Three dimensional (3D) spatial soundfield reconstruction techniques typically need multiple loudspeakers placed on the surface of a sphere covering a desired region of reconstruction. Such array geometries have certain limitations that make them impractical in most of the intended applications. In this paper, we show how to reconstruct 3D soundfields using a set of circular arrays. The proposed method uses circular harmonics alongwith the underlying theory of wavefield propagation. Specifically, we use the properties of the associated Legendre functions and the spherical Hankel functions for loudspeaker placement. As an illustration, we design a third order spherical harmonic reconstruction system using 16 loudspeakers
This paper proposes the theory and design of circular higher-order microphone arrays for 3D sound fi...
Perceptual sound field reconstruction (PSR) is a spatial audio recording and reproduction method bas...
We present a method for computing a spherical harmonic representation of a sound field based on obse...
Three-dimensional spatial sound field reproduction enables enhanced immersive acoustic experience fo...
Abstract—Three dimensional sound field reproduction based on higher order Ambisonics requires the pl...
The theory of recording and reproduction of three-dimensional sound fields based on spherical harmon...
Abstract—We present an approach targeting the physical reproduction of sound fields by means of sphe...
Decomposition of a soundfield into spherical harmonics is a funda-mental problem in acoustic signal ...
Reproduction of a sound field is a fundamental problem in acoustic signal processing. In this paper,...
Spherical microphone and circular microphone arrays are useful for sampling sound fields that may be...
Spherical harmonic decomposition of wavefields is not only an active problem in acoustic signal proc...
We present a novel theory and design for constructing microphone arrays to extract spherical harmoni...
In exterior sound field reproduction using loudspeaker arrays, such as a single circular array, ther...
We propose a method to reproduce 3D auditory scenes captured by spherical microphone arrays over hea...
We propose a method to reproduce 3D auditory scenes captured by spherical microphone arrays over hea...
This paper proposes the theory and design of circular higher-order microphone arrays for 3D sound fi...
Perceptual sound field reconstruction (PSR) is a spatial audio recording and reproduction method bas...
We present a method for computing a spherical harmonic representation of a sound field based on obse...
Three-dimensional spatial sound field reproduction enables enhanced immersive acoustic experience fo...
Abstract—Three dimensional sound field reproduction based on higher order Ambisonics requires the pl...
The theory of recording and reproduction of three-dimensional sound fields based on spherical harmon...
Abstract—We present an approach targeting the physical reproduction of sound fields by means of sphe...
Decomposition of a soundfield into spherical harmonics is a funda-mental problem in acoustic signal ...
Reproduction of a sound field is a fundamental problem in acoustic signal processing. In this paper,...
Spherical microphone and circular microphone arrays are useful for sampling sound fields that may be...
Spherical harmonic decomposition of wavefields is not only an active problem in acoustic signal proc...
We present a novel theory and design for constructing microphone arrays to extract spherical harmoni...
In exterior sound field reproduction using loudspeaker arrays, such as a single circular array, ther...
We propose a method to reproduce 3D auditory scenes captured by spherical microphone arrays over hea...
We propose a method to reproduce 3D auditory scenes captured by spherical microphone arrays over hea...
This paper proposes the theory and design of circular higher-order microphone arrays for 3D sound fi...
Perceptual sound field reconstruction (PSR) is a spatial audio recording and reproduction method bas...
We present a method for computing a spherical harmonic representation of a sound field based on obse...