International audienceIn this work, we present the Damped and De- layed Sinusoidal (DDS) model, a generalization of the sinu- soidal model. This model takes into account an angular fre- quency, a damping factor, a phase, an amplitude and a time- delay parameter for each component. Two algorithms are introduced for the DDS parameter estimation using a sub- band processing approach. Finally, we derive the Cramer- Rao Bound (CRB) expression for the DDS model and a simulation-based performance analysis in the context of a noisy fast time-varying synthetic signal and in the audio transient signal modeling context
International audienceAn audio signal parametric modeling scheme is proposed that permits higher per...
This paper will give an overview of the sinusoidal model, its properties, and variations made upon i...
This paper presents the derivation of a new perceptual model that represents speech and audio signal...
International audienceIn this work, we present the Damped and De- layed Sinusoidal (DDS) model, a ge...
International audienceIn this paper, we present a novel parametric model based on an important evolu...
International audienceIn this work, we present an evolution of the DDS (Damped & Delayed Sinusoidal)...
Abstract: The Damped and Delayed Sinusoidal (DDS) model is suitable for modeling compactly short tim...
International audienceIn this work, we present an evolution of the DDS (Damped & Delayed Sinusoidal)...
International audienceThe damped and delayed sinusoidal (DDS) model can be defined as the sum of sin...
International audienceWe present an efficient modeling method for strong transient character audio s...
International audienceWe present two evolutions of the well known Exponentially Damped Sinus...
Time-scale modication of audio signals is a classic digital signal processing problem. While many so...
This overview paper presents and compares different methods traditionally used for estimating damped...
International audienceAn audio signal parametric modeling scheme is proposed that permits higher per...
This paper will give an overview of the sinusoidal model, its properties, and variations made upon i...
This paper presents the derivation of a new perceptual model that represents speech and audio signal...
International audienceIn this work, we present the Damped and De- layed Sinusoidal (DDS) model, a ge...
International audienceIn this paper, we present a novel parametric model based on an important evolu...
International audienceIn this work, we present an evolution of the DDS (Damped & Delayed Sinusoidal)...
Abstract: The Damped and Delayed Sinusoidal (DDS) model is suitable for modeling compactly short tim...
International audienceIn this work, we present an evolution of the DDS (Damped & Delayed Sinusoidal)...
International audienceThe damped and delayed sinusoidal (DDS) model can be defined as the sum of sin...
International audienceWe present an efficient modeling method for strong transient character audio s...
International audienceWe present two evolutions of the well known Exponentially Damped Sinus...
Time-scale modication of audio signals is a classic digital signal processing problem. While many so...
This overview paper presents and compares different methods traditionally used for estimating damped...
International audienceAn audio signal parametric modeling scheme is proposed that permits higher per...
This paper will give an overview of the sinusoidal model, its properties, and variations made upon i...
This paper presents the derivation of a new perceptual model that represents speech and audio signal...