Biology:F-I curve

In neuroscience, a frequency-current curve (fI or F-I curve) is the function that relates the net synaptic current (I) flowing into a neuron to its firing rate (F)^[1]^[2] Because the f-I curve only specifies the firing rate rather than exact spike times, it is a concept suited to the rate coding rather than temporal coding model of neuronal computation. Common mathematical models for f-I include the sigmoid, exponential, and rectified linear functions.

The experimental study of how neuronal firing rates can relate to applied currents goes back at least as far as Hodgkin.^[3]

References

↑ Troyer, Todd W.; Miller, Kenneth D. (1997). "Integrate-and-Fire Neurons Matched to Physiological F-I Curves Yield High Input Sensitivity and Wide Dynamic Range". in Bower, James M. (in en). Computational Neuroscience. Springer US. pp. 197–201. doi:10.1007/978-1-4757-9800-5_32. ISBN 978-1-4757-9802-9.
↑ Cardin, Jessica A.; Palmer, Larry A.; Contreras, Diego (2008-07-10). "Cellular mechanisms underlying stimulus-dependent gain modulation in primary visual cortex neurons in vivo". Neuron 59 (1): 150–160. doi:10.1016/j.neuron.2008.05.002. PMID 18614036.
↑ Hodgkin, AL (15 March 1948). "The local electric changes associated with repetitive action in a non-medullated axon.". The Journal of Physiology 107 (2): 165–81. doi:10.1113/jphysiol.1948.sp004260. PMID 16991796.
↑ Ermentrout, B. (1998-10-01). "Linearization of F-I curves by adaptation". Neural Computation 10 (7): 1721–1729. doi:10.1162/089976698300017106. PMID 9744894.

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Original source: https://en.wikipedia.org/wiki/F-I curve. Read more

[1] Troyer, Todd W.; Miller, Kenneth D. (1997). "Integrate-and-Fire Neurons Matched to Physiological F-I Curves Yield High Input Sensitivity and Wide Dynamic Range". in Bower, James M. (in en). Computational Neuroscience. Springer US. pp. 197–201. doi:10.1007/978-1-4757-9800-5_32. ISBN 978-1-4757-9802-9.

[2] Cardin, Jessica A.; Palmer, Larry A.; Contreras, Diego (2008-07-10). "Cellular mechanisms underlying stimulus-dependent gain modulation in primary visual cortex neurons in vivo". Neuron 59 (1): 150–160. doi:10.1016/j.neuron.2008.05.002. PMID 18614036.

[3] Hodgkin, AL (15 March 1948). "The local electric changes associated with repetitive action in a non-medullated axon.". The Journal of Physiology 107 (2): 165–81. doi:10.1113/jphysiol.1948.sp004260. PMID 16991796.

[4] Ermentrout, B. (1998-10-01). "Linearization of F-I curves by adaptation". Neural Computation 10 (7): 1721–1729. doi:10.1162/089976698300017106. PMID 9744894.

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