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A vocoder (//, short for voice encoder) is an analysis and synthesis system, used to reproduce human speech. The vocoder was originally developed as a speech coder for telecommunications applications in the 1930s, the idea being to code speech for transmission.
In the encoder, the input is passed through a multiband filter, each band is passed through an envelope follower, and the control signals from the envelope followers are communicated to the decoder. The decoder applies these (amplitude) control signals to corresponding filters in the synthesizer. Since the control signals change only slowly compared to the original speech waveform, the bandwidth required to transmit speech can be reduced. This allows more speech channels to share a radio circuit or submarine cable.
By encrypting the control signals, voice transmission can be secured against interception. Its primary use in this fashion is for secure radio communication. The advantage of this method of encryption is that none of the original signal is sent, but rather envelopes of the bandpass filters. The receiving unit needs to be set up in the same filter configuration to resynthesize a version of the original signal spectrum.
The human voice consists of sounds generated by the opening and closing of the glottis by the vocal cords, which produces a periodic waveform with many harmonics. This basic sound is then filtered by the nose and throat (a complicated resonant piping system) to produce differences in harmonic content (formants) in a controlled way, creating the wide variety of sounds used in speech. There is another set of sounds, known as the unvoiced and plosive sounds, which are created or modified by the mouth in different fashions.
The vocoder examines speech by measuring how its spectral characteristics change over time. This results in a series of signals representing these modified frequencies at any particular time as the user speaks. In simple terms, the signal is split into a number of frequency bands (the larger this number, the more accurate the analysis) and the level of signal present at each frequency band gives the instantaneous representation of the spectral energy content. Thus, the vocoder dramatically reduces the amount of information needed to store speech, from a complete recording to a series of numbers. To recreate speech, the vocoder simply reverses the process, processing a broadband noise source by passing it through a stage that filters the frequency content based on the originally recorded series of numbers. Information about the instantaneous frequency (as distinct from spectral characteristic) of the original voice signal is discarded; it wasn't important to preserve this for the purposes of the vocoder's original use as an encryption aid, and it is this "dehumanizing" quality of the vocoding process that has made it useful in creating special voice effects in popular music and audio entertainment.
Since the vocoder process sends only the parameters of the vocal model over the communication link, instead of a point by point recreation of the waveform, it allows a significant reduction in the bandwidth required to transmit speech.
Analog vocoders typically analyze an incoming signal by splitting the signal into a number of tuned frequency bands or ranges. A modulator and carrier signal are sent through a series of these tuned bandpass filters. In the example of a typical robot voice the modulator is a microphone and the carrier is noise or a sawtooth waveform. There are usually between 8 and 20 bands.
The amplitude of the modulator for each of the individual analysis bands generates a voltage that is used to control amplifiers for each of the corresponding carrier bands. The result is that frequency components of the modulating signal are mapped onto the carrier signal as discrete amplitude changes in each of the frequency bands.
Often there is an unvoiced band or sibilance channel. This is for frequencies outside of analysis bands for typical speech but still important in speech. Examples are words that start with the letters s, f, ch or any other sibilant sound. These can be mixed with the carrier output to increase clarity. The result is recognizable speech, although somewhat "mechanical" sounding. Vocoders also often include a second system for generating unvoiced sounds, using a noise generator instead of the fundamental frequency.
The first experiments with a vocoder were conducted in 1928 by Bell Labs engineer Homer Dudley, who was granted a patent for it on March 21, 1939. The Voder (Voice Operating Demonstrator), was introduced to the public at the AT&T building at the 1939–1940 New York World's Fair. The Voder consisted of a series of manually controlled oscillators, filters, and a noise source. The filters were controlled by a set of keys and a foot pedal to convert the hisses and tones into vowels, consonants, and inflections. This was a complex machine to operate, but with a skilled operator could produce recognizable speech.[media 1]
Dudley's vocoder was used in the SIGSALY system, which was built by Bell Labs engineers in 1943. SIGSALY was used for encrypted high-level voice communications during World War II. Later work in this field has been conducted by James Flanagan.
- Terminal equipment for Digital Mobile Radio (DMR) based systems.
- Digital Trunking
- DMR TDMA
- Digital Voice Scrambling and Encryption
- Digital WLL
- Voice Storage and Playback Systems
- Messaging Systems
- VoIP Systems
- Voice Pagers
- Regenerative Digital Voice Repeaters
- Cochlear Implants
- Musical and other artistic effects
Even with the need to record several frequencies, and additional unvoiced sounds, the compression of vocoder systems is impressive. Standard speech-recording systems capture frequencies from about 500 Hz to 3400 Hz, where most of the frequencies used in speech lie, typically using a sampling rate of 8 kHz (slightly greater than the Nyquist rate). The sampling resolution is typically at least 12 or more bits per sample resolution (16 is standard), for a final data rate in the range of 96–128 kbit/s, but a good vocoder can provide a reasonably good simulation of voice with as little as 2.4 kbit/s of data.
'Toll Quality' voice coders, such as ITU G.729, are used in many telephone networks. G.729 in particular has a final data rate of 8 kbit/s with superb voice quality. G.723 achieves slightly worse quality at data rates of 5.3 kbit/s and 6.4 kbit/s. Many voice vocoder systems use lower data rates, but below 5 kbit/s voice quality begins to drop rapidly.
Several vocoder systems are used in NSA encryption systems:
- LPC-10, FIPS Pub 137, 2400 bit/s, which uses linear predictive coding
- Code-excited linear prediction (CELP), 2400 and 4800 bit/s, Federal Standard 1016, used in STU-III
- Continuously variable slope delta modulation (CVSD), 16 kbit/s, used in wide band encryptors such as the KY-57.
- Mixed-excitation linear prediction (MELP), MIL STD 3005, 2400 bit/s, used in the Future Narrowband Digital Terminal FNBDT, NSA's 21st century secure telephone.
- Adaptive Differential Pulse Code Modulation (ADPCM), former ITU-T G.721, 32 kbit/s used in STE secure telephone
(ADPCM is not a proper vocoder but rather a waveform codec. ITU has gathered G.721 along with some other ADPCM codecs into G.726.)
Modern vocoders that are used in communication equipment and in voice storage devices today are based on the following algorithms:
- Algebraic code-excited linear prediction (ACELP 4.7 kbit/s – 24 kbit/s)
- Mixed-excitation linear prediction (MELPe 2400, 1200 and 600 bit/s)
- Multi-band excitation (AMBE 2000 bit/s – 9600 bit/s)
- Sinusoidal-Pulsed Representation (SPR 600 bit/s – 4800 bit/s)
- Robust Advanced Low-complexity Waveform Interpolation (RALCWI 2050bit/s, 2400bit/s and 2750bit/s)
- Tri-Wave Excited Linear Prediction (TWELP 600 bit/s – 9600 bit/s)
- Noise Robust Vocoder (NRV 300 bit/s and 800 bit/s)
Since the late 1970s, most non-musical vocoders have been implemented using linear prediction, whereby the target signal's spectral envelope (formant) is estimated by an all-pole IIR filter. In linear prediction coding, the all-pole filter replaces the bandpass filter bank of its predecessor and is used at the encoder to whiten the signal (i.e., flatten the spectrum) and again at the decoder to re-apply the spectral shape of the target speech signal.
One advantage of this type of filtering is that the location of the linear predictor's spectral peaks is entirely determined by the target signal, and can be as precise as allowed by the time period to be filtered. This is in contrast with vocoders realized using fixed-width filter banks, where spectral peaks can generally only be determined to be within the scope of a given frequency band. LP filtering also has disadvantages in that signals with a large number of constituent frequencies may exceed the number of frequencies that can be represented by the linear prediction filter. This restriction is the primary reason that LP coding is almost always used in tandem with other methods in high-compression voice coders.
Waveform-Interpolative (WI) vocoder was developed in AT&T Bell Laboratories around 1995 by W.B. Kleijn, and subsequently a low- complexity version was developed by AT&T for the DoD secure vocoder competition. Notable enhancements to the WI coder were made at the University of California, Santa Barbara. AT&T holds the core patents related to WI, and other institutes hold additional patents. Using these patents as a part of WI coder implementation requires licensing from all IPR holders.
Uses in music
For musical applications, a source of musical sounds is used as the carrier, instead of extracting the fundamental frequency. For instance, one could use the sound of a synthesizer as the input to the filter bank, a technique that became popular in the 1970s.
Werner Meyer-Eppler, a German scientist with a special interest in electronic voice synthesis, published a thesis in 1948 on electronic music and speech synthesis from the viewpoint of sound synthesis, and later he was instrumental in the founding in 1951 of the Studio for Electronic Music of WDR in Cologne.
In 1968, Bruce Haack built a prototype vocoder, named "Farad" after Michael Faraday, and it was first featured on "The Electronic Record For Children" released in 1969 and then on his rock album The Electric Lucifer released in 1970.[media 3]
In 1970 Wendy Carlos and Robert Moog built another musical vocoder, a 10-band device inspired by the vocoder designs of Homer Dudley. It was originally called a spectrum encoder-decoder, and later referred to simply as a vocoder. The carrier signal came from a Moog modular synthesizer, and the modulator from a microphone input. The output of the 10-band vocoder was fairly intelligible, but relied on specially articulated speech. Later improved vocoders[by whom?] use a high-pass filter to let some sibilance through from the microphone; this ruins the device for its original speech-coding application, but it makes the "talking synthesizer" effect much more intelligible.
Carlos and Moog's vocoder was featured in several recordings, including the soundtrack to Stanley Kubrick's A Clockwork Orange in which the vocoder sang the vocal part of Beethoven's "Ninth Symphony". Also featured in the soundtrack was a piece called "Timesteps," which featured the vocoder in two sections. "Timesteps" was originally intended as merely an introduction to vocoders for the "timid listener", but Kubrick chose to include the piece on the soundtrack, much to the surprise of Wendy Carlos.
In 1972, Isao Tomita's first electronic music album Electric Samurai: Switched on Rock was an early attempt at applying speech synthesis technique  in electronic rock and pop music. The album featured electronic renditions of contemporary rock and pop songs, while utilizing synthesized voices in place of human voices. In 1974, he utilized synthesized voices again in his popular classical music album Snowflakes are Dancing, which became a worldwide success and helped popularize electronic music. Emerson Lake and Palmer used it for the album Brain Salad Surgery 1973. 
Kraftwerk's Autobahn (1974) was one of the first successful albums to feature vocoder vocals. Another of the early songs to feature a vocoder was "The Raven" on the 1976 album Tales of Mystery and Imagination by progressive rock band The Alan Parsons Project; the vocoder also was used on later albums such as I Robot. Following Alan Parsons' example, vocoders began to appear in pop music in the late 1970s, for example, on disco recordings. Jeff Lynne of Electric Light Orchestra used the vocoder in several albums such as Time (featuring the Roland VP-330 Plus MkI). ELO songs such as "Mr. Blue Sky" and "Sweet Talkin' Woman" both from Out of the Blue (1977) use the vocoder extensively as does "The Diary of Horace Wimp" from the album Discovery (1979). Featured on the album are the EMS Vocoder 2000W MkI, and the EMS Vocoder (-System) 2000 (W or B, MkI or II).
Classic example of a singing vocoded voice.
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A vocoder was used by Jo Partridge to produce the Martian's unearthly exultations of "Ulla" in the 1978 Concept album Jeff Wayne's Musical Version of The War of the Worlds.
The vocoder has been used at the start and end of the Main Street Electrical Parade at Disneyland and Walt Disney World since 1979.
Vocoders have appeared on pop recordings from time to time ever since, most often simply as a special effect rather than a featured aspect of the work. However, many experimental electronic artists of the new-age music genre often utilize vocoder in a more comprehensive manner in specific works, such as Jean Michel Jarre (on Zoolook, 1984) and Mike Oldfield (on QE2, 1980 and Five Miles Out, 1982). There are also some artists who have made vocoders an essential part of their music, overall or during an extended phase. Examples include the German synthpop group Kraftwerk, Stevie Wonder ("Send One Your Love", "A Seed's a Star") and jazz/fusion keyboardist Herbie Hancock during his late 1970s period. In 1982 Neil Young used a Sennheiser Vocoder VSM201 on six of the nine tracks on Trans. Tommy James used a Vocoder in the production of his group's (the Shondells) 1968 number one hit 'Crimson and Clover'. Perhaps the most heard, yet often unrecognized, example of the use of a vocoder in popular music, is on Michael Jackson's 1982 album Thriller, in the song "P.Y.T. (Pretty Young Thing)". During the first few seconds of the song, the background voicings "ooh-ooh, ooh, ooh", behind his spoken words, exemplify the heavily modulated sound of his voice through a Vocoder. The bridge also features a vocoder as well ("Pretty young thing/You make me sing"), courtesy of session musician Michael Boddicker.
Coldplay have used a vocoder in some of their songs. For example in "Major Minus" and "Hurts Like Heaven", both from the album Mylo Xyloto (2011), Chris Martin's vocals are mostly vocoder-processed. "Midnight", from Ghost Stories (2014), also features Martin singing through a vocoder; in "O", from the same album, Martin can be heard repeating "Don't ever let go" into a vocoder.
Noisecore band Atari Teenage Riot have used Vocoders in variety of their songs and live performances such as Live at the Brixton Academy (2002) alongside other digital audio technology both old and new.
Among the most consistent uses of vocoder in emulating the human voice are Daft Punk, who have used this instrument from their first album Homework (1997) to their latest work Random Access Memories (2013) and consider the convergence of technological and human voice "the identity of their musical project". For instance, the lyrics of "Around the World" (1997) are integrally vocoder-processed, "Get Lucky" (2013) features a mix of natural and processed human voices, and "Instant Crush" (2013) features Julian Casablancas singing into a vocoder.
Voice effects in other arts
"Robot voices" became a recurring element in popular music during the 20th century. Apart from vocoders, several other methods of producing variations on this effect include: the Sonovox, Talk box, and Auto-Tune,[media 4] linear prediction vocoders, speech synthesis, [media 5][media 6] ring modulation and comb filter.
Demonstration of the "robotic voice" effect found in film and television.
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Vocoders are used in television production, filmmaking and games, usually for robots or talking computers. The robot voices of the Cylons in Battlestar Galactica were created with an EMS Vocoder 2000. The 1980 version of the Doctor Who theme, as arranged and recorded by Peter Howell, has a section of the main melody generated by a Roland SVC-350 Vocoder. A vocoder was also used to create the iconic voice of Soundwave, a character from the Transformers series.
In 1967 the Supermarionation series Captain Scarlet and the Mysterons  to supply the deep, eerie threatening voice of the disembodied Mysterons and well as the bass tones for the Spectrum agent Captain Black when he is seized under their telepathic control. It was also used in the closing credits theme, of the first 13 episodes to provide the synthetic repetition of the words "Captain Scarlet".
- for musical applications
- "HY-2 Vocoder". Crypto Machines.
- US apprication 2151091, Homer Dudley, "Signal Transmission", published May 21, 1939, assigned to Bell Telephone Laboratories, Inc. (filed October 30, 1935)
- "The ‘Voder’ & ‘Vocoder’ Homer Dudley, USA,1940". 120 Years of Electronic Music (120years.net).
The Vocoder (Voice Operated reCorDER) and Voder (Voice Operation DEmonstratoR) developed by the research physicist Homer Dudley, ... The Voder was first unveiled in 1939 at the New York World Fair (where it was demonstrated at hourly intervals) and later in 1940 in San Francisco. There were twenty trained operators known as the ‘girls’ who handled the machine much like a musical instrument such as a piano or an organ, ... This was done by manipulating fourteen keys with the fingers, a bar with the left wrist and a foot pedal with the right foot.
- "Voice Age" (LICENSING). VoiceAge Corporation.
- "MELPe - FAQ". Compandent Inc.
- "IMBE™ and AMBE®". Digital Voice Systems, Inc.
- "SPR Vocoders". DSP Innovations Inc.
- "RALCWI Vocoder IC's". CML Microcircuits. CML Microsystems Plc.
- "TWELP™ Vocoder". DSP Innovations Inc.
- "Noise Rubust Vocoders". Raytheon BBN Technologies. Archived from the original on 2014-04-02.
- Kleijn, W.B.; Haagen, J.; (AT&T Bell Labs., Murray Hill, NJ). "A speech coder based on decomposition of characteristic waveforms". IEEE 1995 International Conference on Acoustics, Speech, and Signal Processing, 1995. ICASSP-95. doi:10.1109/ICASSP.1995.479640.
- Kleijn, W.B.; Shoham, Y.; Sen, D.; Hagen, R.; (AT&T Bell Labs., Murray Hill, NJ). "A low-complexity waveform interpolation coder". IEEE ICASSP 1996. doi:10.1109/ICASSP.1996.540328.
- Gottesman, O.; Gersho, A.; (Dept. of Electr. & Comput. Eng., California Univ., Santa Barbara, CA). "Enhanced waveform interpolative coding at low bit-rate". IEEE Transactions on Speech and Audio Processing (November 2001). doi:10.1109/89.966082.
- Meyer-Eppler, Werner (1949), Elektronische Klangerzeugung: Elektronische Musik und synthetische Sprache, Bonn: Ferdinand Dümmlers
- Sonja Diesterhöft (2003), "Meyer-Eppler und der Vocoder", Seminars Klanganalyse und -synthese (in German) (Fachgebiet Kommunikationswissenschaft, Institut für Sprache und Kommunikation, Berlin Institute of Technology), archived from the original on 2008-03-05
- "Das Siemens-Studio für elektronische Musik von Alexander Schaaf und Helmut Klein" (in German). Deutsches Museum.
- Holmes, Thom (2012). "Early Synthesizers and Experimenters". Electronic and Experimental Music: Technology, Music, and Cluture (4th ed.). Routledge. pp. 190–192. ISBN 978-1-136-46895-7.
(See also excerpt of pp. 157–160 from the 3rd edition in 2008 (ISBN 978-0-415-95781-6))
- Bode, Harald (October 1984). "History of Electronic Sound Modification". J. of Audio Engineering Society 32 (10): 730–739.
- BRUCE HAACK – FARAD: THE ELECTRIC VOICE (Media notes). Bruce Haack. Stones Throw Records LLC. 2010.
- "Bruce Haack's Biography 1965-1974". Bruce Haack Publishing.
- Jenkins, Mark (2007), Analog synthesizers: from the legacy of Moog to software synthesis, Elsevier, pp. 133–4, ISBN 0-240-52072-6, retrieved 2011-05-27
- Flans, Robyn (5 January 2005). "Classic Tracks: Phil Collins' "In the Air Tonight"". Mix Online. Retrieved 25 February 2015.
- Tompkins, Dave (2010–2011). How to Wreck a Nice Beach: The Vocoder from World War II to Hip-Hop, The Machine Speaks. Melville House. ISBN 978-1-933633-88-6 (2010), ISBN 978-1-61219-093-8 (2011).
- "The Vocoder: From Speech-Scrambling To Robot Rock". NPR Music. May 13, 2010.
- "Midnight is amazing! But it sounds like Chris's voice has autotune in some parts. I thought Coldplay doesn't use autotune?". Coldplay "Oracle". 5 March 2014. Retrieved 25 March 2014.
- "Daft Punk: «La musique actuelle manque d'ambition»" (INTERVIEW). Le Figaro. May 3, 2013.
- Multimedia references
- One Of The First Vo(co)der Machine (Motion picture). c. 1939.
A demonstration of Voder (not Vocoder).
- Siemens Electronic Music Studio in Deutsches Museum (multi part) (Video).
Details of the Siemens Electronic Music Studio, exhibited at the Deutsches Museum.
- Bruce Haack (1970). Electric to Me Turn – from "The Electric Lucifer" (Phonograph). Columbia Records.
A sample of earlier Vocoder.
- T-Pain (2005). I'm Sprung (CD Single/Download). Jive Records.
A sample of Auto-Tune effect (a.k.a. T-Pain effect).
- Earlier Computer Speech Synthesis (Audio). AT&T Bell Labs. c. 1961.
A sample of earlier computer based speech synthesis and song synthesis, by John Larry Kelly, Jr. and Louis Gerstman at Bell Labs, using IBM 704 computer. The demo song “Daisy Bell”, musical accompanied by Max Mathews, impressed Arthur C. Clarke and later he used it in the climactic scene of screenplay for his novel 2001: A Space Odyssey.
- TI Speak & Spell (Video). Texas Instruments. c. 1980.
A sample of speech synthesis.
- "How Vocoders Work" from PAIA
- Penn State – basic voder/vocoder operation with simple diagrams
- Description, photographs, and diagram for the vocoder at 120years.net
- Vokator Tutorial. Description of a modern Vocoder.
- GPL implementation of a vocoder, as a LADSPA plugin
- O'Reilly Article on Vocoders
- Object of Interest: The Vocoder The New Yorker Magazine mini documentary