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Online End-To-End Neural Diarization with Speaker-Tracing Buffer

Yawen Xue, Shota Horiguchi, Yusuke Fujita, Shinji Watanabe, Leibny Paola Garcia, Kenji Nagamatsu

202138 citationsDOI

Abstract

This paper proposes a novel online speaker diarization algorithm based on a fully supervised self-attention mechanism (SA-EEND). Online diarization inherently presents a speaker's permutation problem due to the possibility to assign speaker regions incorrectly across the recording. To circumvent this inconsistency, we proposed a speaker-tracing buffer mechanism that selects several input frames representing the speaker permutation information from previous chunks and stores them in a buffer. These buffered frames are stacked with the input frames in the current chunk and fed into a self-attention network. Our method ensures consistent diarization outputs across the buffer and the current chunk by checking the correlation between their corresponding outputs. Additionally, we trained SA-EEND with variable chunk-sizes to mitigate the mismatch between training and inference introduced by the speaker-tracing buffer mechanism. Experimental results, including online SA-EEND and variable chunk-size, achieved DERs of 12.54% for CALLHOME and 20.77% for CSJ with 1.4 s actual latency.

Topics & Concepts

Speaker diarisationComputer scienceTracingSpeech recognitionLatency (audio)InferenceEnd-to-end principleArtificial neural networkSpeaker recognitionArtificial intelligenceTelecommunicationsOperating systemSpeech Recognition and SynthesisMusic and Audio ProcessingSpeech and Audio Processing
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