This paper presents a time-domain technique based solely on simple operations, like filtering and scaling, to continuously track a sound descriptor correlated to brightness and pitch. In opposition to existing algorithms this approach does not rely on input framing or frequency-domain transforms, ensuring a better temporal resolution and the possibility to model analog-like implementations. In the first part of the document we present the details of our approach to brightness estimation; then we will compare CoBE to the brightness estimation implemented in MIR Toolbox; we introduce and define the concept of ``Equivalent Brightness Frequency'' (EBF) and finally we show how to exploit CoBE and EBF to obtain a rough monophonic pitch estimator or an efficient pre-processor for zero crossing rate (ZCR) pitch trackers.
Continuous brightness estimation (CoBE) : implementation and its possible applications / G. Presti, D.A. Mauro - In: Proceedings of the 10th International Symposium on Computer Music Multidisciplinary Research (CMMR), Marseille, France, October 15-18, 2013Marseille : Laboratoire de Mécanique et d'Acoustique, 2013 Oct. - ISBN 9782909669236. - pp. 967-974 (( Intervento presentato al 10. convegno International Symposium on Computer Music Multidisciplinary Research (CMMR) tenutosi a Marseille nel 2013.
Continuous brightness estimation (CoBE) : implementation and its possible applications
G. Presti;D.A. Mauro
2013
Abstract
This paper presents a time-domain technique based solely on simple operations, like filtering and scaling, to continuously track a sound descriptor correlated to brightness and pitch. In opposition to existing algorithms this approach does not rely on input framing or frequency-domain transforms, ensuring a better temporal resolution and the possibility to model analog-like implementations. In the first part of the document we present the details of our approach to brightness estimation; then we will compare CoBE to the brightness estimation implemented in MIR Toolbox; we introduce and define the concept of ``Equivalent Brightness Frequency'' (EBF) and finally we show how to exploit CoBE and EBF to obtain a rough monophonic pitch estimator or an efficient pre-processor for zero crossing rate (ZCR) pitch trackers.
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