no code implementations • 11 Oct 2023 • Sebastian J. Schlecht, Karolina Prawda, Rudolf Rabenstein, Maximilian Schäfer
The paper elaborates on the proposed damping density's applicability to modeling multi-sloped sound energy decay, predicting reverberation time in non-diffuse sound fields, and fast frequency-dependent RIR synthesis.
no code implementations • 21 Apr 2022 • Julian D. Parker, Sebastian J. Schlecht, Rudolf Rabenstein, Maximilian Schäfer
Recent work has applied the techniques of machine-learning to construct such models automatically from data for the case of systems which have lumped states described by scalar values, such as electrical circuits.
1 code implementation • 3 Jul 2020 • Maximilian Schäfer, Wayan Wicke, Lukas Brand, Rudolf Rabenstein, Robert Schober
The propagation characteristics of the particles can be categorized into three different regimes: The flow dominant regime where the influence of diffusion on the particle transport is negligible, the dispersive regime where diffusion has a much stronger impact than flow, and the mixed regime where both effects are important.
Emerging Technologies Computational Physics