This is the final part of the anaglyph stereoscopy tutorial. This part deals with the prectical implementation of the concepts and formulas discussed before to create a 3D cube. You need 3D glasses to notice the stereoscopic effect. The PDF erroneously claims this is part #3 of the tutorial, whereas this is actually part #4 (it’s a typo in the… Read More... "Introduction to Anaglyph Stereoscopy in Excel – part #4: worksheet implementation of a stereoscopic cube"
This section of the tutorial gives few more real life applications of the stereoscopic vision and also derives the stereoscopic 3D-2D perspective conversion formulas. These formulas are based on the approximation that the that both right and left eyes observe the same v-coordinate. Excel anaglyph stereoscopy #3 – 3D-2D perspective conversion formulas by George Lungu – While the previous section introduced the… Read More... "Introduction to Anaglyph Stereoscopy in Excel – part #3: a few analogies and the derivation of the stereoscopic 3D-2D perspective conversion formulas"
This tutorial explains the basic principles of creating and displaying anaglyph pictures. Excel anaglyph stereoscopy #2 – how to split the image by George Lungu – The previous section showed an improvement in the practical implementation of spreadsheet multiplication, namely based on the associativity of matrix multiplication the three elementary rotation matrices were combined in a composite rotation matrix which… Read More... "Introduction to Anaglyph Stereoscopy in Excel – part #2: the principles of creating and viewing 3D pictures"
I made a stereoscopic model in October last year, however, choosing the wrong colors (red and blue on a black background, the effect was very weak (if any). This series was suggested to me last week by one of the guests here on the website, Don L. (thanks Don!), who sent me his stereoscopic cube. I opened the model, put on… Read More... "Introduction to Anaglyph Stereoscopy in Excel – part #1: a more efficient composite rotation in the 3D Cartesian space"