The goal of a polyphonic music transcription system is to extract a score from an audio signal. A multiple fundamental frequency estimator is the main piece of these systems, whereas tempo detection and key estimation complement them to correctly extract the score. In this work, in order to detect the fundamental frequencies that are present in a signal, a set of candidates are selected from the spectrum, and all their possible combinations are generated. The best combination is chosen in a frame by frame analysis by applying a set of rules, taking into account the harmonic amplitudes and the spectral smoothness measure described in this work. The system was evaluated and compared to other works, yielding competitive results and performance...
Abstract—The aim of this paper is to propose solutions to some problems that arise in automatic poly...
This thesis addresses three aspects of frequency estimation. First, the problem of accurately estima...
Submitted by Aglair Aguiar (aglair@ct.ufrj.br) on 2020-03-25T22:13:51Z No. of bitstreams: 1 888217.p...
The goal of a polyphonic music transcription system is to extract a score from an audio signal. A mu...
cote interne IRCAM: Yeh05aNone / NoneNational audienceThis article is concerned with the estimation ...
cote interne IRCAM: Yeh10aNone / NoneNational audienceThis article presents a frame-based system for...
Comunicación presentada en MIREX 2008 - Music Information Retrieval Evaluation eXchange, MIREX Funda...
This study presents efficient techniques for multiple fundamental frequency estimation in music sign...
In this paper, we present an efficient approach to detect and tracking the fundamental frequency (Fo...
Abstract—This paper presents a maximum-likelihood approach to multiple fundamental frequency (F0) es...
Abstract—This paper introduces a new music signal processing method to extract multiple fundamental ...
This paper presents a maximum likelihood approach to multiple fundamental frequency (F0) esti-mation...
Pitch estimation of polyphonic music signals is the ability to identify the fundamental frequencies ...
Abstract.Multipitch estimation, also known as multiple fundamental frequency (F0) estimation, is an ...
Abstract: This paper presents a new harmonics frequency estimation method. Unlike the conventional h...
Abstract—The aim of this paper is to propose solutions to some problems that arise in automatic poly...
This thesis addresses three aspects of frequency estimation. First, the problem of accurately estima...
Submitted by Aglair Aguiar (aglair@ct.ufrj.br) on 2020-03-25T22:13:51Z No. of bitstreams: 1 888217.p...
The goal of a polyphonic music transcription system is to extract a score from an audio signal. A mu...
cote interne IRCAM: Yeh05aNone / NoneNational audienceThis article is concerned with the estimation ...
cote interne IRCAM: Yeh10aNone / NoneNational audienceThis article presents a frame-based system for...
Comunicación presentada en MIREX 2008 - Music Information Retrieval Evaluation eXchange, MIREX Funda...
This study presents efficient techniques for multiple fundamental frequency estimation in music sign...
In this paper, we present an efficient approach to detect and tracking the fundamental frequency (Fo...
Abstract—This paper presents a maximum-likelihood approach to multiple fundamental frequency (F0) es...
Abstract—This paper introduces a new music signal processing method to extract multiple fundamental ...
This paper presents a maximum likelihood approach to multiple fundamental frequency (F0) esti-mation...
Pitch estimation of polyphonic music signals is the ability to identify the fundamental frequencies ...
Abstract.Multipitch estimation, also known as multiple fundamental frequency (F0) estimation, is an ...
Abstract: This paper presents a new harmonics frequency estimation method. Unlike the conventional h...
Abstract—The aim of this paper is to propose solutions to some problems that arise in automatic poly...
This thesis addresses three aspects of frequency estimation. First, the problem of accurately estima...
Submitted by Aglair Aguiar (aglair@ct.ufrj.br) on 2020-03-25T22:13:51Z No. of bitstreams: 1 888217.p...