Levenshtein | Double Levenshtein | SoundEx | MetaPhone | Manually curated |
---|---|---|---|---|
muve (0) - 20 freq muves (1) - 1 freq muv (1) - 1 freq mauve (1) - 4 freq juve (1) - 2 freq mute (1) - 11 freq mule (1) - 4 freq muse (1) - 35 freq mve (1) - 1 freq mave (1) - 1 freq yuve (1) - 2 freq move (1) - 307 freq muved (1) - 29 freq muive (1) - 26 freq mune (1) - 60 freq luve (1) - 329 freq wuve (1) - 1 freq rue (2) - 19 freq sue (2) - 12 freq auv (2) - 2 freq mula (2) - 1 freq wue (2) - 1 freq bude (2) - 14 freq rule (2) - 164 freq sute (2) - 1 freq |
muve (0) - 20 freq mve (1) - 1 freq mave (1) - 1 freq move (1) - 307 freq muive (1) - 26 freq muv (1) - 1 freq mauve (1) - 4 freq maave (2) - 4 freq moave (2) - 1 freq meuv (2) - 4 freq mv (2) - 2 freq mov (2) - 3 freq movie (2) - 15 freq mavie (2) - 4 freq meeve (2) - 17 freq wuve (2) - 1 freq mouvie (2) - 1 freq muse (2) - 35 freq yuve (2) - 2 freq mute (2) - 11 freq juve (2) - 2 freq muves (2) - 1 freq muved (2) - 29 freq mule (2) - 4 freq mune (2) - 60 freq |
SoundEx code - M100 mibbe - 359 freq 'mibbe - 24 freq mebbe - 690 freq move - 307 freq muive - 26 freq mbe - 4 freq mayhap - 3 freq maybe - 416 freq mob - 26 freq map - 90 freq mop - 16 freq meeve - 17 freq mibbie - 92 freq mibby - 27 freq muve - 20 freq mp - 39 freq mebbie - 6 freq mebbee - 1 freq mibbee - 7 freq movie - 15 freq moufae - 2 freq mmph - 2 freq m-mebbe - 1 freq mibee - 16 freq 'mayhap - 1 freq mappa - 1 freq moby - 2 freq moov - 3 freq mappey - 2 freq maybee - 2 freq mafia - 6 freq mef - 2 freq 'move - 2 freq moofu - 4 freq maave - 4 freq mibey - 1 freq mibe - 3 freq moave - 1 freq maybae - 14 freq maif - 1 freq mauve - 4 freq mi'bae - 1 freq moofae - 1 freq maup - 1 freq muv - 1 freq moab - 2 freq 'meep - 1 freq meep - 1 freq 'maybe - 4 freq 'mibbie - 1 freq mfaa - 4 freq mappie - 20 freq mov - 3 freq mibbe-' - 1 freq mouvie - 1 freq mave - 1 freq mibbbe - 1 freq maiv - 1 freq maebbi - 6 freq möv - 1 freq möfi - 1 freq myweb - 1 freq mavie - 4 freq mibbi - 1 freq €˜maybe - 3 freq €˜mibbe - 2 freq moufu - 5 freq €œmibbe - 2 freq €œmibbie - 2 freq maebae - 2 freq €œmaybe - 7 freq mep - 13 freq €œmebbe - 3 freq mabbie - 1 freq meuv - 4 freq mb - 5 freq mpy - 1 freq mayb - 1 freq mubba - 1 freq mv - 2 freq myvwe - 1 freq mebe - 1 freq mby - 1 freq mfi - 1 freq mi'be - 6 freq mup - 2 freq mf - 1 freq mebee - 2 freq mve - 1 freq mph - 2 freq mbpfuu - 1 freq mvhwi - 1 freq mbu - 1 freq moip - 2 freq mbh - 1 freq movieÂ’ - 1 freq |
MetaPhone code - MF move - 307 freq muive - 26 freq meeve - 17 freq muve - 20 freq hmph - 1 freq hmmph - 8 freq 'hmmph - 2 freq movie - 15 freq moufae - 2 freq mmph - 2 freq moov - 3 freq mafia - 6 freq mef - 2 freq 'move - 2 freq moofu - 4 freq maave - 4 freq moave - 1 freq maif - 1 freq hmv - 2 freq hmyv - 1 freq mauve - 4 freq moofae - 1 freq muv - 1 freq mfaa - 4 freq mov - 3 freq mouvie - 1 freq mave - 1 freq maiv - 1 freq möv - 1 freq möfi - 1 freq mavie - 4 freq moufu - 5 freq hmfff - 1 freq meuv - 4 freq mv - 2 freq mfi - 1 freq hmmmph - 1 freq mf - 1 freq mve - 1 freq mph - 2 freq movie’ - 1 freq |
MUVE |
Time to execute Levenshtein function - 0.194070 milliseconds The Levenshtein distance is the number of characters you have to replace, insert or delete to transform one word into another, its useful for detecting typos and alternative spellings |
Time to execute Double Levenshtein function - 0.340618 milliseconds In a stroke of genius, this runs the Levenshtein function twice, once without vowels and adds the distance together, giving double weight to consonants. |
Time to execute SoundEx function - 0.027487 milliseconds Soundex is a phonetic algorithm for indexing names by sound, as pronounced in English. The goal is for homophones to be encoded to the same representation so that they can be matched despite minor differences in spelling. |
Time to execute MetaPhone function - 0.043985 milliseconds Metaphone is a phonetic algorithm, published by Lawrence Philips in 1990, for indexing words by their English pronunciation.[1] It fundamentally improves on the Soundex algorithm by using information about variations and inconsistencies in English spelling and pronunciation to produce a more accurate encoding, which does a better job of matching words and names which sound similar. |
Time to execute Manually curated function - 0.000856 milliseconds Manual Curation uses a lookup table / lexicon which has been created by hand which links words to their lemmas, and includes obvious typos and spelling variations. Not all words are covered. |