More Mosaics

67 %
33 %
Information about More Mosaics
Education
cmu

Published on June 18, 2007

Author: Techy_Guy

Source: authorstream.com

More Mosaic Madness:  More Mosaic Madness 15-463: Computational Photography Alexei Efros, CMU, Fall 2005 © Jeffrey Martin (jeffrey-martin.com) with a lot of slides stolen from Steve Seitz and Rick Szeliski Homography:  Homography A: Projective – mapping between any two PPs with the same center of projection rectangle should map to arbitrary quadrilateral parallel lines aren’t but must preserve straight lines same as: project, rotate, reproject called Homography PP2 PP1 To apply a homography H Compute p’ = Hp (regular matrix multiply) Convert p’ from homogeneous to image coordinates Rotational Mosaics:  Rotational Mosaics Can we say something more about rotational mosaics? i.e. can we further constrain our H? 3D → 2D Perspective Projection:  3D → 2D Perspective Projection K 3D Rotation Model:  3D Rotation Model Projection equations Project from image to 3D ray (x0,y0,z0) = (u0-uc,v0-vc,f) Rotate the ray by camera motion (x1,y1,z1) = R01 (x0,y0,z0) Project back into new (source) image (u1,v1) = (fx1/z1+uc,fy1/z1+vc) Therefore: Our homography has only 3,4 or 5 DOF, depending if focal length is known, same, or different. This makes image registration much better behaved f Pairwise alignment:  Pairwise alignment Procrustes Algorithm [Golub andamp; VanLoan] Given two sets of matching points, compute R pi’ = R pi with 3D rays pi = N(xi,yi,zi) = N(ui-uc,vi-vc,f) A = Σi pi pi’T = Σi pi piT RT = U S VT = (U S UT) RT VT = UT RT R = V UT Rotation about vertical axis:  Rotation about vertical axis What if our camera rotates on a tripod? What’s the structure of H? Do we have to project onto a plane? :  Do we have to project onto a plane? Full Panoramas:  Full Panoramas What if you want a 360 field of view? Cylindrical projection:  Map 3D point (X,Y,Z) onto cylinder Cylindrical projection unit cylinder Cylindrical Projection:  Cylindrical Projection Y X Inverse Cylindrical projection:  Inverse Cylindrical projection Cylindrical panoramas:  Cylindrical panoramas Steps Reproject each image onto a cylinder Blend Output the resulting mosaic What are the assumptions here? Cylindrical image stitching:  Cylindrical image stitching What if you don’t know the camera rotation? Solve for the camera rotations Note that a rotation of the camera is a translation of the cylinder! Assembling the panorama:  Assembling the panorama Stitch pairs together, blend, then crop Problem: Drift:  Problem: Drift Vertical Error accumulation small (vertical) errors accumulate over time apply correction so that sum = 0 (for 360° pan.) Horizontal Error accumulation can reuse first/last image to find the right panorama radius Full-view (360°) panoramas:  Full-view (360°) panoramas Spherical projection:  Spherical projection unwrapped sphere Convert to spherical coordinates X Y Z Map 3D point (X,Y,Z) onto sphere f Spherical Projection:  Spherical Projection Y X Inverse Spherical projection:  Inverse Spherical projection X Y Z (x,y,z) (sinθcosφ,cosθcosφ,sinφ) cos φ φ cos θ cos φ sin φ 3D rotation:  3D rotation Rotate image before placing on unrolled sphere (x,y,z) (sinθcosφ,cosθcosφ,sinφ) cos φ φ cos θ cos φ sin φ _ _ _ _ p = R p Full-view Panorama:  Full-view Panorama + + + + Polar Projection:  Polar Projection Extreme 'bending' in ultra-wide fields of view Other projections are possible:  Other projections are possible You can stitch on the plane and then warp the resulting panorama What’s the limitation here? Or, you can use these as stitching surfaces But there is a catch… Cylindrical reprojection:  Cylindrical reprojection What’s your focal length, buddy?:  What’s your focal length, buddy? Focal length is (highly!) camera dependant Can get a rough estimate by measuring FOV: Can use the EXIF data tag (might not give the right thing) Can use several images together and try to find f that would make them match Can use a known 3D object and its projection to solve for f Etc. There are other camera parameters too: Optical center, non-square pixels, lens distortion, etc. Distortion:  Distortion Radial distortion of the image Caused by imperfect lenses Deviations are most noticeable for rays that pass through the edge of the lens No distortion Pin cushion Barrel Radial distortion:  Radial distortion Correct for 'bending' in wide field of view lenses Use this instead of normal projection Blending the mosaic:  Blending the mosaic An example of image compositing: the art (and sometime science) of combining images together… Feathering:  Feathering Encoding transparency I(x,y) = (aR, aG, aB, a) Iblend = Ileft + Iright Setting alpha: simple averaging:  Setting alpha: simple averaging Alpha = .5 in overlap region Image feathering:  Image feathering Weight each image proportional to its distance from the edge (distance map [Danielsson, CVGIP 1980] 1. Generate weight map for each image 2. Sum up all of the weights and divide by sum: weights sum up to 1: wi’ = wi / ( ∑i wi) Setting alpha: center seam:  Setting alpha: center seam Alpha = logical(dtrans1andgt;dtrans2) Distance transform Setting alpha: blurred seam:  Setting alpha: blurred seam Alpha = blurred Distance transform Setting alpha: center weighting:  Setting alpha: center weighting Alpha = dtrans1 / (dtrans1+dtrans2) Distance transform Pyramid Blending:  Pyramid Blending For Alpha, use original feather weights to select strongest contributing image Can be implemented using L-∞ norm: (p = 10) wi’ = [wip / ( ∑i wip)]1/p Mid-term Tuesday:  Mid-term Tuesday Closed book, closed notes. You are allowed one sheet of paper, both sides

Add a comment

Related presentations

Related pages

Barbara Bussler Mosaics and More

Mosaics and more handmade arts and crafts made by Barbara Bussler
Read more

Mosaic - Wikipedia, the free encyclopedia

Christian mosaic art also flourished in Rome, gradually declining as conditions became more difficult in the Early Middle Ages. 5th century mosaics can be ...
Read more

Mosaics and More

Mosaics and More. 1,713 likes · 21 talking about this. I use colored glass and other materials such as tile, beads, and coins to create art. I also...
Read more

Mosaics on Pinterest | Mosaic Art, Mosaic Flowers and ...

Luv it !! have it in most my other boards. | See more about Mosaic Art, Mosaic Flowers and Mosaic Tables.
Read more

Mosaics and More

The Mosaics and More Studio features graphics, photography, and original mosaic designs by Susan Jarrett, of Austin, Texas.
Read more

Simply "More" Mosaics

Simply "More" Mosaics. 477 likes · 29 talking about this. Hand-cut glass tile placed on natural stone to create simply "more" mosaics...with a little bit...
Read more

Clauiano Mosaics & More

Clauiano Mosaics: i mosaici di Clauiano
Read more

More than Mosaics | endeavors

A mosaic from the floor of a synagogue that UNC archaeologist Jodi Magness and her team discovered in the Israeli village of Huqoq near the Sea of Galilee.
Read more

More Mosaics |

More Mosaics. Sold: Sold: Sold: Sold : Sold . Proudly powered by WordPress ...
Read more

Erin Moore :: HOME

Erin Moore :: HOME
Read more