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I'm working on an augmented reality rubik's cube solving project. We want the user to be able to use an smartphone application for collecting hints on to solving a rubiks cube.

For this we need to rebuild the cube in the smartphone memory. We were unable to find scanning algorithms which can rebuild a rubik's cube with only scanning ONE side of the cube.

Does somebody know a rubik's cube scanning algorithm which can do this, or could at least mention if this algorithm could be mathematically possible?

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You're asking if you can conclude the full state of the cube just from the state of one face? No, you can't. –  avip Nov 13 '12 at 9:11
Avip's definition is correct. What number of faces would be necessary for defining the full state? –  Wouter Nov 13 '12 at 9:14

2 Answers 2

up vote 2 down vote accepted

there's no way you can deduce the cubic's position after scanning only one side. most solvers scan all 6 sides, though, you might get away with scanning only 5 of them, but i really doubt it.

in other words, you need only 5 scans to prove the cube is completely solved. not sure if 5 scans give you enough information to recreate the full state for any random cube position.

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The "no way" is easily provable. Scan a single cube side. Now turn the side opposite 90 degrees. Scan the same cube side again, it is identical. As for "is five side enough", the only cubelet you don't know the exact state of is the center cubelet, but as its orientation is moot, you can recreate the state of the corner and probably side cubelets (you have full info for the corners, since you know 4 fully and have all-but-one side for the remaining 4; you could have a situation where you have a choice of side cubelets, but you would know if you have full info or not). –  Vatine Nov 13 '12 at 10:24

You might wanna check this for grabing all edges within a scaned pic.


This is a problem being solved with Hough transformation using matrix.

On the other side, you have to compare those 2 images to detect color of each field.

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