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Implicit HRTF Modeling Using Temporal Convolutional Networks

Israel D. Gebru, Dejan Marković, Alexander Richard, Steven Krenn, Gladstone Alexander Butler, Fernando De la Torre, Yaser Sheikh

202126 citationsDOI

Abstract

Estimation of accurate head-related transfer functions (HRTFs) is crucial to achieve realistic binaural acoustic experiences. HRTFs depend on source/listener locations and are therefore expensive and cumbersome to measure; traditional approaches require listener-dependent measurements of HRTFs at thousands of distinct spatial directions in an anechoic chamber. In this work, we present a data-driven approach to learn HRTFs implicitly with a neural network that achieves state of the art results compared to traditional approaches but relies on a much simpler data capture that can be performed in arbitrary, non-anechoic rooms. Despite that simpler and less acoustically ideal data capture, our deep learning based approach learns HRTF of high quality. We show in a perceptual study that the produced binaural audio is ranked on par with traditional DSP approaches by humans and illustrate that interaural time differences (ITDs), interaural level differences (ILDs) and spectral clues are accurately estimated.

Topics & Concepts

Binaural recordingComputer scienceAnechoic chamberHead-related transfer functionConvolutional neural networkTransfer functionSpeech recognitionArtificial intelligenceAudio signal processingPattern recognition (psychology)Audio signalSpeech codingEngineeringTelecommunicationsElectrical engineeringSpeech and Audio ProcessingHearing Loss and RehabilitationMusic and Audio Processing
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