6533b7cffe1ef96bd125988c
RESEARCH PRODUCT
Synthetic individual binaural audio delivery by pinna image processing
Michele GeronazzoFederico AvanziniDavide RocchessoSimone Spagnolsubject
Headphonebusiness.product_categoryReferenceGeneral Computer ScienceComputer scienceBinauralSpeech recognitionAuditory localizationImage processingTransfer functionTheoretical Computer Science3D audio; human computer interactionPsychoacousticsRepresentation (mathematics)Headphonesbiology3D audio; human computer interaction; Auditory localization; Binaural; Headphones; HRTF; Pinna; References; Spatial soundSpatial soundSettore INF/01 - InformaticaOrientation (computer vision)PinnaComputer Science (all)3D audio; Auditory localization; Binaural; Headphones; HRTF; Pinna; References; Spatial soundReferencesbiology.organism_classification3D audioHRTFhuman computer interactionPinnabusinessBinaural recordingHeadphonesdescription
Purpose – The purpose of this paper is to present a system for customized binaural audio delivery based on the extraction of relevant features from a 2-D representation of the listener’s pinna. Design/methodology/approach – The most significant pinna contours are extracted by means of multi-flash imaging, and they provide values for the parameters of a structural head-related transfer function (HRTF) model. The HRTF model spatializes a given sound file according to the listener’s head orientation, tracked by sensor-equipped headphones, with respect to the virtual sound source. Findings – A preliminary localization test shows that the model is able to statically render the elevation of a virtual sound source better than non-individual HRTFs. Research limitations/implications – Results encourage a deeper analysis of the psychoacoustic impact that the individualized HRTF model has on perceived elevation of virtual sound sources. Practical implications – The model has low complexity and is suitable for implementation on mobile devices. The resulting hardware/software package will hopefully allow an easy and low-tech fruition of custom spatial audio to any user. Originality/value – The authors show that custom binaural audio can be successfully deployed without the need of cumbersome subjective measurements.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2014-08-26 |