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Development of Fibre Polymer Sensor Reeds for Saxophone and Clarinet

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  • citeproc.issued
    2016
  • citeproc.page
    291-294
  • citeproc.publisher
    Griffith University
  • citeproc.publisher-place
    Brisbane
  • citeproc.type
    chapter
  • cris.virtual.author-orcid
  • cris.virtual.department
    University of Music and Performing Arts Vienna
    University of Music and Performing Arts Vienna
    University of Music and Performing Arts Vienna
  • cris.virtual.orcid
    0000-0002-5410-4724
    0000-0002-7995-3175
  • cris.virtualsource.author-orcid
    1e0f23c4-0c17-4f50-9e8b-5688579e46c0
    cc76e541-5b33-4558-adeb-0bc5b415af2b
    f7c38861-658e-411f-a93c-bba5a45ad509
  • dc.contributor.author
    Hofmann, Alex
    Chatziioannou, Vasileios
    Mayer, Alexander
    Hartmann, Harry
  • dc.date.accessioned
    2024-05-28T16:35:19Z
  • dc.date.available
    2024-05-28T16:35:19Z
  • dc.date.issued
    2016
  • dc.description.abstract
    Electronic pickup systems for acoustic instruments are often used in popular and contemporary music performances because they allow amplification and modification of a clean and direct signal. Strain gauge sensors on saxophone and clarinet reeds have been shown to be a useful tool to gain insight into tongue articulation during performance but also capture the reed vibrations. In our previous design, we used a procedure with cyanacrylate adhesive to glue the strain gauge sensors to the flat side of the synthetic single reeds. The new design integrates the sensor inside a synthetic reed, respectively between layers of fibre polymer and wood. This allows an industrial production of sensor reeds. Sensor reeds open up new possibilities to pick up woodwind instruments and to analyse, to modify, and to amplify the signal. A signal-to-noise analysis of the signals from both designs showed that a sensor, glued to the outside of the reed, produced a cleaner signal.
  • dc.description.provenance
    Submitted by repo admin (repo-admin@mdw.ac.at) on 2024-05-28T16:35:19Z workflow start=Step: checkcorrectionstep - action:noUserSelectionAction No. of bitstreams: 0
    Made available in DSpace on 2024-05-28T16:35:19Z (GMT). No. of bitstreams: 0 Previous issue date: 2016
  • dc.identifier.uri
    https://dspace.mdw.ac.at/handle/123456789/5627
  • dc.language.iso
    en
  • dc.relation.uri
    http://www.nime.org/archives/
  • dc.rights.license
    CC-BY-4.0
  • dc.subject
    Single reeds
    Synthetics
    Sensors
    Saxophone
    Clarinet
  • dc.title
    Development of Fibre Polymer Sensor Reeds for Saxophone and Clarinet
  • dc.type
    text::conference output
  • dcat.theme
    EDUC
  • dspace.entity.type
    Publication
  • mdwlis.institutionalBibliography.citation
    Hofmann, Alex; Chatziioannou, Vasileios; Mayer, Alexander; Hartmann, Harry: Development of Fibre Polymer Sensor Reeds for Saxophone and Clarinet. In: Brown, Andrew (Hg.): Proceedings of the NIME 2016. NIME 2016. Brisbane: Griffith University 2016, S. 291-294 [online verfügbar: http://www.nime.org/archives/].
  • mdwlis.institutionalBibliography.publicationType
    erstveröffentlichte Beiträge in Sammelwerken
  • mdwlis.institutionalBibliography.subject
    Computermusik
  • mdwlis.institutionalBibliography.subject3
    705
  • mdwlis.institutionalBibliography.subject4
    7050
  • mdwlis.institutionalBibliography.subject5
    10048
  • mdwlis.institutionalBibliography.year
    2016
  • mdwlis.mdwonline.identifier
    53487
  • mdwlis.publication.firstRelease
    Ja
  • mdwlis.publication.mdwAttribution
    Ja, mdw wird im Kontext der Publikation genannt
  • mdwlis.publication.status
    veröffentlicht
  • mdwrepo.ancestors
    LIS > Publikationen > Bibliographischer Nachweis
    LIS > Publikationen > Publications
  • mdwrepo.hasTopCommunity
    LIS
  • oairecerif.author.affiliation
    University of Music and Performing Arts Vienna
    University of Music and Performing Arts Vienna
    University of Music and Performing Arts Vienna
    Fiberreed