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A novel speaker verification approach featuring multidomain acoustics based on the weighted city block Minkowski distance

Khushboo Jha, Sumit Srivastava, Aruna Jain

2024ETRI Journal12 citationsDOIOpen Access PDF

Abstract

Abstract Access control is vital in interconnected environments like the Internet of Things, Industry 4.0, and smart connectivity, ensuring authorized access for security. Biometric‐based access, particularly speaker verification (SV), enhances security with unique vocal features, offering nonintrusive authentication with continuous monitoring. Single‐domain features prove insufficient in distinguishing similar traits, prompting latest SV advancements to adopt multidomain‐based speech features. This paradigm addresses the limitations of single‐domain features by amalgamating the merits of individual domains, establishing a cutting‐edge approach. It utilizes cepstral–frequency–time domain feature fusion, achieved via cepstral mean‐variance normalization for generalizability. The weighted city block Minkowski distance is proposed to compare reference and test speech templates. Parameters are computed based on the confusion matrix, template matching distance functions, dynamic acoustic conditions, and additive white Gaussian noise. A deep convolutional neural network classifier is assessed on open‐source LibriSpeech and Speaker in the Wild corpora, surpassing the current methodologies.

Topics & Concepts

Speaker verificationMinkowski spaceBlock (permutation group theory)AcousticsMinkowski distanceComputer scienceSpeech recognitionMathematicsPhysicsArtificial intelligenceSpeaker recognitionCombinatoricsGeometryEuclidean distanceSpeech Recognition and SynthesisSpeech and Audio ProcessingMusic and Audio Processing
A novel speaker verification approach featuring multidomain acoustics based on the weighted city block Minkowski distance | Litcius