All Issue

2019 Vol.38, Issue 6 Preview Page

Research Article


November 2019. pp. 637-650
Abstract


References
1 

P. B. Fellgett, "Ambisonic reproduction of directionality in surround-sound systems," Nature, 252, 534- 538 (1974).

10.1038/252534b0
2 

D. B. Ward and T. D. Abhayapala. "Reproduction of a plane-wave sound field using an array of loudspeakers," IEEE Transactions on speech and audio processing, 9, 697-707 (2001).

10.1109/89.943347
3 

J. Daniel, J. Rault, and J. Polack, "Ambisonics encoding of other audio formats for multiple listening conditions," AES 105th Convention, paper no. 4795 (1998).

4 

M. A. Gerzon and G. J. Barton, "Ambisonic decoders for HDTV," AES 92nd Convention, paper no. 3345 (1992).

5 

F. Zotter and M. Frank, "All-round Ambisonic panning and decoding," J. Audio Eng. Soc. 60, 807-820 (2012).

6 

D. H. Cooper and J. L Bauck, "On acoustical specification of natural stereo imaging," AES 65th Convention, paper no. 1616 (1980).

7 

D. S. Brungart and W. M. Rabinowitz, "Auditory localization of nearby sources. Head-related transfer functions," J. Acoust. Soc. Am. 106, 1465-1479 (1999).

10.1121/1.42718010489704
8 

C. Oreinos and J. M. Buchholz, "Measurement of a full 3D set of HRTFs for in-ear and hearing aid microphones on a head and torso simulator (HATS)," Acta Acustica united with Acustica, 99, 836-844 (2013).

10.3813/AAA.918662
9 

M. A. Gerzon, "Practical Periphony: the reproduction of full-sphere sound," AES 65th Convention. London, UK, paper no. 1571 (1980).

10 

M. A. Gerzon, "The design of precisely coincident microphone arrays for stereo and surround sound," AES 50th Convention, paper no. L-20 (1975).

11 

E. G. Williams, Fourier Acoustics: Sound Radiation and Nearfield Acoustical Holography (Academic press, Cambridge, UK, 1999), pp. 224-227.

10.1016/B978-012753960-7/50007-310389967
12 

M. A. Gerzon, "Periphony: With-height sound reproduction," J. Audio Eng. Soc. 21, 2-10 (1973).

13 

J. Daniel, Representation of acoustic fields, application to the transmission and reproduction of complex sound scenes in a multimedia context, (Doctoral thesis, University of Paris, 2001).

14 

J. Meyer and G. Elko, "A highly scalable spherical microphone array based on an orthonormal decomposition of the soundfield," Proc. IEEE ICASSP. 2, II-1781 (2002).

10.1109/ICASSP.2002.5744968
15 

C. Travis, "A new mixed-order scheme for ambisonic signals," Proc. Ambisonics Symp. 1-6 (2009).

16 

S. Favrot, M. Marschall, J. Kasbach, J. Buchholz, and T. Weller, "Mixed-order ambisonics recording and playback for improving horizontal directionality," AES 131st Convention, paper no. 8528 (2011).

17 

J. -H. Chang and M. Marschall, "Periphony-Lattice mixed-order Ambisonic scheme for spherical microphone arrays," Proc. IEEE/ACM trans. on audio, speech, and lang. 26, 924-936 (2018).

10.1109/TASLP.2018.2800290
18 

M. Noisternig, A. Sontacchi, T. Musil, and R. Hoeldrich, "A 3D Ambisonic based Binaural Sound Reproduction System," AES 24th Int. Conference on Multichannel Audio, paper no. 1 (2012).

19 

M. Naef, O. Staadt and M. Gross, "Spatialized audio rendering for immersive virtual environments," Proc. the ACM symposium on Virtual reality software and technology. ACM, 65-72 (2002).

10.1145/585740.585752
20 

A. Solvang, "Spectral impairment of two-dimensional higher order Ambisonics," J. Audio Eng. Soc. 56, 267-279 (2008).

21 

T. McKenzie, D. T. Murphy, and G. Kearney, "Diffuse- field equalization of first-order Ambisonics," Proc. the 20th Int. Conf. Digital Audio Effects (DAFx-17), Edinburgh, 5-9 (2017).

22 

T. McKenzie, D. Murphy, and G. Kearney, "Directional bias equalization of first-order binaural Ambisonic rendering," AES Conference on Audio for Virtual and Augmented Reality, paper no. 6-3 (2018).

23 

D. Satongar, C. Dunn, Y. Lam, and F. Li, "Localization performance of higher-order Ambisonics for off-centre listening," BBC Research & Development white paper WHP 254 (2013).

24 

E. M. Benjamin, R. Lee, and A. J. Heller, "Localization in horizontal-only Ambisonic systems," AES 121st Convention, paper no. 6967 (2006).

25 

B. Sebastian and M. Frank, "Localization of 3D ambisonic recordings and ambisonic virtual sources," Proc. 1st Int. Conf. on Spatial Audio, Detmold (2011).

26 

B. Stéphanie, J. Daniel, E. Parizet, and O. Warusfel, "Investigation on localisation accuracy for first and higher order ambisonics reproduced sound sources," Acta Acustica united with Acustica, 99, 642-657 (2013).

10.3813/AAA.918643
27 

T. Lewis, C. Armstrong, and G. Kearney, "A Direct comparison of localization performance when using first, third, and fifth Ambisonics drder for real loudspeaker and virtual loudspeaker rendering," AES 143rd Convention, paper no. 9864 (2017).

28 

G. Kearney, M. Gorzel, H. Rice, and F. Boland, "Distance perception in interactive virtual acoustic environments using first and higher order Ambisonic sound fields," Acta Acustica united with Acustica, 98, 61-71 (2012).

10.3813/AAA.918492
29 

M. Gorzel, G. Kearney, and F. Boland, "Investigation of Ambisonic rendering of elevated sound sources," AES 55th Int. Conf. on Spatial Audio, paper no. 5 (2014).

30 

G. Kearney and T. Doyle, "Height perception in Ambisonic based binaural decoding," AES 139th Int. Convention, paper no. 9423 (2015).

31 

J. -H. Chang and W. -H. Cho, "Impairments of binaural sound based on Ambisonics for virtual reality audio," Proc. IEEE 10th Sensor Array and Multichannel Signal Processing Workshop (IEEE SAM), Sheffield, UK, 341-345 (2018).

10.1109/SAM.2018.8448493PMC5870240
32 

J. -M. Batke, "The B-format microphone revised," Proc. Ambisonics Symposium, Graz Paper no. 6621 (2009).

33 

S. Spors and J. Ahrens. "Reproduction of focused sources by the spectral division method," Proc. 4th IEEE International Symposium on Communications, Control and Signal Processing (ISCCSP), 1-5 (2010).

10.1109/ISCCSP.2010.5463335
34 

V. Pulkki, "Virtual sound source positioning using vector base amplitude panning," J. Audio Eng. Soc. 45, 456-466 (1997).

35 

J. Blauert, Spatial hearing: the psychophysics of human sound localization (MIT press, Cambridge, 1997), pp. 50-137.

36 

D. Colton and R. Kress, Inverse Acoustic and Electromagnetic Scattering Theory, 2nd edition (Springer, New York, 1998), pp. 27.

Information
  • Publisher :The Acoustical Society Of Korea
  • Publisher(Ko) :한국음향학회
  • Journal Title :The Journal of the Acoustical Society of Korea
  • Journal Title(Ko) :한국음향학회지
  • Volume : 38
  • No :6
  • Pages :637-650
  • Received Date :2019. 07. 08
  • Accepted Date : 2019. 09. 03