A model of sound localisation applied to the evaluation of systems for stereophony

Acta Acustica united with Acustica

Volumn 94, Issue 6, 2008, Pages 825-839

  Park, Munhum ^a   Nelson, Philip A ^a   Kang, Kyeongok ^b  

^a UNIVERSITY OF SOUTHAMPTON   (United Kingdom)

^b Electronics and Telecommunications Research Institute (ETRI)   (South Korea)

Author keywords

[No Author keywords available]

Indexed keywords

AUDITION; SIGNAL PROCESSING; TELECOMMUNICATION SYSTEMS;

BINAURAL SIGNALS; CELL ACTIVITIES; CENTRAL PROCESSORS; CENTRE FREQUENCIES; HUMAN SOUNDS; IMAGE LOCATIONS; INTERNAL REPRESENTATIONS; LISTENING TESTS; LOCALISATION; MODEL PREDICTIONS; OCTAVE BAND NOISE; PATTERN-MATCHING; PHANTOM IMAGES; PROCESSING MODULES; SOURCE LOCATIONS; SPATIAL HEARINGS; TEST RESULTS; WEIGHTING FUNCTIONS;

FREQUENCY RESPONSE;

EID: 59149097286     PISSN: 16101928     EISSN: None     Source Type: Journal    
DOI: 10.3813/AAA.918102     Document Type: Article

References (54)

1. J. Blauert: Spatial hearing: The psychophysics of human sound localization. MIT Press, London, 2001.
2. T Thiede, W. C. Treurniet, R. Bitto, C. Schmidmer, T Sporer, J. G. Beerends, C. Colomes, M. Keyhl, G. Stoll, K. Brandenburg, B. Feiten: Peaq - the itu standard for objective measurement of perceived audio quality. Journal of the Audio Engineering Society 48 (2000) 3-29.
3. A. W Rix, M. P. Hollier, A. P. Hekstra, J. G. Beerends: Perceptual evaluation of speech quality (pesq) - the new itu standard for end-to-end speech quality assessment - Part I - time-delay compensation. Journal of the Audio Engineering Society 50 (2002) 755-764.
4. J. G. Beerends, A. R. Hekstra, A. W. Rix, M. P. Hollier: Perceptual evaluation of speech quality (pesq) - the new itu standard for end-to-end speech quality assessment - Part II - Psychoacoustic model. Journal of the Audio Engineering Society 50 (2002) 765-778.
5. L. A. Jeffress: A place theory of sound localization. J. Comp. Physiol. Psychol. 41 (1948) 35-39.
6. W. Lindemann: Extension of a binaural cross-correlation model by contralateral inhibition. 1. Simulation of lateralization for stationary signals. Journal of the Acoustical Society of America 80 (1986) 1608-1622.
7. W. Gaik: Combined evaluation of interaural time and intensity differences - psychoacoustic results and computer modeling. Journal of the Acoustical Society of America 94 (1993) 98-110.
8. C. Schauer, T. Zahn, P. Paschke, H. M. Gross: Binaural sound localization in an artificial neural network. Proceedings of ICASSP, 2000, vol. 2, 865-868.
9. E. M. Overholt, E. W. Rubel, R. L. Hyson: A circuit for coding interaural time differences in the chick brain-stem. Journal of Neuroscience 12 (1992) 1698-1708.
10. C. E. Carr, M. Konishi: Axonal delay-lines for time measurement in the owls brain-stem. Proceedings of the National Academy of Sciences of the United States of America, 85, 1988, 8311-8315.
11. A. Brand, O. Behrend, T. Marquardt, D. McAlpine, B. Grothe: Precise inhibition is essential for microsecond interaural time difference coding. Nature 417 (2002) 543-547.
12. N. S. Harper, D. McAlpine: Optimal neural population coding of an auditory spatial cue. Nature 430 (2004) 682-686.
13. J. Breebaart, S. van de Par, A. Kohlrausch: Binaural processing model based on contralateral inhibition. I. Model structure. Journal of the Acoustical Society of America 110 (2001) 1074-1088.
14. N. I. Durlach: Binaural signal detection: Equalization and cancellation theory. - In: Foundation of modern auditory theory, Vol. 2. J. Tobias (ed.). Academic Press, New York, 1972, 371-462.
15. P. M. Zurek, R. L. Freyman, U. Balakrishnan: Auditory target detection in reverberation. Journal of the Acoustical Society of America 115 (2004) 1609-1620.
16. M. Bodden: Binaural modeling and auditory scene analysis. Proceedings of the IEEE Workshop on the Applications of Signal Processing to Audio and Acoustics, 1995, 31-34.
17. T. Dau, D. Puschel, A. Kohlrausch: A quantitative model of the "effective" signal processing in the auditory system. 1. Model structure. Journal of the Acoustical Society of America 99 (1996) 3615-3622.
18. C. Jin, M. Schenkel, S. Carlile: Neural system identification model of human sound localization. Journal of the Acoustical Society of America 108 (2000) 1215-1235.
19. B. J. C. Moore, B. R. Glasberg, T. Baer: A model for the prediction of thresholds, loudness and partial loudness. Journal of the Audio Engineering Society 45 (1997) 224-240.
20. R. D. Patterson, M. H. Allerhand, C. Giguere: Time-domain modeling of peripheral auditory processing - a modular architecture and a software platform. Journal of the Acoustical Society of America 98 (1995) 1890-1894.
21. T. Irino, R. D. Patterson: A time-domain, level-dependent auditory filter: The gammachirp. Journal of the Acoustical Society of America 101 (1997) 412-419.
22. M. Slaney: Auditory toolbox, version 2. http://rv14.ecn.purdue.edu/ malcolm/interval/1998-010/, 1998.
23. M. Park, P. A. Nelson, Y. Kim: An auditory process model for the evaluation of virtual acoustic imaging systems. Proceedings of IoA 98 (2006) 105-113.
24. B. C. J. Moore: An introduction to the psychology of hearing, 5th ed. Academic Press, 2003.
25. F. Palmieri, M. Datum, A. Shah, A. Moiseff: Learning binaural sound localization through a neural network. Proceedings of the IEEE Seventeenth Annual Northeast Bioengineering Conference, 1991, 13-14.
26. T R. Anderson, J. A. Janko, R. H. Gilkey: Modeling human sound localization with hierarchical neural networks. Proceedings of the IEEE International Conference on Neural Networks, 1994, Vol. 7, 4502-4507.
27. O. A. Alim, H. Farag: Modeling non-individualized binaural sound localization in the horizontal plane using artificial neural networks,. Proceedings of the IEEE-INNS-ENNS International Joint Conference on Neural Networks, 2000, Vol. 3, 642-647.
28. A. D. Blumlein: Improvements in and relating to soundtransmission, sound-recording and sound-reproducing systems. British Patent No. 34657, 1933.
29. H. Clark, G. Dutton, P. Vanderlyn: The stereophonic recording and reproducing system. IRE. Trans. Audio 5 (1957) 96-111.
30. V. Pulkki, M. Karjalainen: Localization of amplitude-panned virtual sources - I: Stereophonic panning. Journal of the Audio Engineering Society 49 (2001) 739-752.
31. F. Rumsey: Spatial audio. Focal Press, London, 2001.
32. G. Martin, W. Woszczyk, J. Corey, R. Quesnel: Sound source localization in a five-channel surround sound reproduction system. 107th AES Convention, New York, 1999, preprint no. 4994.
33. G. Theile, G. Plenge: Localization of lateral phantom sources. Journal of the Audio Engineering Society 24 (1977) 196-200.
34. J. West: Five-channel panning laws: an analytical and experimental comparison. MSc thesis, University of Miami, 1998.
35. F. R. Moore: Elements of computer music. Prentice Hall, Englewood Cliffs, NJ, 1990.
36. E. H. A. Langendijk, A. W. Bronkhorst: Contribution of spectral cues to human sound localization. Journal of the Acoustical Society of America 112 (2002) 1583-1596.
37. F. L. Wightman, D. J. Kistler: Headphone simulation of free-field listening. 2. Psychophysical validation. Journal of the Acoustical Society of America 85 (1989) 868-878.
38. C. M. Jarque, A. K. Bera: A test for normality of observations and regression residuals. International Statistical Review 55 (1987) 1-10.
39. W. H. Kruskal, W. A. Wallis: Use of ranks in one-criterion variance analysis. Journal of the American Statistical Association 47 (1952) 583-621.
40. S. M. Abel, C. Giguere, A. Consoli, B. C. Papsin: The effect of aging on horizontal plane sound localization. Journal of the Acoustical Society of America 108 (2000) 743-752.
41. B. A. Wright, Y. Zhang: A review of learning with normal and altered sound-loclization cues in human adults. International Journal of Audiology 45 (2006) S92-S98.
42. L. Wasserman: All of statistics: A concice course in statistical inference. Springer-Verlag, New York, 2004.
43. J. C. Makous, J. C. Middlebrooks: 2-dimensional sound localization by human listeners. Journal of the Acoustical Society of America 87 (1990) 2188-2200.
44. S. Carlile, P. Leong, S. Hyams: The nature and distribution of errors in sound localization by human listeners. Hearing Research 114 (1997) 179-196.
45. F. L. Wightman, D. J. Kistler: Resolution of front-back ambiguity in spatial hearing by listener and source movement. Journal of the Acoustical Society of America 105 (1999) 2841-2853.
46. C. Lim, R. O. Duda: Estimating the azimuth and elevation of a sound source from the output of a cochlear model. Conference Record of the Twenty-Eighth Asilomar Conference on Signals, Systems and Computers, Vol. 1., 1994, 399-403.
47. E. A. Macpherson: A computer-model of binaural localization for stereo imaging measurement. Journal of the Audio Engineering Society 39 (1991) 604-622.
48. J. Braasch: Localization in the presence of a distracter and reverberation in the frontal horizontal plane: III. The role of interaural level differences. Acta Ac-stica united with Acustica 89 (2003) 674-692.
49. C. Faller, J. Merimaa: Source localization in complex listening situations: Selection of binaural cues based on interaural coherence. Journal of the Acoustical Society of America 116 (2004) 3075-3089.
50. K. D. Martin: Estimating azimuth and elevation from interaural differences. Proceedings of the IEEE Workshop on the Applications of Signal Processing to Audio and Acoustics, 1995, 96-99.
51. R. M. Stern, H. S. Colburn: Theory of binaural interaction based on auditory-nerve data. 4. Model for subjective lateral position. Journal of the Acoustical Society of America 64 (1978) 127-140.
52. R. M. Stern, A. S. Zeiberg, C. Trahiotis: Lateralization of complex binaural stimuli - a weighted-image model. Journal of the Acoustical Society of America 84 (1988) 156-165.
53. T. M. Shackleton, R. Meddis, M. J. Hewitt: Across frequency integration in a model of lateralization. Journal of the Acoustical Society of America 91 (1992) 2276-2279.
54. K. Hartung, S. Sterbing: A computational model of sound localization based on neurophysiological data. - In: Computational models of auditory function. S. Greenberg, M. Slaney (eds.). IoA Press, 2001, 113-126.