Abstract
Binaural late-reverberation modeling necessitates the synthesis of
frequency-dependent inter-aural coherence, a crucial aspect of spa-
tial auditory perception. Prior studies have explored methodolo-
gies such as filtering and cross-mixing two incoherent late rever-
beration impulse responses to emulate the coherence observed in
measured binaural late reverberation. In this study, we introduce
two variants of the binaural dark-velvet-noise reverberator. The
first one uses cross-mixing of two incoherent dark-velvet-noise se-
quences that can be generated efficiently. The second variant is
a novel time-domain jitter-based approach. The methods’ accu-
racies are assessed through objective and subjective evaluations,
revealing that both methods yield comparable performance and
clear improvements over using incoherent sequences. Moreover,
the advantages of the jitter-based approach over cross-mixing are
highlighted by introducing a parametric width control, based on
the jitter-distribution width, into the binaural dark velvet noise
reverberator. The jitter-based approach can also introduce time-
dependent coherence modifications without additional computa-
tional cost.
frequency-dependent inter-aural coherence, a crucial aspect of spa-
tial auditory perception. Prior studies have explored methodolo-
gies such as filtering and cross-mixing two incoherent late rever-
beration impulse responses to emulate the coherence observed in
measured binaural late reverberation. In this study, we introduce
two variants of the binaural dark-velvet-noise reverberator. The
first one uses cross-mixing of two incoherent dark-velvet-noise se-
quences that can be generated efficiently. The second variant is
a novel time-domain jitter-based approach. The methods’ accu-
racies are assessed through objective and subjective evaluations,
revealing that both methods yield comparable performance and
clear improvements over using incoherent sequences. Moreover,
the advantages of the jitter-based approach over cross-mixing are
highlighted by introducing a parametric width control, based on
the jitter-distribution width, into the binaural dark velvet noise
reverberator. The jitter-based approach can also introduce time-
dependent coherence modifications without additional computa-
tional cost.
| Original language | English |
|---|---|
| Title of host publication | Proceedings of the 27th International Conference on Digital Audio Effects (DAFx24) |
| Place of Publication | Guildford, UK |
| Publisher | University of Surrey |
| Pages | 246-253 |
| Number of pages | 8 |
| Publication status | Published - 3 Sept 2024 |
| MoE publication type | A4 Conference publication |
| Event | International Conference on Digital Audio Effects - University of Surrey, Guildford, United Kingdom Duration: 3 Sept 2024 → 7 Sept 2024 Conference number: 27 https://dafx24.surrey.ac.uk/ |
Publication series
| Name | Proceedings of the International Conference on Digital Audio Effects |
|---|---|
| ISSN (Electronic) | 2413-6689 |
Conference
| Conference | International Conference on Digital Audio Effects |
|---|---|
| Abbreviated title | DAFX |
| Country/Territory | United Kingdom |
| City | Guildford |
| Period | 03/09/2024 → 07/09/2024 |
| Internet address |