Planar (2D) and periphonic (3D) higher-order Ambisonics (HOA) systems are widely used to reproduce spatial properties of acoustic scenarios. Mixed-order Ambisonics (MOA) systems combine the benefit of higher order 2D systems, i.e. a high spatial resolution over a larger usable frequency bandwidth, with a lower order 3D system to reproduce elevated sound sources. In order to record MOA signals, the location of the microphones on a hard sphere were optimized to provide a robust MOA encoding. A detailed analysis of the encoding and decoding process showed that MOA can improve both the spatial resolution in the horizontal plane and the usable frequency bandwidth for playback as well as recording. Hence the described MOA scheme provides a promis...
Higher Order Ambisonics (HOA) is a technology aiming to capture and reproduce 3D soundfields. HOA ha...
In order to study 3D auditory perception for hearing aid users, spatial audio reproduction systems h...
Spatial audio has typically been recorded from specialized microphone arrays that are too expensive ...
A circular microphone array mounted on a rigid sphere was realized and its application to higherorde...
This report presents the study of the spatial audio method called Higher Order Am-bisonics, together...
During the last decade, Higher Order Ambisonics has become a popular way of capturing and reproducin...
Increasing the order of ambisonic reproduction allows 3D sound fields to be reconstructed with impro...
Natural sound field can be reproduced through loudspeakers using ambisonics and Higher Order Ambison...
Ambisonics allows the reproduction of 3D sound-fields. Higher-order Ambisonics provides improved res...
Conventional sound recording methods are based on recording the sound pressure level with a micropho...
Multi-channel loudspeaker systems have been proposed to assess the real-life benefit of devices such...
Ambisonics is a 3D recording and playback method that is based on the representation of the sound fi...
Ambisonics is an effective way of describing and projecting spatial sound. Based on the theoretical ...
Presented at the 20th International Conference on Auditory Display (ICAD2014), June 22-25, 2014, New...
In order to transmit sound-scenes encoded into the higher-order Ambisonics (HOA) format to low-bandw...
Higher Order Ambisonics (HOA) is a technology aiming to capture and reproduce 3D soundfields. HOA ha...
In order to study 3D auditory perception for hearing aid users, spatial audio reproduction systems h...
Spatial audio has typically been recorded from specialized microphone arrays that are too expensive ...
A circular microphone array mounted on a rigid sphere was realized and its application to higherorde...
This report presents the study of the spatial audio method called Higher Order Am-bisonics, together...
During the last decade, Higher Order Ambisonics has become a popular way of capturing and reproducin...
Increasing the order of ambisonic reproduction allows 3D sound fields to be reconstructed with impro...
Natural sound field can be reproduced through loudspeakers using ambisonics and Higher Order Ambison...
Ambisonics allows the reproduction of 3D sound-fields. Higher-order Ambisonics provides improved res...
Conventional sound recording methods are based on recording the sound pressure level with a micropho...
Multi-channel loudspeaker systems have been proposed to assess the real-life benefit of devices such...
Ambisonics is a 3D recording and playback method that is based on the representation of the sound fi...
Ambisonics is an effective way of describing and projecting spatial sound. Based on the theoretical ...
Presented at the 20th International Conference on Auditory Display (ICAD2014), June 22-25, 2014, New...
In order to transmit sound-scenes encoded into the higher-order Ambisonics (HOA) format to low-bandw...
Higher Order Ambisonics (HOA) is a technology aiming to capture and reproduce 3D soundfields. HOA ha...
In order to study 3D auditory perception for hearing aid users, spatial audio reproduction systems h...
Spatial audio has typically been recorded from specialized microphone arrays that are too expensive ...