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One Model to Rule Them All ? Towards End-to-End Joint Speaker Diarization and Speech Recognition

Samuele Cornell, Jee-weon Jung, Shinji Watanabe, Stefano Squartini

202419 citationsDOI

Abstract

This paper presents a novel framework for joint speaker diarization (SD) and automatic speech recognition (ASR), named SLIDAR (sliding-window diarization-augmented recognition). SLIDAR can process arbitrary length inputs and can handle any number of speakers, effectively solving "who spoke what, when" concurrently. SLIDAR leverages a sliding window approach and consists of an end-to-end diarization-augmented speech transcription (E2E DAST) model which provides, locally, for each window: transcripts, diarization and speaker embeddings. The E2E DAST model is based on an encoder-decoder architecture and leverages recent techniques such as serialized output training and "Whisper-style" prompting. The local outputs are then combined to get the final SD+ASR result by clustering the speaker embeddings to get global speaker identities. Experiments performed on monaural recordings from the AMI corpus confirm the effectiveness of the method in both close-talk and far-field speech scenarios.

Topics & Concepts

Speaker diarisationComputer scienceSpeech recognitionTranscription (linguistics)Joint (building)Speaker recognitionEnd-to-end principleCluster analysisArtificial intelligenceLinguisticsEngineeringPhilosophyArchitectural engineeringSpeech Recognition and SynthesisMusic and Audio ProcessingSpeech and Audio Processing