motion blur

Original Video

 

Video #21: Fail Case: excessive camera shake

Original Video

 

Video #22: Fail Case: warp failure due to lack of smooth regions

Original Video   Our Method

 

Video #23: Epipolar transfer-based tracking

Original Video   Our Method   Using only trajectories generated by the epipolar transfer-based tracking

 

Video #24: Epipolar transfer-based tracking

Original Video   Our Method   Using only trajectories generated by the epipolar transfer-based tracking

 

Additional Examples:

Video #25: Original Video  Our Method  Driving
Video #26: Original Video  Our Method  Dynamic Scene
Video #27: Original Video  Our Method  Camera zoom, following a pigeon
Video #28: Original Video  Our Method  Camera zoom, highway
Video #29: Original Video  Our Method  Cross-country ski
Video #30: Original Video  Our Method  Walking sideways above the highway
Video #31: Original Video  Our Method  Walking in a park
Video #32: Original Video  Our Method  Walking in a parking lot
Video #33: Original Video  Our Method  Walking
Video #34: Original Video  Our Method  Walking in the forest
Video #35: Original Video  Our Method  Train
Video #36: Original Video  Our Method  Driving
Video #37: Original Video  Our Method  Driving
Video #38: Original Video  Our Method  Walking in the campus
Video #39: Original Video  Our Method  Moving around a cat
Video #40: Original Video  Our Method  Walking in the campus
Video #41: Original Video  Our Method  Walking in the woods
Video #42: Original Video  Our Method  Camera zoom