Speaker: Julie Meyer (Imperial College London)
Wed 13th March 2024 12:00 – 13:00 UK time. This seminar will be an hybrid event: in Peel 330 on campus with online access via this Teams link.
Abstract:
The finite-difference time-domain (FDTD) method is widely used as a computational room acoustic modelling technique. One impediment to the efficiency of the method is its large computational cost. Although its performance can significantly be improved by using graphics processing units, the accuracy of the FDTD-computed solutions remains limited by the numerical errors that the method entails. This talk focuses on the analysis of the discretization error which not only limits the numerical accuracy of the simulation results, but also the perceptual accuracy by giving raise to audible artefacts in the auralizations. Considering some of the key elements which constitute an immersive audio application, this talk is given in the context of binaural synthesis and head-related transfer function prediction.
Biography:
Julie received a BSc in physics (2013) and a MSc in acoustics (2015) from Pierre and Marie Curie University (Paris, France) and a DSc in computer science (2022) from Aalto University (Espoo, Finland). She is currently a research associate in the audio experience design (AXD) team at Imperial College London and works on the SONICOM project. Her fields of interest include room acoustics, spatial audio, and perception.