Individualized Virtual Monitoring (IVMo)
Description
IVMo investigates how closely virtual loudspeaker setups can replicate the experience of listening to real loudspeakers when individualized HRTFs are used. For each listener, we compare HRTFs obtained from acoustic measurements with HRTFs simulated by first creating a 3D mesh of the head via photogrammetry and then computing the HRTFs using the boundary element method (BEM). We analyze how these measured and simulated HRTFs differ in key technical aspects, such as spectral characteristics and localization cues. In parallel, listening experiments examine how such differences affect perceived coloration, externalization, and the clarity and stability of sound source positions. By combining objective metrics with subjective evaluations, the project aims to determine whether simulated, photogrammetry-based HRTFs provide benefits for critical listening and mixing tasks in virtual monitoring solutions.
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Visit the electrical engineering laboratories in spring 2026
Welcome to visit the Robotics Lab, the Acoustics Lab, the Electronics-ICT laboratory, and the ePowerHub laboratory!
Postdoctoral researcher Eloi Moliner makes history as a 5-time award winner
Eloi Moliner is one of the most decorated doctoral researchers in Aalto University's history – we would like to highlight his success and contributions to the field of audio signal processing
Double triumph: Aalto acoustics researchers win big in Italy
The International Conference on Digital Audio Effects (DAFx) 2025 witnessed a remarkable achievement by researchers from the Aalto University Acoustics Lab, as Eloi Moliner and Professor Vesa Välimäki brought home two prestigious paper awards, showcasing cutting-edge innovation in audio signal processing.