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A while back I was trying to bruteforce a remote control which sent a 12 bit binary 'key'.

The device I made worked, but was very slow as it was trying every combination at about 50 bits per second (4096 codes = 49152 bits = ~16 minutes)

I opened the receiver and found it was using a shift register to check the codes and no delay was required between attempts. This meant that the receiver was simply looking at the last 12 bits to be received to see if they were a match to the key.

This meant that if the stream 111111111111000000000000 was sent through, it had effectively tried all of these codes.

111111111111    111111111110    111111111100    111111111000
111111110000    111111100000    111111000000    111110000000
111100000000    111000000000    110000000000    100000000000

In this case, I have used 24 bits to try 13 12 bit combinations (>90% compression).

Does anyone know of an algorithm that could reduce my 49152 bits sent by taking advantage of this?

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2 Answers 2

up vote 13 down vote accepted

What you're talking about is a de Bruijn sequence. If you don't care about how it works, you just want the result, here it is.

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Absolutely brilliant. And at 4096 bits long its 91.6% compression or 1 bit for every 12 bit sequence. Thanks a lot, you've made my friday! –  John Jan 30 '09 at 16:34
Wow, that is awesome. That is the exact same diagram I drew when studying one of the Defense of the Ancients characters that had a stack-based spell system. –  Mark Canlas Jan 30 '09 at 16:38
Here's a nice story about it: stefangeens.com/2004/10/the-de-bruijn-c.html –  compie Mar 30 '09 at 8:45
@MarkCanlas: Could you expand on how that helped in the game? That sounds like a very interesting mechanic. –  Joseph Garvin Oct 25 '12 at 4:00
In Dota, the Invoker has a spell queue with three slots. (Or used to, I think he has since been simplified). Every time you summon an orb, it shifts it off the beginning and pushes it onto the end. The diagram describes the exact pathways of what spells are adjacent to your current spell. Though in Dota it was three states and three slots (vs the diagram which only has an alphabet of two and three slots). The spell you cast is governed by the current state of the queue (i.e. the permutation of the three orbs). –  Mark Canlas Oct 25 '12 at 13:25

Off the top of my head, I suppose flipping one bit in each 12-bit sequence would take care of another 13 combinations, for example 111111111101000000000010, then 111111111011000000000100, etc. But you still have to do a lot permutations, even with one bit I think you still have to do 111111111101000000000100 etc. Then flip two bits on one side and 1 on the other, etc.

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