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A digital artificial reverberation algorithm is presented, based on a full-time domain simulation of plate vibration. As such it may be considered to be a physical model plate reverberation, a popular means of processing audio signals in the days of analog production. A small number of parameters are available to the user, to be used to tune the plate response, in a means analogous to that for the acoustic plate reverberation unit. Such parameters include stiffness, aspect ratio, tension, and two-parameter loss. A variety of other possibilities are opened up, including multichannel input and output, possibly over time-varying locations, and various types of boundary termination. The complete numerical method is presented, along with a discussion of implementation details and computational complexity (which is near real time). Numerical results and sound examples are also presented.
Author (s): Bilbao, Stefan
Affiliation:
Acoustics and Fluid Dynamics Group, University of Edinburgh, Edinburgh, UK
(See document for exact affiliation information.)
Publication Date:
2007-03-06
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Bilbao, Stefan; 2007; A Digital Plate Reverberation Algorithm [PDF]; Acoustics and Fluid Dynamics Group, University of Edinburgh, Edinburgh, UK; Paper ; Available from: https://aes2.org/publications/elibrary-page/?id=14153
Bilbao, Stefan; A Digital Plate Reverberation Algorithm [PDF]; Acoustics and Fluid Dynamics Group, University of Edinburgh, Edinburgh, UK; Paper ; 2007 Available: https://aes2.org/publications/elibrary-page/?id=14153