1. Iolov, A, Ditlevsen S and Longtin, A (2014) Stochastic optimal control of single neuron spike trains. J. Neural Eng. 11, 046004.
  2. Iolov, A, Ditlevsen S and Longtin, A (2014) Fokker-Planck and Fortet equation-based parameter estimation for a leaky integrate-and-fire model with sinusoidal and stochastic forcing. J. Math. Neurosci. 4, 4.
  3. Nesse, W, Maler, L and Longtin, A (2010) Biophysical information representation in correlated spike trains. Proc. Nat. Acad. Sci. (USA) 107, 21973-21978. (pdf) (supplementary material)
  4. Khanbabaie, R, Nesse, WH, Longtin, A and Maler, L (2010) Kinetics of fast short-term depression are matched to spike train statistics to reduce noise. J. Neurophysiol. 103, 3337-3348.
  5. Chacron, M.J., Lindner, B. and Longtin, A. (2007) Action potential threshold dynamics and information transmission. J. Comput. Neurosci. 23, 301-311. (pdf)
  6. Lindner, B. and Longtin, A. (2006) Comment on: "Characterization of subthreshold voltage fluctuations in neuronal membranes" by M. Rudolph and A. Destexhe. Neural Comput. 18, 1896-1931. (pdf)
  7. Lindner, B. and Longtin, A. (2005) Effect of an exponentially decaying threshold on the firing statistics of a stochastic integrate-and-fire neuron. J. Theor. Biol. 232, 505-521. (pdf)
  8. Chacron, M.J., Longtin, A. and Maler, L. (2005) Delayed excitatory and inhibitory feedback shape neural information transmission. Phys. Rev. E 72, 051917. (selected for the November 15, 2005 issue of the Virtual Journal of Biological Physics Research). (pdf)
  9. Lindner, B., Chacron, M.J. and Longtin, A.(2005) Integrate-and-fire neurons with threshold noise - A tractable model of how interspike interval correlations affect neuronal signal transmission. Phys. Rev. E 72, 021911. (pdf)
  10. Chacron, M.J., Lindner, B., Maler, L., Longtin, A., and Bastian, J. (2005) Experimental and theoretical demonstration of noise shaping by interspike interval correlations. In: Fluctuations and Noise in Biological, Biophysical and Biomedical Systems III, N.G. Stocks, D. Abbott and R.P. Morse, eds., Proc. SPIE Vol.5841, pp.150-163. (invited paper) (pdf)
  11. Chacron, M.J., Lindner, B. and Longtin, A. (2004) ISI correlations and information transfer. Fluct. Noise Lett. 4, L195-L205. (pdf)
  12. Chacron,M.J., Lindner,B. and Longtin, A. (2004) Noise shaping by interval correlations increases information transfer in spiking neurons. Phys. Rev. Lett. 92, 080601. (see News and Views, Nature 428, 382 by Arun Holden) (also, there's a typo: see Erratum, Phys. Rev. Lett. 93, 059904) (pdf)
  13. Chacron, M.J., Pakdaman, K. and Longtin, A., (2004) Chaotic firing in the sinusoidally forced leaky integrate-and-fire model with threshold fatigue. Physica D 192 , 138-160. (pdf)
  14. Lindner, B. and Longtin, A. (2003) Nonrenewal spike trains generated by stochastic neuron models, Proceedings SPIE 5114, 209-218 (Fluctuations and Noise, Santa Fe, June 2003). (invited paper) (pdf)
  15. Middleton, J.W., Chacron, M.J., Lindner, B. and Longtin, A. (2003) Firing statistics of a model neuron driven by long-range correlated noise. Phys. Rev. E. 68, 021920. (pdf)
  16. Lindner, B., Longtin, A. and Bulsara, A.R. (2003) Analytical expressions for rate and CV of a Type I neuron driven by Gaussian white noise. Neural Comput. 15, 1761-1788. (pdf)
  17. Chacron, M. J., Pakdaman, K. and Longtin, A. (2003) Interspike interval correlations, memory, adaptation, and refractoriness in a leaky integrate-and-fire model with threshold fatigue. Neural Comput. 15, 253-278. (pdf)
  18. Longtin, A., Laing, C.R. and Chacron, M.J.(2003) Correlations and memory in neurodynamical systems. In: Long-Range-Dependent Stochastic Processes: Theory and Applications, Lecture Notes in Physics Vol.621, edited by G. Rangarajan and M. Ding (Springer-Verlag, Berlin) (invited paper). (pdf)
  19. Middleton, J.W., Chacron, M.J., Lindner, B. and Longtin, A. (2002) Correlated noise and memory effects in neural firing statistics. AIP Proceedings, "Unsolved Problems on Noise" (Washington, DC, Sept. 2002) (in press).
  20. Chacron, M.J., Longtin, A. and Maler, L. (2001) Negative interspike interval correlations increase the neuronal capacity for encoding time-dependent stimuli, J. Neurosci. 21, 5328-5343. (pdf)
  21. Capurro, A., Longtin, A., Bagarinao, E., Sato, S., Macadar, O. and Pakdaman, K. (2001) Variability of the electric organ discharge interval duration in resting Gymnotus carapo. Biol. Cybern. 84, 309-321. (pdf)
  22. Chacron, M., Longtin, A., St-Hilaire, M. and Maler, L. (2000) Suprathreshold stochastic firing dynamics with memory in P-type electroreceptors. Phys. Rev. Lett. 85, 1576-1579. (pdf)
  23. Racicot, D. and Longtin, A. (1997) Interspike interval attractors from chaotically driven neuron models. Physica D 104, 184-204. (pdf)
  24. Longtin, A. (1997) Nonlinear prediction of biosignals. Japan Soc. of Med. Electron. and Biol. Engin. BME 11(1), 11-17. (invited review)
  25. Longtin, A. and Racicot, D.M. (1997) Spike train patterning and forecastability. Biosystems 40, 111-118. (pdf)
  26. Longtin, A. and D.M. Racicot (1997) Assessment of linear and nonlinear correlations between neural firing events. In: Nonlinear Dynamics and Time Series: Building a Bridge between the Natural and Statistical Sciences, eds. C.D. Cutler and D.T. Kaplan, Fields Institute Communications Vol.11, 223-239.