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On Local Chirp Rate Estimation in Noisy Multicomponent Signals: With an Application to Mode Reconstruction

Nils Laurent, Marcelo A. Colominas, Sylvain Meignen

2022IEEE Transactions on Signal Processing12 citationsDOIOpen Access PDF

Abstract

In this paper, our goal is to investigate local chirp rate (CR) estimation in noisy multicomponent signals. The focus is put on improving a specific type of local CR estimator used in the second order synchrosqueezing transform, which proves to be very inaccurate in the presence of noise. More precisely, the noise creates spurious oscillations in the local CR estimate, and we first put the emphasis on the terms responsible for these oscillations. Then we propose a novel technique to filter them out, resulting in a much more accurate local CR estimator. We finally show how to use the latter to improve mode reconstruction and investigate in what way the new CR estimator is useful in the context of voice signals.

Topics & Concepts

ChirpEstimatorNoise (video)Computer scienceSpurious relationshipContext (archaeology)Filter (signal processing)Focus (optics)AlgorithmMode (computer interface)Speech recognitionMathematicsArtificial intelligenceComputer visionPhysicsStatisticsMachine learningOpticsImage (mathematics)LaserBiologyPaleontologyOperating systemSpeech and Audio ProcessingBlind Source Separation TechniquesMachine Fault Diagnosis Techniques
On Local Chirp Rate Estimation in Noisy Multicomponent Signals: With an Application to Mode Reconstruction | Litcius