Voder: Difference between revisions

Content deleted Content added

Inline

Revision as of 05:59, 31 May 2013

The Bell Telephone Laboratory's Voder was the first attempt to electronically synthesize human speech by breaking it down into its acoustic components. It was invented by Homer Dudley in 1937‒1938 and developed on his earlier work on the vocoder. The quality of the speech was limited; however, it demonstrated the synthesis of the human voice, which became one component of the vocoder used in voice communications for security and to save bandwidth.^[1]

The Voder synthesized human speech by imitating the effects of the human vocal tract. The operator could select one of two basic sounds by using a wrist bar. A buzz tone generated by a relaxation oscillator produced the voiced vowels and nasal sounds, with the pitch controlled by a foot pedal. A hissing noise produced by a gas discharge tube created the sibilants (voicesless frictive sounds). These initial sounds were passed through a bank of 10 band pass filters that were selected by keys; their outputs were combined, amplified and fed to a loudspeaker. The filters were controlled by a set of keys and a foot pedal to convert the hisses and tones into vowels, consonants, and inflections. Additional special keys were provided to make the plosive sounds such as "p" or "d", and the affrictive sounds of the "j" in "jaw" and the "ch" in "cheese". This was a complex machine to operate. After months of practice, a trained operator could produce recognizable speech.^[1]

Performances on the Voder were featured at the 1939 New York World's Fair and in San Francisco. Twenty operators were trained, with Mrs. Helen Harper particularly noted for her skill with the machine.

The Voder was developed from research into compression schemes for transmission of voice on copper wires and for voice encryption. In 1948 Werner Meyer-Eppler^[2] recognized the capability of the Voder machine to generate electronic music, as described in Dudley's patent.

References

^ ^a ^b Ben Gold, Nelson Morgan, Dan Ellis ,Speech and Audio Signal Processing: Processing and Perception of Speech and Music John Wiley & Sons, 2011 ISBN 1118142918, pages 9-13
^ Sonja Diesterhöft (2003), "Meyer-Eppler und der Vocoder", Seminars Klanganalyse und -synthese (in Germany), Fachgebiet Kommunikationswissenschaft, Institut für Sprache und Kommunikation, Berlin Institute of Technology, archived from the original on 2008-03-05 {{citation}}: External link in |publisher= (help)CS1 maint: unrecognized language (link)

Patent June 21, 1938 (US#2,121,142) for "System for the artificial production of vocal or other sounds".

External links

http://www.davidszondy.com/future/robot/voder.htm The Voder - has photos and block diagrams

[Gold11-1] Ben Gold, Nelson Morgan, Dan Ellis ,Speech and Audio Signal Processing: Processing and Perception of Speech and Music John Wiley & Sons, 2011 ISBN 1118142918, pages 9-13

[meyer-eppler-2] Sonja Diesterhöft (2003), "Meyer-Eppler und der Vocoder", Seminars Klanganalyse und -synthese (in Germany), Fachgebiet Kommunikationswissenschaft, Institut für Sprache und Kommunikation, Berlin Institute of Technology, archived from the original on 2008-03-05 {{citation}}: External link in |publisher= (help)CS1 maint: unrecognized language (link)

[1]

[2]

Revision as of 20:09, 14 May 2013 edit BDD (talk \| contribs) Autopatrolled, Administrators 111,714 edits m cleanup after move ← Previous edit		Revision as of 05:59, 31 May 2013 edit undo Catdude (talk \| contribs) Pending changes reviewers 2,767 edits m punc fix Next edit →
Line 1:		Line 1:
	The [[Bell Labs\|Bell Telephone Laboratory's]] '''Voder''' was the first attempt to electronically [[Speech synthesis\|synthesize human speech]] by breaking it down into its acoustic components. It was invented by [[Homer Dudley]] in ~~1937-1938~~ and developed on his earlier work on the [[vocoder]]. The quality of the speech was limited; however, it demonstrated the synthesis of the human voice, which became one component of the vocoder used in voice communications for security and to save bandwidth.<ref name=Gold11>Ben Gold, Nelson Morgan, Dan Ellis ,''Speech and Audio Signal Processing: Processing and Perception of Speech and Music '' John Wiley & Sons, 2011 ISBN 1118142918, pages 9-13</ref>		The [[Bell Labs\|Bell Telephone Laboratory's]] '''Voder''' was the first attempt to electronically [[Speech synthesis\|synthesize human speech]] by breaking it down into its acoustic components. It was invented by [[Homer Dudley]] in 1937‒1938 and developed on his earlier work on the [[vocoder]]. The quality of the speech was limited; however, it demonstrated the synthesis of the human voice, which became one component of the vocoder used in voice communications for security and to save bandwidth.<ref name=Gold11>Ben Gold, Nelson Morgan, Dan Ellis ,''Speech and Audio Signal Processing: Processing and Perception of Speech and Music '' John Wiley & Sons, 2011 ISBN 1118142918, pages 9-13</ref>

	The Voder synthesized human speech by imitating the effects of the human [[vocal tract]]. The operator could select one of two basic sounds by using a wrist bar. A buzz tone generated by a [[relaxation oscillator]] produced the voiced vowels and nasal sounds, with the pitch controlled by a foot pedal. A hissing noise produced by a gas discharge tube created the sibilants (voicesless [[Fricative consonant\|frictive sounds]]). These initial sounds were passed through a bank of 10 [[band pass filter]]s that were selected by keys; their outputs were combined, amplified and fed to a loudspeaker. The filters were controlled by a set of keys and a foot pedal to convert the hisses and tones into vowels, consonants, and inflections. Additional special keys were provided to make the [[plosive]] sounds such as "p" or "d", and the [[Affricate consonant\|affrictive sounds]] of the "j" in "jaw" and the "ch" in "cheese". This was a complex machine to operate. After months of practice, a trained operator could produce recognizable speech.<ref name=Gold11/>		The Voder synthesized human speech by imitating the effects of the human [[vocal tract]]. The operator could select one of two basic sounds by using a wrist bar. A buzz tone generated by a [[relaxation oscillator]] produced the voiced vowels and nasal sounds, with the pitch controlled by a foot pedal. A hissing noise produced by a gas discharge tube created the sibilants (voicesless [[Fricative consonant\|frictive sounds]]). These initial sounds were passed through a bank of 10 [[band pass filter]]s that were selected by keys; their outputs were combined, amplified and fed to a loudspeaker. The filters were controlled by a set of keys and a foot pedal to convert the hisses and tones into vowels, consonants, and inflections. Additional special keys were provided to make the [[plosive]] sounds such as "p" or "d", and the [[Affricate consonant\|affrictive sounds]] of the "j" in "jaw" and the "ch" in "cheese". This was a complex machine to operate. After months of practice, a trained operator could produce recognizable speech.<ref name=Gold11/>

Revision as of 05:59, 31 May 2013

See also

References

External links