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Smith E, Lewicki MS (2005) Efficient coding of time-relative structure using spikes. Neural Comput 17:19-45 [PubMed]

References and models cited by this paper

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Baumgarte F (2002) Improved audio coding using a psychoacoustic model based on a cochlear filter bank IEEE Transactions On Speech And Audio Processing 10:495-503

Blauert J (1997) Spatial Hearing

Chen SS, Donoho DL, Saunders MA (1996) A composite model of the auditory periphery for the processing of speech SIAM Rev 43:129-159

Garofolo JS, Lamel LF, Fisher WM, Fiscus JG, Pallett DS, Dahlgren NL, Zue V (1990) TIMIT acoustic-phonetic continuous speech corpus Audio CD

Gitza O (1988) Temporal non-place information in the auditory-nerve firing patterns as a front-end for speech recognition in noisy environments J Phonetics 16:109-124

Goodwin MM, Vetterli M (1999) Matching pursuit and atomic signal models based on recursive filter banks IEEE Transactions On Signal Processing 47:1890-1902

Gribonval R, Depalle P, Rodet X, Bacryf E, Mallatt S (1994) Sound signals decomposition using a high resolution matching pursuit Proceedings of International Computer Music Conference :293-296

Lewicki MS (2002) Efficient coding of time-varying patterns using a spiking population code Probabilistic models of the brain: Perception and neural function, Rao RPN:Olshausen BA:Lewicki MS, ed. pp.241

Lewicki MS (2002) Efficient coding of natural sounds. Nat Neurosci 5:356-63 [Journal] [PubMed]

Lewicki MS, Olshausen BA (1999) A probabilistic framework for the adaptation and comparison of image codes J Opt Soc Am A: Optics, Image, Science And Vision 16:1587-1601

Lewicki MS, Sejnowski TJ (1999) Coding time-varying signals using sparse, shift-invariant representations Advances in neural information processing systems, Kearns MS:Solla S:Cohn D, ed. pp.730

Lewicki MS, Sejnowski TJ (2000) Learning overcomplete representations. Neural Comput 12:337-65 [PubMed]

Liberman A, Delattre P, Cooper F (1958) Some cues for the distinction between voiced and voiceless stops in initial position Language And Speech 1:905-917

Lyon RF (1982) A computational model of filtering, detection and compression in the cochlea IEEE Int Conf Acoust, Speech and Signal Processing

Mallat SG, Zhang Z (1993) Matching pursuits with time-frequency dictionaries IEEE Transactions On Signal Processing 41:3397-3415

Olshausen BA (2002) Sparse codes and spikes Probabilistic models of the brain: Perception and neural function, Rao RPN:Olshausen BA:Lewicki MS, ed. pp.257

Patterson RD, Nimmo-smith I, Holdsworth J, Rice P (1988) Implementing a gammatone filter bank SVOS Final Report: The Auditory Filter Bank.

Rabiner LR, Levinson SE (1981) Isolated and connected word recognition: Theory and selected applications IEEE Trans. Communications 25:621-659

Shannon CE (1948) The mathematical theory of communication Bell Syst Tech J 27:379

Slaney M (1998) Auditory toolbox Tech. Rep. No. 1998-010

Slaney M, Lyon RF (1993) On the importance of a time-a temporal representation of sound. Visual Representations Of Speech Signals, Cooke M:Beet S:Crawford M, ed. pp.95

Yang X, Wang K, Shamma S (1992) Auditory representations of acoustic signals IEEE Trans Inf Theory 38:824-839

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