Title

Loudness Functions and Binaural Loudness Summation in Bilateral Cochlear Implant Users

Journal title

Archives of Acoustics

Yearbook

2017

Volume

vol. 42

Issue

No 3

Authors

Kordus, Monika ; Żera, Jan

Divisions of PAS

Nauki Techniczne

Publisher

Polish Academy of Sciences, Institute of Fundamental Technological Research, Committee on Acoustics

Date

2017

Identifier

DOI: 10.1515/aoa-2017-0037

Source

Archives of Acoustics; 2017; vol. 42; No 3

References

McKay (1998), Loudness perception with pulsatile electrical stimulation : the effect of interpulse interval, Acoust Soc Am, 17, 104. ; Zeng (1997), Loudness of simple and complex stimuli in electric hearing of, Annals Rhinology, 27, 166. ; Stevens (1955), The measurement of loudness, Acoust Soc Am, 22, 815. ; Fletcher (1953), Hearing in Co New York nd, Speech Communication. ; Hellman (1981), Stability of individual loudness functions obtained by magnitude estimation and production, Psych, 29, 63. ; McKay (1994), Pitch percepts associated with amplitudemodulated current pulse trains in cochlear implantees, Acoust Soc Am, 18, 2664. ; Sanpetrino (2006), The growth of loudness functions measured in cochlear implant listeners using absolute magnitude estimation and compared using Akaike s information criterion, Conf Proc IEEE Eng Med Biol Soc, 20, 1. ; Anweiler (2006), Spectral loudness summation for short and long signals as a function of level, Acoust Soc Am, 5, 1. ; Marks (1978), Binaural sumation of the loudness of pure tones, Acoust Soc Am, 14, 1. ; Stevens (1957), The direct Estimation of Sensory Magnitudes - Loudness, Am J Psychol, 23, 69. ; McKay (2003), practical method of predicting the loudness of complex electrical stimuli, Acoust Soc Am, 16, 113. ; Litovsky (2010), Effect of age at onset of deafness on binaural sensitivity in electric hearing in humans, Acoust Soc Am, 13, 127. ; Scharf (1965), Zwicker model of loudness summation, Rev, 31, 72. ; Tong (1986), Loudness summation masking and temporal interaction for sensations produced by electrical stimulation of two sites in the human cochlea, Acoust Soc Am, 24, 1958. ; Barbenza (1970), de Individual loudness functions, Sound Vib, 11, 399. ; Garnier (1999), Temporal loudness integration and spectral loudness summation in normalhearing and hearing - impaired listeners, Acta, 119. ; Zeng (1999), laws revealed by electric hearing Report, null, 28, 1931. ; Vaerenberg (2014), Setting and reaching targets with computer - assisted cochlear implant fitting Hindawi Publishing Corporation The Scientific World article ID, Journal, 25. ; Canévet (1986), Group estimation of loudness in sound fields, Acustica, 277. ; Marks (2011), of loudness Part problems pitfalls in Loudness New York, Methods, 15, 57. ; Zwislocki (1969), Temporal summation of loudness an analysis, Acoust Soc Am, 46, 431. ; Leibold (2007), Use of perceptual weights to test a model of loudness summation, Acoust Soc Am, 12, 122. ; Flottorp (1957), Zwicker Critical band width in loudness summation, Acoust Soc Am, 30, 548. ; German (1958), Zwicker On psychological and methodological bases of loudness in psychologische und metodische Grundlagen der Lautheit, null, 29, 237. ; McKay (2001), Loudness summation for pulsatile electrical stimulation of the cochlea : effects of rate electrode separation level and mode of stimulation, Acoust Soc Am, 19, 110. ; Florentine (1996), Temporal integration of loudness as a in function of level, Acoust Soc Am, 99. ; Hoth (2007), Indication for the need of flexible and frequency specyfic mapping functions in cochlear implant speech processors, Eur Arch Otorhinolaryngol, 11, 264. ; Stevens (1964), Individual loudness functions, Acoust Soc Am, 21, 11. ; Fu (2005), Loudness growth in cochlear implants : effect of stimulation and electrode configuration Hear, Res, 202. ; Zeng (1994), Loudness - coding mechanisms inferred from electric stimulation of the human auditory system, Science, 26, 264. ; (1991), Zwicker Zwicker Dependence of binaural loudness summation on interaural level differences spectral distribution and temporal distribution, Acoust Soc Am, 89.