Is there an existing subset of the alphanumerics that is easier to read? In particular, is there a subset that has fewer characters that are visually ambiguous, and by removing (or equating) certain characters we reduce human error?

I know "visually ambiguous" is somewhat waffly of an expression, but it is fairly evident that D, O and 0 are all similar, and 1 and I are also similar. I would like to maximize the size of the set of alpha-numerics, but minimize the number of characters that are likely to be misinterpreted.

The only precedent I am aware of for such a set is the Canada Postal code system that removes the letters D, F, I, O, Q, and U, and that subset was created to aid the postal system's OCR process.

My initial thought is to use only capital letters and numbers as follows:

B = 8
C = G
D = 0 = O = Q
E = F
I = J = L = T = 1 = 7
K = X
S = 5
U = V = Y
Z = 2

This problem may be difficult to separate from the given type face. The distinctiveness of the characters in the chosen typeface could significantly affect the potential visual ambiguity of any two characters, but I expect that in most modern typefaces the above characters that are equated will have a similar enough appearance to warrant equating them.

I would be grateful for thoughts on the above – are the above equations suitable, or perhaps are there more characters that should be equated? Would lowercase characters be more suitable?

  • 1
    Note: "Visually ambiguous" is meant in context of humans, not the OCR system. The solution required is to aid manual input. – Ujjwal Singh Aug 12 '12 at 15:06
  • 1
    See ux.stackexchange.com/questions/21076/… – rwb Sep 23 '12 at 5:53
  • @rwb: if you make this into an answer, it will probably pick up the bounty. Discussion in UX is exactly what OP was looking for. – tucuxi Sep 23 '12 at 11:47
  • Is the bounty closed - I have a 'better' solution.. – Ujjwal Singh Sep 23 '12 at 15:39
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    Posting on GitHub.. ETA 6 Hrs – Ujjwal Singh Sep 24 '12 at 12:42

Mainly drawing inspiration from this ux thread, mentioned by @rwb,

  • Several programs use similar things. The list in your post seems to be very similar to those used in these programs, and I think it should be enough for most purposes. You can add always add redundancy (error-correction) to "forgive" minor mistakes; this will require you to space-out your codes (see Hamming distance), though.
  • No references as to particular method used in deriving the lists, except trial and error with humans (which is great for non-ocr: your users are humans)
  • It may make sense to use character grouping (say, groups of 5) to increase context ("first character in the second of 5 groups")
  • Ambiguity can be eliminated by using complete nouns (from a dictionary with few look-alikes; word-edit-distance may be useful here) instead of characters. People may confuse "1" with "i", but few will confuse "one" with "ice".
  • Another option is to make your code into a (fake) word that can be read out loud. A markov model may help you there.
  • +1 for using complete nouns; cloudflare uses something similar for their name servers – Jake Berger Oct 29 '14 at 16:15
  • Error correction is probably underrated in UX. One valuable bit here may be a a visual distance metric - for example O/D/0 are closer to e.g. C/Q but further from e.g. I/H/R. As mentioned elsewhere though, this may depends heavily on the font. An symbol based error correction (e.g. Reed Solomon) that does not depend on visuals may be simpler and more effective. It's a really great insight, tucuxi, thanks! – Brian M. Hunt Dec 11 '14 at 13:11
  • Great idea with Markov models... – Prof. Falken Aug 24 '15 at 11:52

I needed a replacement for hexadecimal (base 16) for similar reasons (e.g. for encoding a key, etc.), the best I could come up with is the following set of 16 characters, which can be used as a replacement for hexadecimal:

0 1 2 3 4 5 6 7 8 9 A B C D E F     Hexadecimal
H M N 3 4 P 6 7 R 9 T W C X Y F     Replacement

In the replacement set, we consider the following:

All characters used have major distinguishing features that would only be omitted in a truly awful font.

Vowels A E I O U omitted to avoid accidentally spelling words.

Sets of characters that could potentially be very similar or identical in some fonts are avoided completely (none of the characters in any set are used at all):

0 O D Q 
1 I L J
8 B 
5 S
2 Z

By avoiding these characters completely, the hope is that the user will enter the correct characters, rather than trying to correct mis-entered characters.

For sets of less similar but potentially confusing characters, we only use one character in each set, hopefully the most distinctive:

Y U V 

Here Y is used, since it always has the lower vertical section, and a serif in serif fonts

C G         

Here C is used, since it seems less likely that a C would be entered as G, than vice versa

X K         

Here X is used, since it is more consistent in most fonts

F E         

Here F is used, since it is not a vowel

In the case of these similar sets, entry of any character in the set could be automatically converted to the one that is actually used (the first one listed in each set). Note that E must not be automatically converted to F if hexadecimal input might be used (see below).

Note that there are still similar-sounding letters in the replacement set, this is pretty much unavoidable. When reading aloud, a phonetic alphabet should be used.

Where characters that are also present in standard hexadecimal are used in the replacement set, they are used for the same base-16 value. In theory mixed input of hexadecimal and replacement characters could be supported, provided E is not automatically converted to F.

Since this is just a character replacement, it should be easy to convert to/from hexadecimal.

Upper case seems best for the "canonical" form for output, although lower case also looks reasonable, except for "h" and "n", which should still be relatively clear in most fonts:

h m n 3 4 p 6 7 r 9 t w c x y f

Input can of course be case-insensitive.

There are several similar systems for base 32, see http://en.wikipedia.org/wiki/Base32 However these obviously need to introduce more similar-looking characters, in return for an additional 25% more information per character.

Apparently the following set was also used for Windows product keys in base 24, but again has more similar-looking characters:

B C D F G H J K M P Q R T V W X Y 2 3 4 6 7 8 9

This would be a general problem in OCR. Thus for end to end solution where in OCR encoding is controlled - specialised fonts have been developed to solve the "visual ambiguity" issue you mention of. See: http://en.wikipedia.org/wiki/OCR-A_font

as additional information : you may want to know about Base32 Encoding - wherein symbol for digit '1' is not used as it may 'confuse' the users with the symbol for alphabet 'l'.

  • Thanks - Base32 is a good tip. Strictly speaking, the question only relates to OCR by way of the Canada Post precedent of removing characters that are ambiguous to machine readers. I am interested in a character (or glyph, really) set that is less ambiguous to humans. – Brian M. Hunt Aug 12 '12 at 13:20
  • You may use your custom set of symbols in base32-encoding with implementation part remaining the same. – Ujjwal Singh Aug 12 '12 at 15:09

What you seek is an unambiguous, efficient Human-Computer code. What I recommend is to encode the entire data with literal(meaningful) words, nouns in particular.

I have been developing a software to do just that - and most efficiently. I call it WCode.
Technically its just Base-1024 Encoding - wherein you use words instead of symbols.

Here are the links:
Presentation: https://docs.google.com/presentation/d/1sYiXCWIYAWpKAahrGFZ2p5zJX8uMxPccu-oaGOajrGA/edit
Documentation: https://docs.google.com/folder/d/0B0pxLafSqCjKOWhYSFFGOHd1a2c/edit
Project: https://github.com/San13/WCode (Please wait while I get around uploading...)


It depends how large you want your set to be. For example, just the set {0, 1} will probably work well. Similarly the set of digits only. But probably you want a set that's roughly half the size of the original set of characters.

I have not done this, but here's a suggestion. Pick a font, pick an initial set of characters, and write some code to do the following. Draw each character to fit into an n-by-n square of black and white pixels, for n = 1 through (say) 10. Cut away any all-white rows and columns from the edge, since we're only interested in the black area. That gives you a list of 10 codes for each character. Measure the distance between any two characters by how many of these codes differ. Estimate what distance is acceptable for your application. Then do a brute-force search for a set of characters which are that far apart.

Basically, use a script to simulate squinting at the characters and see which ones you can still tell apart.

  • This depends heavily on the font, and even the font-size. It could also require some brute-force alignment: L and I share few pixels until you place the vertical strokes so that they overlap. – tucuxi Sep 23 '12 at 12:06

Here's some python I wrote to encode and decode integers using the system of characters described above.

def base20encode(i):
    """Convert integer into base20 string of unambiguous characters."""
    if not isinstance(i, int):
        raise TypeError('This function must be called on an integer.')     
    chars, s = '012345689ACEHKMNPRUW', ''
    while i > 0:
        i, remainder = divmod(i, 20)
        s = chars[remainder] + s
    return s

def base20decode(s):
    """Convert string to unambiguous chars and then return integer from resultant base20"""
    if not isinstance(s, str):
        raise TypeError('This function must be called on a string.')
    s = s.translate(bytes.maketrans(b'BGDOQFIJLT7KSVYZ', b'8C000E11111X5UU2'))
    chars, i, exponent = '012345689ACEHKMNPRUW', 0, 1
    for number in s[::-1]:
        i += chars.index(number) * exponent
        exponent *= 20
    return i


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