References
- Ando, Y. 1985: Concert Hall Acoustics, (Berlin: Springer-Verlag), ISBN: 0387135057.
- Beranek, L. L. 1996: Concert and Opera Halls: how they sound, (Woodbury, NY: Acoustical Society of America), ISBN: 1563965205.
- Bernstein, L. R. and Trahiotis, C. 1996: 'The normalized correlation: accounting for binaural detection across center frequency', Journal of the Acoustical Society of America, vol. 100, pp. 3774-3784.
- Blauert, J. 1997: Spatial Hearing, 3rd edition, (Cambridge, USA: MIT Press), ISBN: 0262024136.
- Blauert, J. and Lindemann, W. 1986: 'Spatial mapping of intracranial auditory events for various degrees of interaural coherence', Journal of the Acoustical Society of America, vol. 79, pp. 806-813.
- Boehnke, S. E., Hall, S. E. and Marquardt, T. 2002: 'Detection of static and dynamic changes in interaural correlation', Journal of the Acoustical Society of America, vol. 112, pp. 1617-1626.
- Chernyak, R. I. and Dubrovsky, N. A. 1968: 'Pattern of the noise images and the binaural summation of loudness for the different interaural correlation of noise', Proceedings of the 6th International Congress on Acoustics, Tokyo, pp. A53-A56.
- Damaschke, J., Granzow, M., Riedel, H. and Kollmeier, B. 2000: 'The equivalence relation between interaural time and level differences for short stimuli', Zietschrift fur Audiologie, vol. 39, no. 2, pp. 40-52.
- Grantham, W. D. 1982: 'Detectability of time-varying interaural correlation in narrow-band noise stimuli', Journal of the Acoustical Society of America, vol. 72, no. 4 (October), pp. 1178-1184.
- Grewin, C. 1995: 'Can objective measures replace subjective assessments?', AudioEngineering Society Preprints, 99th Convention, preprint no. 4067.
- Hartmann, W. M. and Constan, Z. A. 2002: 'Interaural level differences and the level-meter model', Journal of the Acoustical Society of America, vol. 112, no. 3 (September), pp. 1037-1045.
- Ifeachor, E. C. and Jervis, B. W. 1993: Digital Signal Processing: APractical Approach, (Wokingham, UK: Addison-Wesley), ISBN: 020154413X.
- ISO (1987), 'Acoustics - normal equal-loudness level contours', ISO 226.
- Keet, W. de V. 1968: 'The influence of early lateral reflections on the spatial impression', Proceedings of the 6th International Congress on Acoustics, Tokyo, pp. E53-E56.
- Kuhn, G. F. 1977: 'Model for the interaural time differences in the azimuthal plane', Journal of the Acoustical Society of America, vol. 62, no. 1 (July), pp. 157-167.
- Mason, R. 2002: 'Elicitation and measurement of auditory spatial attributes in reproduced sound', PhD Thesis, University of Surrey.
- Mason, R., Brookes, T. and Rumsey, F. 2002: 'The perceptual relevance of extant techniques for the objective measurement of spatial impression', Proceedings of the Institute of Acoustics Auditorium Acoustics 2002 Conference, London.
- Mason, R., Brookes, T. and Rumsey, F. 2003: 'Creation and verification of a controlled experimental stimulus for investigating selected perceived spatial attributes', Audio Engineering Society Preprint, 114th Convention, preprint no. 5771.
- Mason, R., Brookes, T. and Rumsey, F. 2004a: 'Development of the interaural cross-correlation coefficient into a more complete auditory width prediction model', Proceedings of the 18th International Congress on Acoustics, vol. IV, pp. 2453-2456.
- Mason, R., Brookes, T. and Rumsey, F. 2004b: 'Spatial impression: measurement and perception of concert hall acoustics and reproduced sound', Proceedings of the International Symposium on Room Acoustics: Design and Science 2004, paper S03.
- Mason, R., Brookes, T. and Rumsey, F. 2004c: 'Integration of measurements of interaural cross-correlation coefficient and interaural time difference within a single model of perceived source width', Audio Engineering Society Preprint, 117th Convention, preprint no. 6317.
- Mason, R., Brookes, T. and Rumsey, F. 2004d: 'Evaluation of an auditory source width prediction model based on the interaural cross-correlation coefficient', 148th Meeting of the Acoustical Society of America, Journal of the Acoustical Society of America, vol. 116, no. 4 (October), pp. 2475.
- Mason, R., Brookes, T. and Rumsey, F. 2005a: 'Frequency dependency of the relationship between the perceived width and the interaural cross-correlation coefficient of time-invariant stimuli', Journal of the Acoustical Society of America, vol. 117, no. 3 (March), pp. 1337-1350.
- Mason, R., Brookes, T. and Rumsey, F. 2005b: 'The effect of various source signal properties on measurements of the interaural cross-correlation coefficient', Acoustical Science & Technology, vol. 26, no. 2 (March), pp. 102-113.
- Mason, R. and Brookes, T. 2006: 'Perceived spatial impression of interaurally phase-inverted narrow-band signals', submitted to the Journal of the Acoustical Society of America, 2006
- Morimoto, M. and Iida, K. 1995: 'A practical evaluation method of auditory source width in concert halls', Journal of the Acoustical Society of Japan (EnglishTranslation), vol. 16, no. 2, pp. 59-69.
- Morimoto, M., Ueda, K. and Kiyama, M. 1995: 'Effects of frequency characteristics of the degree of interaural cross-correlation and sound pressure level on the auditory source width', Acustica, vol. 81, pp. 20-25.
- Pollack, I. 1978: 'Temporal switching between binaural information sources', Journal of the Acoustical Society of America, vol. 63, no. 2 (February), pp. 550-558.
- Neher, T., Brookes, T. and Mason, R. 2006: 'Musically representative test signals for use in interaural cross-correlation coefficient measurements', accepted for publication in Acta Acustica united with Acustica.
- Slaney, M. 1993: 'An efficient implementation of the Patterson-Holdsworth auditory filter bank', Apple Computer Technical Report, no. 35.
- Toole, F. 1985: 'Subjective measurements of loudspeaker sound quality and listener performance', Journal of the Audio Engineering Society, vol. 33, pp. 2-32.
- Yanagawa, H., Anazawa, T., and Itow, T. 1990: 'Interaural correlation coefficient and their relation to the perception of subjective diffuseness', Acustica, vol. 71, pp. 230-232.