Abramowitz M, Stegun IA. (1970). Handbook Of Mathematical Functions.
Bostock H. (1983). The strength-duration relationship for excitation of myelinated nerve: computed dependence on membrane parameters. The Journal of physiology. 341 [PubMed]
Bruce IC. (1997). Spatiotemporal coding of sound in the auditory nerve for cochlear implants Doctoral dissertation.
Bruce IC et al. (1999). A stochastic model of the electrically stimulated auditory nerve: pulse-train response. IEEE transactions on bio-medical engineering. 46 [PubMed]
Bruce IC, White MW, Irlicht LS, O'Leary SJ, Clark GM. (1999). The effects of stochastic neural activity in a model predicting intensity perception with cochlear implants: low-rate stimulation. IEEE transactions on bio-medical engineering. 46 [PubMed]
Bruce IC et al. (1999). A stochastic model of the electrically stimulated auditory nerve: single-pulse response. IEEE transactions on bio-medical engineering. 46 [PubMed]
Bütikofer R, Lawrence PD. (1979). Electrocutaneous nerve stimulation-II: stimulus waveform selection. IEEE transactions on bio-medical engineering. 26 [PubMed]
Clark GM, Bruce IC, Irlicht LS, White MW, Oleary SJ. (1999). Physiologically based predictions of psychophysical threshold, dynamic range and intensity difference limen in mammalian cochlear implant subjects J Acoust Soc Am.
Cox DR. (1962). Renewal Theory..
Derksen HE, Verveen AA. (1965). Fluctuations in membrane potential of axons and the problem of coding Kybernetik. 2
Derksen HE, Verveen AA. (1966). Fluctuations of resting neural membrane potential. Science (New York, N.Y.). 151 [PubMed]
Derksen HE, Verveen AA. (1968). Fluctuation phenomena in nerve membrane Proc IEEE. 56
Devore JL. (1987). Probability and Statistics for Engineering and theSciences.
Dynes S. (1996). Discharge characteristics of auditory nerve fibers for pulsatile electrical stimuli Doctoral dissertation.
Feller W. (1968). An Introduction to Probability Theory and Its Applications.
Frijns JHM. (1995). Cochlear Implants: A Modelling Approach Doctoral dissertation.
Gantz BJ, Mccabe F, Tyler RS, Preece JP. (1987). Evaluation of four cochlear implant designs. Ann Otol Rhinol Laryngol. 128
Gleich O, Wilson S. (1993). The diameters of guinea pig auditory nerve fibres: distribution and correlation with spontaneous rate. Hearing research. 71 [PubMed]
Goldberg JM, Highstein SM, Moschovakis AK, Fernandez C. (1987). Inputs from regularly and irregularly discharging vestibular nerve afferents to secondary neurons in the vestibular nuclei of the squirrel monkey. I. An electrophysiological analysis. Journal of neurophysiology. 58 [PubMed]
Hill AV. (1936). Excitation and accomodation in nerve Proc Roy Soc. 119
Hodgkin AL. (1961). The Conduction of the Nervous Impulse.
Hoopen MT, Verveen AA. (1963). Nerve-model experiments on fluctuation in excitability Prog Brain Res. 2
Keeping ES. (1962). Introduction to Statistical Inference.
Kistler WM, van Hemmen JL, Gerstner W. (1997). Reduction of Hodgkin-Huxley equations to a single-variable threshold model. Neural Comput. 9
Liberman MC, Oliver ME. (1984). Morphometry of intracellularly labeled neurons of the auditory nerve: correlations with functional properties. The Journal of comparative neurology. 223 [PubMed]
Miller CA, Abbas PJ, Robinson BK, Rubinstein JT, Matsuoka AJ. (1999). Electrically evoked single-fiber action potentials from cat: responses to monopolar, monophasic stimulation. Hearing research. 130 [PubMed]
Moxon EC, Kiang_nys , Levine RA. (1970). Auditory-nerve activity in cats with normal and abnormal cochleas Sensorineural Hearing Loss.
Ranck JB. (1975). Which elements are excited in electrical stimulation of mammalian central nervous system: a review. Brain research. 98 [PubMed]
Rattay F. (1990). Electrical Nerve Stimulation: Theory, Experiments, and Applications.
Rubinstein JT. (1995). Threshold fluctuations in an N sodium channel model of the node of Ranvier. Biophysical journal. 68 [PubMed]
Rubinstein JT, Abbas PJ, Miller CA, Matsuoka AJ. (1997). The Neurophysiological Effects of Simulated Auditory Prosthesis Stimulation. Second Quarterly Progress Report Department of Otolaryngology and Head and Neck Surgery and Department of Speech Pathology and Audiology.
Schmich RM, Miller MI. (1997). Stochastic threshold characterization of the intensity of active channel dynamical action potential generation. Journal of neurophysiology. 78 [PubMed]
Schneidman E, Freedman B, Segev I. (1998). Ion channel stochasticity may be critical in determining the reliability and precision of spike timing. Neural computation. 10 [PubMed]
Spoendlin H, Schrott A. (1989). Analysis of the human auditory nerve. Hearing research. 43 [PubMed]
Stypulkowski PH, van den Honert C. (1984). Physiological properties of the electrically stimulated auditory nerve. I. Compound action potential recordings. Hearing research. 14 [PubMed]
VERVEEN AA. (1962). Axon diameter and fluctuation in excitability. Acta morphologica Neerlando-Scandinavica. 5 [PubMed]
Verveen AA. (1960). On the fluctuation of threshold of the nerve fibre Structure and Function of the Cerebral Cortex.
Verveen AA. (1961). Fluctuation in excitability Doctoral dissertation.
Verveen AA, Derksen HE. (1969). Amplitude distribution of axon membrane noise voltage. Acta physiologica et pharmacologica Neerlandica. 15 [PubMed]
White MW. (1978). Design considerations of a prosthesis for the profoundly deaf PhD Dissertation University of California Berkeley.
White MW, Finley CC, Wilson BS. (1987). Electrical stimulation model of the auditory nerve: Stochastic response characteristics roceedings of the Ninth Annual Conference of the IEEE Engineering in Medicine and Biology Society.