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Joris PX, Carney LH, Smith PH, Yin TC (1994) Enhancement of neural synchronization in the anteroventral cochlear nucleus. I. Responses to tones at the characteristic frequency. J Neurophysiol 71:1022-36 [PubMed]

References and models cited by this paper

References and models that cite this paper

Brette R (2012) Computing with neural synchrony. PLoS Comput Biol 8:e1002561 [Journal] [PubMed]
   Computing with neural synchrony (Brette 2012) [Model]
Carney LH, Heinz MG, Evilsizer ME, Gilkey RH, Colburn HS (2002) Auditory Phase Opponency: A Temporal Model for Masked Detection at Low Frequencies Acta Acustica united with Acustica 88:334-347 [Journal]
   Integrate and fire model code for spike-based coincidence-detection (Heinz et al. 2001, others) [Model]
Colburn HS, Carney LH, Heinz MG (2003) Quantifying the information in auditory-nerve responses for level discrimination. J Assoc Res Otolaryngol 4:294-311 [Journal] [PubMed]
   Integrate and fire model code for spike-based coincidence-detection (Heinz et al. 2001, others) [Model]
Goldwyn JH, Mc Laughlin M, Verschooten E, Joris PX, Rinzel J (2014) A model of the medial superior olive explains spatiotemporal features of local field potentials. J Neurosci 34:11705-22 [Journal] [PubMed]
   A model of local field potentials generated by medial superior olive neurons (Goldwyn et al 2014) [Model]
Goodman DF, Brette R (2010) Spike-timing-based computation in sound localization. PLoS Comput Biol 6:e1000993 [Journal] [PubMed]
   Spike-Timing-Based Computation in Sound Localization (Goodman and Brette 2010) [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]
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]
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]
Rothman JS, Manis PB (2003) Differential expression of three distinct potassium currents in the ventral cochlear nucleus. J Neurophysiol 89:3070-82 [Journal] [PubMed]
   CN bushy, stellate neurons (Rothman, Manis 2003) [Model]
Rothman JS, Manis PB (2003) The roles potassium currents play in regulating the electrical activity of ventral cochlear nucleus neurons. J Neurophysiol 89:3097-113 [Journal] [PubMed]
   CN bushy, stellate neurons (Rothman, Manis 2003) (Brian 2) [Model]
   CN bushy, stellate neurons (Rothman, Manis 2003) (Brian) [Model]
   CN bushy, stellate neurons (Rothman, Manis 2003) [Model]
Spirou GA, Rager J, Manis PB (2005) Convergence of auditory-nerve fiber projections onto globular bushy cells. Neuroscience 136:843-63 [Journal] [PubMed]
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   Response properties of an integrate and fire model (Zhang and Carney 2005) [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, 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]
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