Bruce IC, White MW, Irlicht LS, O'Leary SJ, Dynes S, Javel E, Clark GM (1999) A stochastic model of the electrically stimulated auditory nerve: single-pulse response. IEEE Trans Biomed Eng 46:617-29 [PubMed]

•	Cochlear implant models (Bruce et al. 1999a, b, c, 2000) [Model]

Cariani PA (2002) Neural timing nets. Neural Netw 14:737-53

Heinz MG, Colburn HS, Carney LH (2001) Evaluating auditory performance limits: i. one-parameter discrimination using a computational model for the auditory nerve. Neural Comput 13:2273-316 [Journal] [PubMed]

•	Auditory nerve model with linear tuning (Heinz et al 2001) [Model]

Heinz MG, Colburn HS, Carney LH (2001) Rate and timing cues associated with the cochlear amplifier: level discrimination based on monaural cross-frequency coincidence detection. J Acoust Soc Am 110:2065-84 [PubMed]

•	Integrate and fire model code for spike-based coincidence-detection (Heinz et al. 2001, others) [Model]

Jackson BS, Carney LH (2005) The spontaneous-rate histogram of the auditory nerve can be explained by only two or three spontaneous rates and long-range dependence. J Assoc Res Otolaryngol 6:148-59 [Journal] [PubMed]

•	Auditory nerve spontaneous rate histograms (Jackson and Carney 2005) [Model]

Kalluri S, Delgutte B (2003) Mathematical models of cochlear nucleus onset neurons: I. Point neuron with many weak synaptic inputs. J Comput Neurosci 14:71-90 [PubMed]

Kuhlmann L, Burkitt AN, Paolini A, Clark GM (2002) Summation of spatiotemporal input patterns in leaky integrate-and-fire neurons: application to neurons in the cochlear nucleus receiving converging auditory nerve fiber input. J Comput Neurosci 12:55-73 [PubMed]

Lin X, Hant J (2001) Computer-simulation studies on roles of potassium currents in neurotransmission of the auditory nerve. Hear Res 152:90-9 [PubMed]

Nelson PC, Carney LH (2007) Neural rate and timing cues for detection and discrimination of amplitude-modulated tones in the awake rabbit inferior colliculus. J Neurophysiol 97:522-39 [Journal] [PubMed]

Peterson AJ, Heil P (2018) A simple model of the inner-hair-cell ribbon synapse accounts for mammalian auditory-nerve-fiber spontaneous spike times. Hear Res 363:1-27 [Journal] [PubMed]

Remme MWH, Rinzel J, Schreiber S (2018) Function and energy consumption constrain neuronal biophysics in a canonical computation: Coincidence detection. PLoS Comput Biol 14:e1006612 [Journal] [PubMed]

•	Function and energy constrain neuronal biophysics in coincidence detection (Remme et al 2018) [Model]

Rowat P (2007) Interspike interval statistics in the stochastic Hodgkin-Huxley model: coexistence of gamma frequency bursts and highly irregular firing. Neural Comput 19:1215-50 [Journal] [PubMed]

Tan Q, Carney LH (2003) A phenomenological model for the responses of auditory-nerve fibers. II. Nonlinear tuning with a frequency glide. J Acoust Soc Am 114:2007-20 [PubMed]

•	Auditory nerve response model (Tan, Carney 2003) [Model]

Winslow JL (1990) Analysis and numerical solution of the dendrite equation with synapses applied to cochlear neurons. Prog Neurobiol 34:91-105 [PubMed]

Zhang X, Carney LH (2005) Response properties of an integrate-and-fire model that receives subthreshold inputs. Neural Comput 17:2571-601 [Journal] [PubMed]

•	Response properties of an integrate and fire model (Zhang and Carney 2005) [Model]

Zhang X, Heinz MG, Bruce IC, Carney LH (2001) A phenomenological model for the responses of auditory-nerve fibers: I. Nonlinear tuning with compression and suppression. J Acoust Soc Am 109:648-70 [PubMed]

•	Auditory nerve response model (Zhang et al 2001) [Model]

Zhou Y, Carney LH, Colburn HS (2005) A model for interaural time difference sensitivity in the medial superior olive: interaction of excitatory and inhibitory synaptic inputs, channel dynamics, and cellular morphology. J Neurosci 25:3046-58 [Journal] [PubMed]

•	A model for interaural time difference sensitivity in the medial superior olive (Zhou et al 2005) [Model]

Zilany MS, Bruce IC (2006) Modeling auditory-nerve responses for high sound pressure levels in the normal and impaired auditory periphery. J Acoust Soc Am 120:1446-66 [PubMed]

•	Cat auditory nerve model (Zilany and Bruce 2006, 2007) [Model]

Zilany MS, Bruce IC, Nelson PC, Carney LH (2009) A phenomenological model of the synapse between the inner hair cell and auditory nerve: long-term adaptation with power-law dynamics. J Acoust Soc Am 126:2390-412 [Journal] [PubMed]

•	Long-term adaptation with power-law dynamics (Zilany et al. 2009) [Model]
•	Cochlea: inner ear models in Python (Zilany et al 2009, 2014; Holmberg M 2007) [Model]