Colouration in 2.5D local wave field synthesis using spatial bandwidth-limitation

F Winter, C Hold, H Wierstorf, A Raake, S Spors, "Colouration in 2.5D local wave field synthesis using spatial bandwidth-limitation," in IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), p. 160-164 (2017). [ link ]

Bibtex

@inproceedings{Winter2017d,
    title     = {{Colouration in 2.5D local wave field synthesis using spatial
                  bandwidth-limitation}},
    author    = {Winter, Fiete and Hold, Christoph and Wierstorf, Hagen
                 and Raake, Alexander and Spors, Sascha},
    booktitle = {IEEE Workshop on Applications of Signal Processing to Audio and
                 Acoustics (WASPAA)},
    address   = {New Paltz, NY},
    pages     = {160--164},
    month     = {October},
    year      = {2017},
    doi       = {10.1109/WASPAA.2017.8170015}
}

Abstract

Sound Field Synthesis techniques, such as Wave Field Synthesis aim at a physically accurate reproduction of a desired sound field inside an extended listening area. This area is surrounded by loudspeakers individually driven by their respective driving signals. Due to practical limitations, artefacts impair the synthesis accuracy resulting in a perceivable change in timbre compared to the desired sound field. Recently, an approach for so-called Local Wave Field Synthesis was published which enhances the reproduction accuracy in a limited region by applying a spatial bandwidth limitation in the circular/spherical harmonics domain to the desired sound field. This paper reports on a listening experiment comparing conventional Sound Field Synthesis techniques with the mentioned approach. Also the influence of the different parametrisations for Local Wave Field Synthesis is investigated. The results show that the enhanced reproduction accuracy in Local Wave Field Synthesis leads to an improvement with regard to the perceived colouration.