Frequency analysis

In mathematics, physics and signal processing, frequency analysis is a method to decompose a function, wave, or signal into its frequency components so that it is possible to have the frequency spectrum.


Missing image
English-slf.png
A typical distribution of letters in English language text. Weak ciphers do not sufficiently mask the distribution, and this might be exploited by a cryptanalyst to read the message.

In cryptanalysis, frequency analysis is the study of the frequency of letters or groups of letters in a ciphertext. The method is used as an aid to breaking classical ciphers.

Frequency analysis is based on the fact that, in any given stretch of written language, certain letters and combinations of letters occur with varying frequencies. Moreover, there is a characteristic distribution of letters that is roughly the same for almost all samples of that language. For instance, given a section of English language, E tends to be very common, while X is very rare. Likewise, ST, NG, TH, and QU are common pairs of letters (termed bigrams or digraphs), while NZ and QJ are rare. The mnemonic phrase "ETAOIN SHRDLU" encodes the 12 most frequent letters in typical English language text.

In some ciphers, such properties of the natural language plaintext are preserved in the ciphertext, and these patterns have the potential to be exploited in a ciphertext-only attack.

Contents

Frequency analysis for simple substitution ciphers

In a simple substitution cipher, each letter of the plaintext is replaced with another, and any particular letter in the plaintext will always be transformed into the same letter in the ciphertext. For instance, all e's will turn into X's. A ciphertext message containing lots of X's would suggest to a cryptanalyst that X represented e.

The basic use of frequency analysis is to first count the frequency of ciphertext letters and then associate guessed plaintext letters with them. More X's in the ciphertext than anything else suggests that X corresponds to e in the plaintext, but this is not certain; t and a are also very common in English, so X might be either of them also. It is unlikely to be a plaintext z or q which are less common. Thus the cryptanalyst may need to try several combinations of mappings between ciphertext and plaintext letters.

More complex use of statistics can be conceived, such as considering counts of pairs of letters, or triplets (trigrams), and so on. This is done to provide more information to the cryptanalyst, for instance, Q and U nearly always occur together in that order in English, even though Q itself is rare.

An example

Suppose Eve has intercepted the cryptogram below, and it is known to be encrypted using a simple substitution cipher:

LIVITCSWPIYVEWHEVSRIQMXLEYVEOIEWHRXEXIPFEMVEWHKVSTYLXZIXLIKIIXPIJVSZEYPERRGERIM
WQLMGLMXQERIWGPSRIHMXQEREKIETXMJTPRGEVEKEITREWHEXXLEXXMZITWAWSQWXSWEXTVEPMRXRSJ
GSTVRIEYVIEXCVMUIMWERGMIWXMJMGCSMWXSJOMIQXLIVIQIVIXQSVSTWHKPEGARCSXRWIEVSWIIBXV
IZMXFSJXLIKEGAEWHEPSWYSWIWIEVXLISXLIVXLIRGEPIRQIVIIBGIIHMWYPFLEVHEWHYPSRRFQMXLE
PPXLIECCIEVEWGISJKTVWMRLIHYSPHXLIQIMYLXSJXLIMWRIGXQEROIVFVIZEVAEKPIEWHXEAMWYEPP
XLMWYRMWXSGSWRMHIVEXMSWMGSTPHLEVHPFKPEZINTCMXIVJSVLMRSCMWMSWVIRCIGXMWYMX

For this example, uppercase letters are used to denote ciphertext, lowercase letters are used to denote plaintext (or guesses at such), and X~t is used to express a guess that ciphertext letter X represents the plaintext letter t.

Eve could use frequency analysis to help solve the message along the following lines: counts of the letters in the cryptogram show that I is the most common single letter, XL most common bigram, and XLI is the most common trigram. e is the most common letter in the English language, th is the most common bigram, and the the most common trigram. This strongly suggests that X~t, L~h and I~e. The second most common letter in the cryptogram is e; since the first and second most frequent letters in the English language, e and t are accounted for, Eve guesses that it is the third, a. Tentatively making these assumptions, the following partial decrypted message is obtained.

heVeTCSWPeYVaWHaVSReQMthaYVaOeaWHRtatePFaMVaWHKVSTYhtZetheKeetPeJVSZaYPaRRGaReM
WQhMGhMtQaReWGPSReHMtQaRaKeaTtMJTPRGaVaKaeTRaWHatthattMZeTWAWSQWtSWatTVaPMRtRSJ
GSTVReaYVeatCVMUeMWaRGMeWtMJMGCSMWtSJOMeQtheVeQeVetQSVSTWHKPaGARCStRWeaVSWeeBtV
eZMtFSJtheKaGAaWHaPSWYSWeWeaVtheStheVtheRGaPeRQeVeeBGeeHMWYPFhaVHaWHYPSRRFQMtha
PPtheaCCeaVaWGeSJKTVWMRheHYSPHtheQeMYhtSJtheMWReGtQaROeVFVeZaVAaKPeaWHtaAMWYaPP
thMWYRMWtSGSWRMHeVatMSWMGSTPHhaVHPFKPaZeNTCMteVJSVhMRSCMWMSWVeRCeGtMWYMt

Using these initial guesses, Eve can spot patterns that confirm her choices, such as "that". Moreover, other patterns suggest further guesses. "Rtate" might be "state", which would mean R~s. Similarly "atthattMZe" could be guessed as "atthattime", yielding M~i and Z~m. Furthemore, "heVe" might be "here", giving V~r. Filling in these guesses, Eve gets:

hereTCSWPeYraWHarSseQithaYraOeaWHstatePFairaWHKrSTYhtmetheKeetPeJrSmaYPassGasei
WQhiGhitQaseWGPSseHitQasaKeaTtiJTPsGaraKaeTsaWHatthattimeTWAWSQWtSWatTraPistsSJ
GSTrseaYreatCriUeiWasGieWtiJiGCSiWtSJOieQthereQeretQSrSTWHKPaGAsCStsWearSWeeBtr
emitFSJtheKaGAaWHaPSWYSWeWeartheStherthesGaPesQereeBGeeHiWYPFharHaWHYPSssFQitha
PPtheaCCearaWGeSJKTrWisheHYSPHtheQeiYhtSJtheiWseGtQasOerFremarAaKPeaWHtaAiWYaPP
thiWYsiWtSGSWsiHeratiSWiGSTPHharHPFKPameNTCiterJSrhisSCiWiSWresCeGtiWYit

In turn, these guesses suggest still others (for example, "remarA" could be "remark", implying A~k) and so on, and it is relatively straightforward to deduce the rest of the letters, eventually yielding the plaintext.

In this example, Eve's guesses were all correct. This would not always be the case, however; the variation in statistics for individual plaintexts can mean that initial guesses are incorrect. It may be necessary to backtrack incorrect guesses or to analyse the available statistics in much more depth than the somewhat simplified justifications given in the above example.

It is also possible that the plaintext does not exhibit the expected distribution of letter frequencies. Shorter messages are likely to show more variation. It is also possible to construct artificially skewed texts. For example, entire novels have been written that omit the letter "e" altogether — a form of literature known as a lipogram.

History and usage

First page of 's 9th century Manuscript on Deciphering Cryptographic Messages
Enlarge
First page of Al-Kindi's 9th century Manuscript on Deciphering Cryptographic Messages

The first known recorded explanation of frequency analysis (indeed, of any kind cryptanalysis) was given by 9th century Arabic polymath Abu Yusuf Yaqub ibn Ishaq al-Sabbah Al-Kindi in A Manuscript on Deciphering Cryptographic Messages (Ibraham, 1992). It has been suggested that close textual study of the Qur'an first brought to light that Arabic has a characteristic letter frequency. Its use spread, and was so widely used by European states by the Renaissance that several schemes were invented by cryptographers to defeat it. These included

  • use of homophones — several alternatives to the most common letters in otherwise monoalphabetic substitution ciphers (for example, for English, both X and Y ciphertext might mean plaintext E).
  • polyalphabetic substitution, that is, the use of several alphabets — chosen in assorted, more or less devious, ways (Leone Alberti seems to have been the first to propose this); and
  • polygraphic substitution, schemes where pairs or triplets of plaintext letters are treated as units for substitution, rather than single letters (for example, the Playfair cipher invented by Charles Wheatstone in the mid 1800s).

A disadvantage of all these attempts to defeat frequency counting attacks is that it increases complication of both enciphering and deciphering, leading to mistakes. Famously, a British Foreign Secretary is said to have rejected the Playfair cipher because, even if school boys could cope successfully as Wheatstone and Playfair had shown, 'our attaches could never learn it!'.

The rotor machines of the first half of the 20th century (for example, the Enigma machine) were essentially immune to straightforward frequency analysis. However, other kinds of analysis ("attacks") successfully decoded messages from some of those machines.

Frequency analysis requires only a basic understanding of the statistics of the plaintext language and some problem solving skills, and, if performed by hand, some tolerance for extensive letter bookkeeping. During World War II (WWII), both the British and the Americans recruited codebreakers by placing crossword puzzles in major newspapers and running contests for who could solve them the fastest. Several of the ciphers used by the Axis powers were breakable using frequency analysis (for example, some of the consular ciphers used by the Japanese). Mechanical methods of letter counting and statistical analysis (generally IBM card type machinery) were first used in WWII, possibly by the US Army's SIS. There are lurid tales of midnight expeditions by the cryptographers to machines in another Department. Today, the hard work of letter counting and analysis has been replaced by computer software, which can carry out such analyses in seconds. With modern computing power, classical ciphers are unlikely to provide any real protection for confidential data.

Frequency analysis in fiction

Part of the cryptogram in The Dancing Men

Frequency analysis has been described in fiction. Edgar Allan Poe's The Gold Bug, and Arthur Conan Doyle's Sherlock Holmes tale The Adventure of the Dancing Men are examples of stories which describe the use of frequency analysis to attack simple substitution ciphers. The cipher in the Poe story is encrusted with several deception measures, but this is more a literary device than anything significant cryptographically.

See also

References

  • Helen Fouché Gaines, "Cryptanalysis", 1939, Dover. ISBN 0486200973
  • Ibraham A. “Al-Kindi: The origins of cryptology: The Arab contributions”, Cryptologia, 16(2) (April 1992) pp. 97–126.
  • Abraham Sinkov, "Elementary Cryptanalysis : A Mathematical Approach", The Mathematical Association of America, 1966. ISBN 0883856220.

External links


Classical cryptography edit  (https://academickids.com:443/encyclopedia/index.php?title=Template:Classical_cryptography&action=edit)
Ciphers: ADFGVX | Affine | Atbash | Autokey | Bifid | Book | Caesar | Four-square | Hill | Permutation | Pigpen | Playfair | Polyalphabetic | Reihenschieber | Running key | Substitution | Transposition | Trifid | Two-square | Vigenère

Cryptanalysis: Frequency analysis | Index of coincidence
Misc: Cryptogram | Polybius square | Scytale | Straddling checkerboard | Tabula recta
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