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Audio reconstruction of mechanically recorded sound by digital processing of metrological data

Audio reconstruction of mechanically recorded sound by digital processing of metrological data
Audio reconstruction of mechanically recorded sound by digital processing of metrological data
For much of recorded sound history, audio information was stored on mechanical media, such as a phonograph disc record or cylinder, through undulations of the surface structure (grooves). The groove shape and position can be reconstructed without mechanical contact using precision optical metrology tools. The surface map thus obtained can be digitally processed to remove noise artifacts due to debris, damage and wear, and to convert the groove positional information into audio data. The viability of this approach was recently demonstrated on a 78 rpm shellac disk using two dimensional image capture and analysis methods and further developments are reported. A three dimensional reconstruction of mechanically recorded sound has been recently completed. The surface of the source material, a celluloid cylinder, was scanned using confocal microscopy methods and resulted in a faithful playback of the recorded information. These results are discussed. The approach holds promise for the reconstruction of valuable historical recordings, using full surface information to improve the sound fidelity, and eventually as a means of automated mass preservation. Fast processing is required for the latter application. Methods to accelerate the scan rates and make these techniques practical for use at working archives are discussed.
Fadeyev, Vitaliy
a866cd97-e673-49be-92de-901d44a554a9
Haber, Carl
aa90ff92-de35-45ce-a0ab-556c83aa4535
Radding, Zachary
4fbbc4eb-8a3f-4fc7-b6b4-c3be02e21b66
Maul, Christian
c19cb80b-1d13-451d-83df-36f244f9d9db
McBride, John
d9429c29-9361-4747-9ba3-376297cb8770
Golden, Mitchell
d58d84b6-70da-4c3b-bb05-dbaa62d4f638
Fadeyev, Vitaliy
a866cd97-e673-49be-92de-901d44a554a9
Haber, Carl
aa90ff92-de35-45ce-a0ab-556c83aa4535
Radding, Zachary
4fbbc4eb-8a3f-4fc7-b6b4-c3be02e21b66
Maul, Christian
c19cb80b-1d13-451d-83df-36f244f9d9db
McBride, John
d9429c29-9361-4747-9ba3-376297cb8770
Golden, Mitchell
d58d84b6-70da-4c3b-bb05-dbaa62d4f638

Fadeyev, Vitaliy, Haber, Carl, Radding, Zachary, Maul, Christian, McBride, John and Golden, Mitchell (2004) Audio reconstruction of mechanically recorded sound by digital processing of metrological data. Electronic Media Group: AIC Annual Meeting 2004, Portland, USA. 08 - 13 Jun 2004. 9 pp .

Record type: Conference or Workshop Item (Paper)

Abstract

For much of recorded sound history, audio information was stored on mechanical media, such as a phonograph disc record or cylinder, through undulations of the surface structure (grooves). The groove shape and position can be reconstructed without mechanical contact using precision optical metrology tools. The surface map thus obtained can be digitally processed to remove noise artifacts due to debris, damage and wear, and to convert the groove positional information into audio data. The viability of this approach was recently demonstrated on a 78 rpm shellac disk using two dimensional image capture and analysis methods and further developments are reported. A three dimensional reconstruction of mechanically recorded sound has been recently completed. The surface of the source material, a celluloid cylinder, was scanned using confocal microscopy methods and resulted in a faithful playback of the recorded information. These results are discussed. The approach holds promise for the reconstruction of valuable historical recordings, using full surface information to improve the sound fidelity, and eventually as a means of automated mass preservation. Fast processing is required for the latter application. Methods to accelerate the scan rates and make these techniques practical for use at working archives are discussed.

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More information

Published date: June 2004
Venue - Dates: Electronic Media Group: AIC Annual Meeting 2004, Portland, USA, 2004-06-08 - 2004-06-13
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Identifiers

Local EPrints ID: 22866
URI: http://eprints.soton.ac.uk/id/eprint/22866
PURE UUID: db8c5092-e2c7-4612-ae9d-56e5a5fe9241
ORCID for John McBride: ORCID iD orcid.org/0000-0002-3024-0326

Catalogue record

Date deposited: 28 Mar 2006
Last modified: 12 Mar 2022 02:33

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Contributors

Author: Vitaliy Fadeyev
Author: Carl Haber
Author: Zachary Radding
Author: Christian Maul
Author: John McBride ORCID iD
Author: Mitchell Golden

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