NATO phonetic alphabet

The International Radiotelephony Spelling Alphabet, also known as NATO phonetic alphabet, is a special reading of letters in Latin alphabet. It is always used in radio calling to avoid ambiguation.
Including numbers, as it is still currently used was defined by ICAO in 1955 as the Radiotelephony Spelling Alphabet and published by ICAO in Annex 10.

History

It is based on the previously used civil aviation alphabet adopted by ICAO in 1951.
The 1955 version differed in a few words e.g. "Coca" instead of Charlie, "Metro" instead of "Mike", "Extra" instead of X-Ray which were difficult to use internationally.
It is also known since 1956 as the NATO phonetic alphabet, and is the most widely used set of clear-code words for communicating the letters of the Latin/Roman alphabet. Technically a radiotelephonic spelling alphabet, it goes by various other names that vary with the international organizations that adopted it, e. g. the ITU phonetic alphabet and figure code or the IMO Marine Navigational Vocabulary.
Although spelling alphabets are commonly called "phonetic alphabets", they are not phonetic in the sense of phonetic transcription systems such as the International Phonetic Alphabet.
To create the code, a series of international agencies assigned 26 clear-code words acrophonically to the letters of the Latin alphabet, with the goal that the letters and numbers would be easily distinguishable from one another over radio and telephone. The words were chosen to be accessible to speakers of English, French and Spanish. Some of the code words were changed over time, as they were found to be ineffective in real-life conditions. In 1956, NATO adopted the International Civil Aviation Organization , in 1959 the International Telecommunication Union, and in 2001, thus becoming the international standard.
The 26 code words are as follows : ', Bravo, Charlie, Delta, Echo, Foxtrot, Golf, Hotel, India, ', Kilo, Lima, Mike, November, Oscar, Papa, Quebec, Romeo, Sierra, Tango, Uniform, Victor, Whiskey, Xray, Yankee, and Zulu. and are spelled that way to avoid mispronunciation by people unfamiliar with English orthography; NATO changed to for the same reason. The code words for digits are their English names, though with their pronunciations modified in the cases of three, four, five, nine and thousand.
The code words have been stable since 1956. A 1955 NATO memo stated that:

International adoption

Soon after the code words were developed by ICAO, they were adopted by other national and international organizations, including the ITU, the International Maritime Organization, the United States Federal Government as Federal Standard 1037C: Glossary of Telecommunications Terms and its successors ANSI T1.523-2001 and ATIS Telecom Glossary , the United States Department of Defense, the Federal Aviation Administration , the International Amateur Radio Union, the American Radio Relay League, the Association of Public-Safety Communications Officials-International, and by many military organizations such as NATO and the now-defunct Southeast Asia Treaty Organization.
The same alphabetic code words are used by all agencies, but each agency chooses one of two different sets of numeric code words. NATO uses the regular English numerals, whereas the ITU and the IMO created compound code words. In practice the compound words are used very rarely.

Usage

A spelling alphabet is used to distinguish those parts of a message that contain letters and digits, because the names of many letters sound similar, for instance bee and pee, en and em or ef and ess. The potential for confusion increases if static or other interference is present, as is commonly the case with radio and telephonic communication. For instance, the target message "proceed to map grid DH98" would be transmitted as proceed to map grid Delta-Hotel-Niner-Ait.
Civilian industry uses the code words to avoid similar problems in the transmission of messages by telephone systems. For example, it is often used in the retail industry where customer or site details are conveyed by telephone, although ad-hoc code words are often used in that instance. It has been used by information technology workers to communicate serial numbers and reference codes, which are often very long, by voice. Most major airlines use the alphabet to communicate passenger name records internally, and in some cases, with customers. It is often used in a medical context as well.
Several codes words and sequences of code words have become well-known, such as Bravo Zulu for "well done", Checkpoint Charlie in Berlin, and Zulu Time for Greenwich Mean Time or Coordinated Universal Time. During the Vietnam War, the US government referred to the Viet Cong guerrillas and the group itself as VC, or Victor Charlie; the name "Charlie" became synonymous with this force.

Pronunciation of code words

The final choice of code words for the letters of the alphabet and for the digits was made after hundreds of thousands of comprehension tests involving 31 nationalities. The qualifying feature was the likelihood of a code word being understood in the context of others. For example, Football has a higher chance of being understood than Foxtrot in isolation, but Foxtrot is superior in extended communication.
Pronunciations were set out by the ICAO before 1956 with advice from the governments of both the United States and United Kingdom. To eliminate national variations in pronunciation, posters illustrating the pronunciation desired by ICAO are available. However, there remain differences in the pronunciations published by ICAO and other agencies, and ICAO has apparently conflicting Latin-alphabet and IPA transcriptions. At least some of these differences appear to be typographic errors. In 2022, the Deutsches Institut für Normung attempted to resolve these conflicts. For example, they consistently transcribe for what the ICAO had transcribed variously as in IPA and as a, ah, ar, er in orthography.
Just as words are spelled out as individual letters, numbers are spelled out as individual digits. That is, 17 is rendered as one seven and 60 as six zero. Depending on context, the word thousand may be used as in English, and, for whole hundreds only, the word hundred may be used. For example, 1300 is read as one three zero zero if it is a transponder code or serial number, and as one thousand three hundred if it is an altitude or distance.
The ICAO, NATO, and FAA use modifications of English digits as code words, with 3, 4, 5 and 9 being pronounced tree, fower, fife and niner. The digit 3 is specified as tree so that it will not be mispronounced sri ; the long pronunciation of 4 keeps it somewhat distinct from for; 5 is pronounced with a second "f" because the normal pronunciation with a "v" is easily confused with "fire"; and 9 has an extra syllable to keep it distinct from the German word nein "no". For directions presented as the hour-hand position on a clock, the additional numerals "ten", "eleven" and "twelve" are used with the word "o'clock".
The ITU and IMO, however, specify a different set of code words for digits. These are compounds of ICAO and Latinesque roots.
The IMO's GMDSS procedures permits the use of either set of code words.

Tables

There are two IPA transcriptions of the letter names, from the International Civil Aviation Organization and the Deutsches Institut für Normung. Both authorities indicate that a non-rhotic pronunciation is standard. That of the ICAO, first published in 1950 and reprinted many times without correction, uses a large number of vowels. For instance, it has six low/central vowels:,,,, and. The DIN consolidates all six into the single low-central vowel. The DIN vowels are partly predictable, with the more open vowels in closed syllables and the more close vowels in open syllables, apart from echo and sierra, which have as in English, German and Italian. The DIN also reduced the number of stressed syllables in bravo and x-ray, consistent with the ICAO English respellings of those words and with the NATO change of spelling of x-ray to xray so that people would know to pronounce it as a single word.
There is no authoritative IPA transcription of the digits. However, there are respellings into both English and French, which can be compared to clarify some of the ambiguities and inconsistencies.
The Combined Communications-Electronics Board has code words for punctuation, including those in the table below.

Symbol	Code word
.	stop
,	comma
-	hyphen,
/	slant
	brackets off

Others are: "colon", "semi-colon", "exclamation mark", "question mark", "apostrophe", "quote", and "unquote".

History

Prior to World War I and the development and widespread adoption of two-way radio that supported voice, telephone spelling alphabets were developed to improve communication on low-quality and long-distance telephone circuits.
The first non-military internationally recognized spelling alphabet was adopted by the CCIR during 1927. The experience gained with that alphabet resulted in several changes being made during 1932 by the ITU. The resulting alphabet was adopted by the International Commission for Air Navigation, the predecessor of the ICAO, and was used for civil aviation until World War II. It continued to be used by the IMO until 1965.
Throughout World War II, many nations used their own versions of a spelling alphabet. The US adopted the Joint Army/Navy radiotelephony alphabet during 1941 to standardize systems among all branches of its armed forces. The US alphabet became known as Able Baker after the words for A and B. The Royal Air Force adopted one similar to the United States one during World War II as well. Other British forces adopted the RAF radio alphabet, which is similar to the phonetic alphabet used by the Royal Navy during World War I. At least two of the terms are sometimes still used by UK civilians to spell words over the phone, namely F for Freddie and S for Sugar.
To enable the US, UK, and Australian armed forces to communicate during joint operations, in 1943 the CCB modified the US military's Joint Army/Navy alphabet for use by all three nations, with the result being called the US-UK spelling alphabet. It was defined in one or more of CCBP-1: Combined Amphibious Communications Instructions, CCBP3: Combined Radiotelephone Procedure, and CCBP-7: Combined Communication Instructions. The CCB alphabet itself was based on the US Joint Army/Navy spelling alphabet. The CCBP documents contain material formerly published in US Army Field Manuals in the 24-series. Several of these documents had revisions, and were renamed. For instance, CCBP3-2 was the second edition of CCBP3.
During World War II, the US military conducted significant research into spelling alphabets. Major F. D. Handy, directorate of Communications in the Army Air Force, enlisted the help of Harvard University's Psycho-Acoustic Laboratory, asking them to determine the most successful word for each letter when using "military interphones in the intense noise encountered in modern warfare." He included lists from the US, Royal Air Force, Royal Navy, British Army, AT&T, Western Union, RCA Communications, and that of the International Telecommunications Convention. According to a report on the subject:
After World War II, with many aircraft and ground personnel from the allied armed forces, "Able Baker" was officially adopted for use in international aviation. During the 1946 Second Session of the ICAO Communications Division, the organization adopted the so-called "Able Baker" alphabet that was the 1943 US–UK spelling alphabet. However, many sounds were unique to English, so an alternative "Ana Brazil" alphabet was used in Latin America. In spite of this, International Air Transport Association, recognizing the need for a single universal alphabet, presented a draft alphabet to the ICAO during 1947 that had sounds common to English, French, Spanish and Portuguese.
From 1948 to 1949, Jean-Paul Vinay, a professor of linguistics at the Université de Montréal, worked closely with the ICAO to research and develop a new spelling alphabet. The directions of ICAO were that "To be considered, a word must:

Be a live word in each of the three working languages.
Be easily pronounced and recognized by airmen of all languages.
Have good radio transmission and readability characteristics.
Have a similar spelling in at least English, French, and Spanish, and the initial letter must be the letter the word identifies.
Be free from any association with objectionable meanings."

After further study and modification by each approving body, the revised alphabet was adopted on, to become effective on 1 April 1952 for civil aviation.
Problems were soon found with this list. Some users believed that they were so severe that they reverted to the old "Able Baker" alphabet. Confusion among words like Delta and Extra, and between Nectar and Victor, or the poor intelligibility of other words during poor receiving conditions were the main problems. Later in 1952, ICAO decided to revisit the alphabet and their research. To identify the deficiencies of the new alphabet, testing was conducted among speakers from 31 nations, principally by the governments of the United Kingdom and the United States. In the United States, the research was conducted by the USAF-directed Operational Applications Laboratory, to monitor a project with the Research Foundation of Ohio State University. Among the more interesting of the research findings was that "higher noise levels do not create confusion, but do intensify those confusions already inherent between the words in question".
By early 1956 the ICAO was nearly complete with this research, and published the new official phonetic alphabet in order to account for discrepancies that might arise in communications as a result of multiple alphabet naming systems coexisting in different places and organizations. NATO was in the process of adopting the ICAO spelling alphabet, and apparently felt enough urgency that it adopted the proposed new alphabet with changes based on NATO's own research, to become effective on 1 January 1956, but quickly issued a new directive on 1 March 1956 adopting the now official ICAO spelling alphabet, which had changed by one word from NATO's earlier request to ICAO to modify a few words based on US Air Force research.
After all of the above study, only the five words representing the letters C, M, N, U, and X were replaced. The ICAO sent a recording of the new Radiotelephony Spelling Alphabet to all member states in November 1955. The final version given in the [|table above] was implemented by the ICAO on, and the ITU adopted it no later than 1959 when they mandated its usage via their official publication, Radio Regulations. Because the ITU governs all international radio communications, it was also adopted by most radio operators, whether military, civilian, or amateur. It was finally adopted by the IMO in 1965.
During 1947 the ITU adopted the compound Latinate prefix-number words, later adopted by the IMO during 1965.

Nadazero – from Spanish or Portuguese nada + NATO/ICAO zero
Unaone – generic Romance una, from Latin ūna + NATO/ICAO one
Bissotwo – from Latin bis + NATO/ICAO two.
Terrathree – from Italian terzo + NATO/ICAO three
Kartefour – from French quatre + NATO/ICAO four
Pantafive – from Greek penta- + NATO/ICAO five
Soxisix – from French soix + NATO/ICAO six
Setteseven – from Italian sette + NATO/ICAO seven
Oktoeight – generic Romance octo-, from Latin octō + NATO/ICAO eight
Novenine – from Italian nove + NATO/ICAO nine

In the official version of the alphabet, two spellings deviate from the English norm: Alfa and Juliett. Alfa is spelled with an f as it is in most European languages because the spelling Alpha may not be pronounced properly by native speakers of some languages – who may not know that ph should be pronounced as f. The spelling Juliett is used rather than Juliet for the benefit of French speakers, because they may otherwise treat a single final t as silent. For similar reasons, Charlie and Uniform have alternative pronunciations where the ch is pronounced "sh" and the u is pronounced "oo". Early on, the NATO alliance changed X-ray to Xray in its version of the alphabet to ensure that it would be pronounced as one word rather than as two, while the global organization ICAO keeps the spelling X-ray.
The alphabet is defined by various international conventions on radio, including:

Universal Electrical Communications Union, Washington, D.C., December 1920
International Radiotelegraph Convention, Washington, 1927
General Radiocommunication and Additional Regulations
Instructions for the International Telephone Service, 1932
General Radiocommunication Regulations and Additional Radiocommunication Regulations
Radio Regulations and Additional Radio Regulations, where "it was decided that the International Civil Aviation Organization and other international aeronautical organizations would assume the responsibility for procedures and regulations related to aeronautical communication. However, ITU would continue to maintain general procedures regarding distress signals."
1959 Administrative Radio Conference
International Telecommunication Union, Radio
Final Acts of WARC-79. Here the alphabet was formally named "Phonetic Alphabet and Figure Code".
International Code of Signals for Visual, Sound, and Radio Communications, United States Edition, 1969