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Initial checkin for AIM92 aimR8.2 (last updated May 1997).
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1 aimBibliography
2
3 AIM BIBLIOGRAPHY
4
5 A listing of papers that have appeared in papers involving AIM and its
6 antecedents. Where there are multiple papers for one author, the
7 papers are ordered firstly by year of publication and secondly by the
8 names of the second and succeeding authors, as this format seems to
9 facilitate retrieval.
10
11
12 Aertsen, A. M. J. H. and P. I. M. Johannesma (1980). "Spectro-
13 temporal receptive fields of auditory neurons in the
14 grassfrog," I. Characterisation of tonal and natural stimuli.
15 Biol. Cybern. 38, 223-234.
16
17 Akeroyd, M.A. and Patterson, R.D. (1995). "Discrimination of wideband
18 noises modulated by a temporally asymmetric function,"
19 J. Acoust. Soc. Am. (revision submitted May 95).
20
21 Allerhand, M., Butterfield, S., Cutler, R. and Patterson, R.D. (1992).
22 "Assessing syllable strength via an auditory model," In Proceedings
23 of the Institute of Acoustics, Vol. 14, Part 6 , 297-304.
24
25 Allerhand, M. and Patterson, R. (1992). "Correlograms and auditory
26 images," In Proceedings of the Institute of Acoustics, Vol. 14, Part
27 6, 281-288.
28
29 Anderson, T.R. and Patterson, R.D. (1994). "Speaker recognition with
30 the auditory image model and self-organising feature maps: A
31 comparison with traditional techniques," In: Proc. ESCA meeting on
32 Speaker recognition, identification and verification. Martigny,
33 Switzerland.
34
35 Assman, P.F. & Summerfield, A.Q. (1989) "Modeling the perception of
36 concurrent vowels: Vowels with the same fundamental frequency,"
37 J. Acoust. Soc. Am. 85, 327-338.
38
39 Assman, P. F. and Q. Summerfield (1990). "Modelling the perception of
40 concurrent vowels: Vowels with different fundamental frequencies,"
41 J. Acoust. Soc. Am. 88, 680-697.
42
43 Boer, E. de and de Jongh, H. R. (1978). "On cochlear encoding:
44 potentialities and limitations of the reverse-correlation
45 technique," J. Acoust. Soc. Am. 63, 115-135.
46
47 Bregman, A.S. (1990). Auditory scene analysis. MIT Press, Cambridge
48 MA.
49
50 Brown, G.J. and Cooke, M. (1994). "Computational auditory scene
51 analysis," Computer Speech and Language 8, 297-336.
52
53 Carney, L.H. and Yin, C.T. (1988) "Temporal coding of resonances
54 by low-frequency auditory nerve fibers: Single fibre responses
55 and a population model," J. Neurophysiology, 60, 1653-1677.
56
57 de Cheveigne, A. (1993). "Separation of concurrent harmonic sounds:
58 Fundamental frequency estimation and a time-domain cancellation
59 model of auditory processing," J. Acoust. Soc. Am. 93, 3271-3290.
60
61 Cooke, M.P. (1993). Modelling Auditory Processing and Organisation,
62 Cambridge University Press.
63
64 Duifhuis, H., Willems, L.F., and Sluyter, R.J. (1982) "Measurement of
65 pitch in speech: an implementation of Goldstein's theory of pitch
66 perception," J. Acoust. Soc. Am. 71, 1568-1580.
67
68 Giguere, C., Woodland, P.C., and Robinson, A.J. (1993). "Application
69 of an auditory model to the computer simulation of hearing
70 impairment: Preliminary results," Can. Acoust. 21, 135-136.
71
72 Giguere, C., and Woodland, P.C. (1994a). "A computational model of the
73 auditory periphery for speech and hearing research. I. Ascending
74 path," J. Acoust. Soc. Am. 95, 331-342.
75
76 Giguere, C., and Woodland, P.C. (1994b). "A computational model of the
77 auditory periphery for speech and hearing research. II: Descending
78 paths,'' J. Acoust. Soc. Am. 95, 343-349.
79
80 Giguere, C., Kunov, H., and Smoorenburg, G.F. (1995). "Computational
81 modelling of psycho-acoustic combination tones and
82 distortion-product otoacoustic emissions," 15th Int. Cong. on
83 Acoustics, Trondheim (Norway), 26-30 June.
84
85 Glasberg, B. R. and B. C. J. Moore (1990). "Derivation of auditory
86 filter shapes from notched-noise data," Hearing Research, 47,
87 103-138.
88
89 Goldstein, J.L. (1973) "An optimum processor theory for the central
90 formation of the pitch of complex tones," J. Acoust. Soc. Am. 54,
91 1496-1516.
92
93 Green, D. M. (1988). Profile Analysis: auditory intensity
94 discrimination, Oxford University Press, New York.
95
96 Greenwood, D.D. (1961) "Critical bandwidth and the frequency
97 coordinates of the basilar membrane," J. Acoust. Soc. Am. 33,
98 1344-1356.
99
100 Greenwood, D. D. (1990). "A cochlear frequency-position function
101 for several species - 29 years later," J. Acoust. Soc. Am. 87,
102 2592-2605.
103
104 Henning, G.B. (1967) "Frequency discrimination in noise," J. Acoust.
105 Soc. Am. 41, 774-777.
106
107 Holdsworth, J. (1990). "Two-Dimensional adaptive thresholding,"
108 Annex 4 of AAM-HAP Report 1 (APU Contract Report). (The basic paper
109 on 2D-AT that never managed to get published).
110
111 Holdsworth, J.W., and Patterson, R.D. (1991). "Analysis of
112 waveforms," UK Patent No. GB 2-234-078-A (23.1.91). London: UK
113 Patent Office.
114
115 Holdsworth, J., Nimmo-Smith, I., Patterson, R.D. and Rice, P. (1988).
116 Annex C of "Spiral Vos Final Report, Part A: The Auditory
117 Filterbank," APU report 2341. (For historical interest.)
118
119 Irino, T. and Patterson, R.D. (1995). "Temporal asymmetry in the
120 auditory system," J. Acoust. Soc. Am. (revised manuscript submitted
121 June 95).
122
123 Licklider, J. C. R. (1951). "A duplex theory of pitch perception,"
124 Experientia, 7, 128-133. Reprinted in E. D. Schubert (ed.),
125 Psychological Acoustics. Stroudsburg, P. A., Dowden,
126 Hutchinson and Ross Inc. (1979).
127
128 Lutman, M.E. and Martin, A.M. (1979). "Development of an
129 electroacoustic analogue model of the middle ear and acoustic
130 reflex," J. Sound. Vib. 64, 133-157.
131
132 Lyon, R.F. (1982). "A computational model of filtering,
133 detection, and compression in the cochlea," In: Proc. IEEE Int.
134 Conf. Acoust., Speech Signal Processing. Paris, France.
135
136 Lyon, R.F. (1984). "Computational models of neural auditory
137 processing," In: Proc. IEEE Int. Conf. Acoust. Speech Signal
138 Processing. San Diego, CA. March 1984.
139
140 McKeown, D. and Patterson, R.D. (1995). "The time course of auditory
141 segregation: concurrant vowels that vary in duration,"
142 J. Acoust. Soc. Am. (in press).
143
144 Meddis, R. (1986). "Simulation of mechanical to neural transduction in
145 the auditory receptor," J. Acoust. Soc. Am. 79, 702-711.
146
147 Meddis, R. (1988). "Simulation of auditory-neural transduction:
148 Further studies," J. Acoust. Soc. Am. 83, 1056-1063.
149
150 Meddis, R., Hewitt, M. and Shackleton, T. (1990). "Implementation
151 details of a computational model of the inner-haircell/
152 auditory-nerve synapse," J. Acoust. Soc. Am. 87, 1813-1816.
153
154 Meddis, R. and M. J. Hewitt (1991a). "Virtual pitch and phase
155 sensitivity of a computer model of the auditory periphery: I
156 pitch identification," J. Acoust. Soc. Am. 89, 2866-82.
157
158 Meddis, R. and M. J. Hewitt (1991b). "Virtual pitch and phase
159 sensitivity of a computer model of the auditory periphery: II
160 phase sensitivity," J. Acoust. Soc. Am. 89, 2883-94.
161
162 Meddis, R. & Hewitt, M.J. (1992) "Modeling the identification of
163 concurrent vowels with different fundamental frequencies,"
164 J. Acoust. Soc. Am. 91, 233-245.
165
166 Moore, B.C.J. (1989). An introduction to the psychology of
167 hearing. Academic Press, London.
168
169 Moore, B.C.J and Glasberg, B.R. (1983), "Suggested formulae for
170 calculating auditory filter bandwidths and excitiation patterns,"
171 J. Acoust. Soc. Am. 74, 750-753.
172
173 Patuzzi, R., and Robertson, D. (1988) "Tuning in the mammalian
174 cochlea," Physiological Reviews 68, 1009-1082.
175
176 Patterson, R. D. (1974). "Auditory filter shape," J. Acoust. Soc.
177 Am. 55, 802-809.
178
179 Patterson, R. D. (1976). "Auditory filter shapes derived with
180 noise stimuli," J. Acoust. Soc. Am. 59, 640-654.
181
182 Patterson, R.D., Nimmo-Smith, I., Weber, D.L., and Milroy, R. (1982).
183 "The deterioration of hearing with age: Frequency selectivity, the
184 critical ratio, the audiogram, and speech threshold," J. Acoust.
185 Soc. Am. 72, 1788-1803.
186
187 Patterson, R.D., Peters, R.W. & Milroy, R. (1983). "Threshold duration
188 for melodic pitch," In Hearing - Physiological bases and
189 psychophysics edited by R. Klinke & W. Hartmann (Springer:Berlin)
190 321-325.
191
192 Patterson, R.D. (1986). "Spiral detection of periodicity and the
193 spiral form of musical scales," Psychology of Music 14, 44-61.
194
195 Patterson, R. D. and B.C.J. Moore (1986). "Auditory filters and
196 excitation patterns as representations of frequency
197 resolution." In: Frequency Selectivity in Hearing. B.C.J.
198 Moore (Ed.), Academic Press, London. 123-177.
199
200 Patterson R.D. and Nimmo-Smith, I. (1986). "Thinning periodicity
201 detectors for modulated pulse streams," In B.C.J. Moore and
202 R.D. Patterson (Eds.) Auditory Frequency Selectivity (NATO ASI
203 Series A: Life Sciences, Vol. 19), New York:Plenum, 299-307.
204
205 Patterson, R.D. (1987a). "A pulse ribbon model of peripheral
206 auditory processing," In William A. Yost and Charles, S.
207 Watson, (Eds.) Auditory Processing of Complex Sounds.
208 Hillsdale, N.J., Erlbaum, 167-169.
209
210 Patterson, R.D. (1987b). "A pulse ribbon model of monaural
211 phase perception," J. Acoust. Soc. Am. 82, 1560-1586.
212
213 Patterson, R.D. (1988). "Timbre cues in monaural phase perception:
214 Distinguishing within-channel cues and between-channel cues," In
215 H. Duifhuis, J.W. Horst and H.P. (Eds.), Basic Issues in Hearing.
216 Proceedings of the 8th International Symposium on Hearing. London:
217 Academic Press, 351-358.
218
219 Patterson, R.D., Nimmo-Smith, I., Holdsworth, J., and Rice, P. (1988).
220 "Spiral Vos Final Report, Part A: The Auditory Filterbank," APU
221 Contract Report (APU 2341). (Of historical interest for the
222 gammatone auditory filterbank.)
223
224 Patterson R.D. and Cutler A. (1989). "Auditory preprocessing and
225 recognition of speech," In A.D. Baddeley and N.O. Bernsen (Ed.)
226 Research Directions in Cognitive Science 1, London:Erlbaum, 23-60.
227
228 Patterson, R.D. & Hirahara, T. (1989). "HMM speech recognition using
229 DFT and auditory spectrograms," ATR HIP Technical Report 10.23.89.
230
231 Patterson, R.D. (1990) "The tone height of multi-harmonic sounds,"
232 Music Perception 8, 203-214.
233
234 Patterson, R.D. and Holdsworth, J. (1993). "A functional model
235 of neural activity patterns and auditory images," In: Advances in
236 Speech, Hearing and Language Processing 3, W.A. Ainsworth (ed.),
237 JAI Press, London. (in press since 1991 but never seems to get to
238 the proof stage.)
239
240 Patterson, R. D. and Holdsworth, J. (1990) "An introduction to
241 auditory sensation processing," Annex 1 of APU AAM-HAP Report 1.
242 (Of historical interest only. Now obsolete).
243
244 Patterson, R.D., Robinson, K., Holdsworth, J., McKeown, D., Zhang,
245 C. and Allerhand M. (1992) "Complex sounds and auditory images,"
246 In: Auditory physiology and perception, Y Cazals, L. Demany,
247 K. Horner (eds), Pergamon, Oxford, 429-446.
248
249 Patterson, R. D., Allerhand, M. H. and Holdsworth, J. (1992)
250 "Auditory representations of speech sounds," In Visual
251 representations of speech signals, Eds. Martin Cooke, Steve
252 Beet, and Malcolm Crawford, John Wiley & Sons, Chichester. 307-314.
253
254 Patterson, R.D., Holdsworth, J. and Allerhand M. (1992). "Auditory
255 Models as preprocessors for speech recognition," In: The Auditory
256 Processing of Speech: From the auditory periphery to words,
257 M.E.H. Schouten (ed), Mouton de Gruyter, Berlin, 67-83.
258
259 Patterson, R.D., Milroy, R. and Allerhand, M. (1993). "What is
260 the octave of a harmonically rich note?" Contemporary Music Review
261 Vol. 9, Harwood, Switzerland, 69-81.
262
263 Patterson, R.D. (1994a). "The sound of a sinusoid: Spectral models,"
264 J. Acoust. Soc. Am. 96, 1409-1418.
265
266 Patterson, R.D. (1994b). "The sound of a sinusoid: Time-interval
267 models." J. Acoust. Soc. Am. 96, 1419-1428.
268
269 Patterson, R.D., Anderson, T., and Allerhand, M. (1994). "The auditory
270 image model as a preprocessor for spoken language," in Proc. Third
271 ICSLP, Yokohama, Japan, 1395-1398.
272
273 Patterson, R.D. and Akeroyd, M. A. (1995). "Time-interval patterns and
274 sound quality," in: Advances in Hearing Research: Proceedings of
275 the 10th International Symposium on Hearing, G. Manley, G. Klump,
276 C. Koppl, H. Fastl, & H. Oeckinghaus, (Eds). World Scientific,
277 Singapore, (in press).
278
279 Patterson, R.D., Allerhand, M., and Giguere, C., (1995). "Time-domain
280 modelling of peripheral auditory processing: A modular architecture
281 and a software platform," J. Acoust. Soc. Am. 98, (in press).
282
283 Pickles, J. O. (1988) An introduction to the physiology of
284 hearing. Academic Press, London.
285
286 Robinson, A., Holdsworth, J., Patterson, R.D., and Fallside, F (1990).
287 "A Comparison of Preprocessors for the Cambridge Recurrent Error
288 Propagation Network Speech Recognition System," ICSLP, Kobe, Japan,
289 1033-1036.
290
291 Robinson, K.L. (1993). Studies in timbre and pitch. Doctoral
292 dissertation. Cambridge University.
293
294 Robinson, K.L. & Patterson, R.D. (1995a) "The duration required to
295 identify the instrument, the octave, or the pitch-chroma of a
296 musical note," Music Perception (in press).
297
298 Robinson, K.L. & Patterson, R.D. (1995b) "The stimulus duration required to
299 identify vowels, their octave, and their pitch-chroma," J. Acoust. Soc.
300 Am 98, (in press).
301
302 Scheffers, M. T. M. (1983a). Sifting vowels: Auditory pitch analysis
303 and sound segregation. Doctoral dissertation. University of
304 Groningen, The Netherlands.
305
306 Scheffers, M. T. M. (1983b). "Simulation of the auditory analysis of
307 pitch: An elaboration on the DWS meter," J. Acoust. Soc. Am. 74,
308 1716-1725.
309
310 Schofield, D. (1985) "Visualisations of speech based on a model of the
311 peripheral auditory system," NPL Report DITC 62/85. (Of historical
312 interest for the gammatone auditory filterbank.)
313
314 Slaney, M. and Lyon, R.F. (1990). "A perceptual pitch detector," in
315 Proc. IEEE Int. Conf. Acoust. Speech Signal Processing,
316 Albuquerque, New Mexico.
317
318 Slaney, M. (1993). "An efficient implementation of the Patterson-
319 Holdsworth auditory filter bank," Apple Computer Technical Report
320 #35.
321
322 Terhardt, E. (1987) "Psychophysics of audio signal processing and the
323 role of pitch in speech," In M.E.H. Schouten (Ed.) The
324 psychophysics of speech perception, Martinus Nijhoff:Leiden,
325 271-283.
326
327 Zwicker, E. (1961). "Subdivision of the audible frequency range into
328 critical bands (frequenzgruppen)," J. Acoust. Soc. Am. 33, 248.
329