Modeling Sparsely Reflecting Outdoor Acoustic Scenes Using the Waveguide Web

Stevens, Francis L.; Murphy, Damian; Savioja, Lauri; Välimäki, Vesa

doi:10.1109/taslp.2017.2699424

Cited by 20 publications

(7 citation statements)

References 32 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…As evidenced by prior works [12,13,18,19], there are varieties of methods available to carry out such simulations. Such variety of choice implies an equal variety in modelling parameters and results.…”

Section: Modelling: From Evidence To Auralisation Layered History Modelling and Simulationsmentioning

confidence: 99%

The Past Has Ears (PHE): XR Explorations of Acoustic Spaces as Cultural Heritage

Katz

Murphy

Farina

2020

Lecture Notes in Computer Science

View full text Add to dashboard Cite

Hearing is one of our most pervasive senses. There is no equivalent to closing our eyes, or averting our gaze, for the ears. When we think about great architectural achievements in European history, such as ancient amphitheatres or Gothic cathedrals, their importance is strongly tied to their acoustic environment. The acoustics of a heritage site is an intangible consequence of the space's tangible construction and furnishings. Inspired by the project's namesake (Phé, for the constellation Phoenix), and the relatively recent fires at Cathédrale de Notre Dame de Paris and Teatro La Fenice opera hall, the PHE project focuses on virtual reconstruction of heritage sites, bringing them back from the ashes. In addressing the intangible acoustic heritage of architectural sites, three main objectives have been identified for this research project: Documentation, Modelling, and Presentation. In parallel, three heritage sites are participating as case studies: Tindari Theatre (IT), Notre-Dame de Paris Cathedral (FR), and The Houses of Parliament (UK). The acoustics of a space is immersive, spatial, and due to the nature of auditory perception egocentric, in contrast to visual perception of an object, which can be observed from "outside". Consequently, presentation methods for communicating acoustic heritage must represent the spatially immersive and listener-centric nature of acoustics. PHE will lead development of a museum grade hardware/software prototype for the presentation of immersive audio experiences adaptable to multiple platforms, from off-site immersive speaker installations, to mobile XR via smartphone applications.

show abstract

Section: Modelling: From Evidence To Auralisation Layered History Modelling and Simulationsmentioning

confidence: 99%

The Past Has Ears (PHE): XR Explorations of Acoustic Spaces as Cultural Heritage

Katz

Murphy

Farina

2020

Lecture Notes in Computer Science

View full text Add to dashboard Cite

show abstract

“…The target frequency-independent reverberation time is 5 seconds. Although, this can be solved accurately with (18), we attempt to solve it with the lumped formulation (19) to assess the frequency-dependent case. Fig.…”

Section: Modal Decay Distributionmentioning

confidence: 99%

Scattering in Feedback Delay Networks

Schlecht

Habets

2020

IEEE/ACM Trans. Audio Speech Lang. Process.

View full text Add to dashboard Cite

“…The VFM is inspired by the work of Karjalainen, Välimäki et al [3,14,16,17] in which velvet noise sequences, i.e., sparse time-domain responses with few ±1 pulses, have been proposed to create perceptually white noise. Due to the general formulation, the proposed FFM is directly applicable for related techniques such as digital waveguides [18], waveguide web [19], scattering delay networks [20] and directional FDNs [21].…”

Section: First Order Image Sourcesmentioning

confidence: 99%

On Lossless Feedback Delay Networks

Schlecht

Habets

2017

IEEE Trans. Signal Process.

View full text Add to dashboard Cite

Abstract-Lossless Feedback Delay Networks (FDNs) are commonly used as a design prototype for artificial reverberation algorithms. The lossless property is dependent on the feedback matrix, which connects the output of a set of delays to their inputs, and the lengths of the delays. Both, unitary and triangular feedback matrices are known to constitute lossless FDNs, however, the most general class of lossless feedback matrices has not been identified. In this contribution, it is shown that the FDN is lossless for any set of delays, if all irreducible components of the feedback matrix are diagonally similar to a unitary matrix. The necessity of the generalized class of feedback matrices is demonstrated by examples of FDN designs proposed in literature.

show abstract

Modeling Sparsely Reflecting Outdoor Acoustic Scenes Using the Waveguide Web

Cited by 20 publications

References 32 publications

The Past Has Ears (PHE): XR Explorations of Acoustic Spaces as Cultural Heritage

The Past Has Ears (PHE): XR Explorations of Acoustic Spaces as Cultural Heritage

Scattering in Feedback Delay Networks

On Lossless Feedback Delay Networks

Contact Info

Product

Resources

About