Vocoder

From Wikipedia, the free encyclopedia

A vocoder (name derived from voice encoder, formerly also called voder) is a speech analyzer and synthesizer. It was originally developed as a speech coder for telecommunications applications in the 1930s, the idea being to code speech for transmission. Its primary use in this fashion is for secure radio communication, where voice has to be digitized, encrypted and then transmitted on a narrow, voice-bandwidth channel. The vocoder has also been used extensively as an electronic musical instrument.

The vocoder is related to, but essentially different from, the computer algorithm known as the "phase vocoder".

Contents 1 How a vocoder works 1.1 Vocoder theory 1.2 Early vocoders 1.3 Linear prediction-based vocoders 1.4 Modern vocoder implementations 2 Musical applications 2.1 Musical history 2.2 Other voice effects 3 Television and film applications 4 See also 5 References 5.1 Cited references 6 See also 7 External links

[edit] How a vocoder works

[edit] Vocoder theory

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 not modified by the mouth in the same fashion.

The vocoder examines speech by finding this basic carrier wave, which is at the fundamental frequency, and measuring how its spectral characteristics are changed over time by recording someone speaking. This results in a series of numbers representing these modified frequencies at any particular time as the user speaks. In doing so, 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, creating the fundamental frequency in an oscillator, then passing it through a stage that filters the frequency content based on the originally recorded series of numbers.

[edit] Early vocoders

Most analog vocoder systems use a number of frequency channels, all tuned to different frequencies (using band-pass filters). The various values of these filters are stored not as the raw numbers, which are all based on the original fundamental frequency, but as a series of modifications to that fundamental needed to modify it into the signal seen in the output of that filter. During playback these settings are sent back into the filters and then added together, modified with the knowledge that speech typically varies between these frequencies in a fairly linear way. 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 eventually patented it in 1935. Dudley's vocoder was used in the SIGSALY system, which was built by Bell Labs engineers (Alan Turing was briefly involved) in 1943. The SIGSALY system was used for encrypted high-level communications during WW-II. Later work in this field has been conducted by James Flanagan.

[edit] Linear prediction-based vocoders

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. In contrast with vocoders realized using bandpass filter banks, the location of the linear predictor's spectral peaks is entirely determined by the target signal and need not be harmonic, i.e., a whole-number multiple of the basic frequency.

[edit] Modern vocoder implementations

Even with the need to record several frequencies, and the additional unvoiced sounds, the compression of the vocoder system is impressive. Standard systems to record speech record a frequency from about 500 Hz to 3400 Hz, where most of the frequencies used in speech lie, which requires 64kbit/s of bandwidth (the Nyquist rate). However a vocoder can provide a reasonably good simulation with as little as 2400 bit/s of bandwidth, a 26× improvement.

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, 32Kbit/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.)

[edit] Musical applications

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 guitar as the input to the filter bank, a technique that became popular in the 1970s.

[edit] Musical history

In 1970, electronic music pioneers Wendy Carlos and Robert Moog developed one of the first truly musical vocoders. 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 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. Originally, "Timesteps" was 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 the late 1970s, vocoder began to appear in pop music, for example on disco recordings. A typical example is Giorgio Moroder's 1977 album From Here to Eternity. Vocoders are often used to create the sound of a robot talking, as in the Styx song "Mr. Roboto". It was also used for the introduction to the Main Street Electrical Parade at Disneyland.

Vocoder has appeared on pop recordings from time to time ever since, but in most of cases vocoder works just as a some kind of special effect in pop music. However, many experimental electronic artists and representors of "new age" genre often utilize vocoder in a more comprehensive manner. Jean Michel Jarre (album Zoolook, 1984) and Mike Oldfield (album Five Miles Out, 1982) are good examples. There are also some artists who have made vocoder an essential part of their music. Those include the famous German group Kraftwerk,jazz/fusion keyboardist Herbie Hancock during his late 1970s disco period, Patrick Cowley's late recordings and more recently, avant-garde-pop group Trans Am. The song "O Superman" by avant-garde musician Laurie Anderson is a popular recording released in 1981 that incorporates the vocoder. The KLF used vocoder-distorted voices in their 1991 "Stadium House" mix Last Train to Trancentral (Live from the Lost Continent). In 1998, Marilyn Manson utilized the vocoder heavily in their glam- and 70s-influenced LP Mechanical Animals, whereon such songs as "User Friendly" and "Posthuman" among others make substantial use of the technology. Since 1998, Manson has favored the live concert use of vocoders and many concert-goers can hear him use the technology when performing many songs, notably, "Antichrist Superstar". The bands The Faint, Air, Ween, and Death From Above 1979 all have extensive use of the vocoder. Daron Malakian, guitarist of System of a Down has used a Vocoder in the songs Sugar, War?, and Old School Hollywood. The American power-pop four piece Hellogoodbye use a vocoder in the first track "All Of Your Love", from their debut album "Zombies! Aliens! Vampires! Dinosaurs!". Muse also used a vocoder on their latest album, Black Holes and Revelations, most notably on the song "Supermassive Black Hole'. French house duo Daft Punk are also very well-known for their use of vocoders for their songs that contain lyrics. Imogen Heap has also used the vocoder in her song "Hide and Seek," on her newly released record "Speak for yourself."

Legendary funk artist Prince recorded the vocals to his 2006 song "Incense and Candles" using a vocoder. This song can be heard on the album 3121.

Sam La More and GT's new wave / electro supergroup Tonite Only recorded their hits Danger (The Bomb) and Where The Party's At using a Clavia Nord Modular vocoder.

[edit] Other voice effects

"Robot voices" became a recurring element in popular music during the late twentieth century. Several methods of producing variations on this effect have arisen, of which the vocoder is only one. It is still the best known and most widely-used, though the following other pieces of music technology are often confused with the vocoder:

The Sonovox, Talk box, Autotuner, Linear predictive coding, Ring modulator, Speech synthesis, and Comb filter.

The sub-page Robotic voice effects includes more detailed comparisons.

[edit] Television and film applications

Vocoders have also been used in television and film, usually for robots or talking computers:

• One of the earliest film applications of vocoding can be heard in the flashback preludes of the 1949 movie A Letter to Three Wives.
• In Transformers, the vocal effects of Optimus Prime and Soundwave were created with vocoders.
• The Cylons from Battlestar Galactica used a Roland Vocoder to create their monotone voice.
• A vocoder was used by Wendy Carlos for the soundtrack to Stanley Kubrick's A Clockwork Orange, particularly the choirs in "An die Freude".
• In the film Sgt. Pepper's Lonely Heart Club Band, the robotic singing of the Computerettes in the song "Mean Mr. Mustard" was achieved by using a vocoder.
• A vocoder was used in the soundtrack for the movie Donnie Darko to create tension and mystery.
• The voices of the Daleks in Doctor Who are created using a ring modulator, not a vocoder.
• The 1981 UK Children's TV series Chockablock used a Vocoder in the title theme.
• The 1981 version of the Doctor Who opening theme has a section generated by a Vocoder. It is first obvious about 15 seconds into the theme.
• Vocoders were utilized extensively by The Electric Light Orchestra particularly on songs such as Mr. Blue Sky, The prologue from the 'Time' album, and The Diary of Horace Wimp, to name just a few.

[edit] See also

• Talk box
• Auto-Tune
• Speech synthesis

[edit] References

[edit] Cited references

[edit] See also

• List of music releases featuring a vocoder

[edit] External links

• Vocod'o'rama, an Analogue Vocoder Fan Site.
• Vocoders at Vintage Synth Explorer
• GPL implementation of a vocoder, as a LADSPA plugin
• Various links on compression of human speech
• Native Instruments Vokator popular plugin
• Excellent O'Reilly Article on Vocoders
• Review of a popular vocoder software product/plugin by Cezanne Huq, called fusion:Vocode.