Let's say I have an encrypted file on an iPhone and every time I want to decrypt it, I want to "draw" a decryption symbol instead of having to use a keyboard to type it in.
If you request from the user to draw a symbol to decrypt a file every time it is needed (e.g. every time they launch your application) they would probably prefer it to having to type a 20 character or so password on the tiny keyboard, and they would still get the security a 20 character password would give them (depending on how complicated the shape/symbol they draw is).
The symbol they would draw would most likely be one stroke (e.g. it's over once you lift up your finger) but can be very complex, such that it's hard for someone else to repeat it, even if they do see you draw it in. Kind of like how every person's signature is unique and hard to duplicate. Actually, this may just overly complicate it if it had to prevent from being duplicated, so for now this can be ignored and we can assume that the symbol will not be seen by someone else and thus it doesn't matter if it could be repeated by them or not.
I guess the real question is how would you convert the same (reasonably) stroke consistently to the same key (e.g. hash value). There should obviously be some threshold of forgiveness in the algorithm, because the user can't be expected to repeat the stroke exactly 100%.
Using the symbol as a decryption method adds a whole other dimension to this problem. You never want to store the generated hash value anywhere in unencrypted form, cause then someone might be able to access that part of the hard drive and get the decryption key without needing to go through the whole drawing process and decrypt the file manually. You also most likely don't want to store anything about how the shape is drawn.
A good example of a stroke that a user might use as their decryption symbol is the "&" symbol. Imagine a user drawing this symbol on their iPhone every time they need to decrypt a file. The size of the symbol might not be the same every time it is drawn. Also, the rotation of the symbol may be different depending on how the user holds their device. Ideally, in both cases, because the symbol was drawn, relative to the user strokes, the same, it should be able to generate the same hash value and thus decrypt the file.
I thought something like shape or character recognition is a similar algorithm. Where the user draws something (reasonably representing a shape) and it then fixes it to the correct shape which would have the same hash value every time it is drawn. However, for something like this you would most likely need a database of shapes that can be drawn, and if you choose something like all the letters in the alphabet, you only get 26 letters. And assuming the user should only need to draw one symbol to decrypt the file, you have an extremely insecure password with only 26 possibilities.
Another thing I thought of is you could break up the symbol that is drawn into tiny segments and then run symbol recognition on those. So imagine that you have 4 symbols in a database: vertical line, horizontal line, and diagonal in both directions. Now as the user draws, each segment is recognized as one of these, and then they are all combined to form some hash value. So imagine the user chose as their decryption symbol the lowercase letter "r". So they would begin by drawing a vertical line down, followed by a vertical line up, followed by a diagonal line up and to the right. One problem with this method is how would you know when to split up the stroke into individual segments? You would probably also want to take into account how long each individual segment is roughly (e.g. in increments of 40 pixels). That way if someone drew a deformed "r" where the hump comes out near the bottom it isn't recognized as the same symbol and thus wouldn't decrypt the file.
A third method might be dividing the screen up into a grid (not sure which size yet) and simply seeing in which cells the stroke is drawn and using this data somehow to generate a string.
Any other ideas of how this could be implemented? Have you ever heard of something like this? Are there any fundamental flaws that would prevent a system like this from working?