1. Jun, JJ, Longtin, A and Maler, L (2014) Sensory sampling and self-initiated movements. J. Exp. Biol. 217, 3615-28. (see: F1000 Neurological Disorders by Patrick Haggard, 8 Jan. 2015)
  2. Clarke, SE, Longtin, A and Maler, L (2014) A neural code for looming and receding motion is distributed over a population of electrosensory ON and OFF contrast cells. J. Neurosci. 34, 5583--94.
  3. Mejias JF*, Payeur A*, Selin E, Maler L and Longtin, A (2014) Subtractive, divisive, and non-monotonic gain control in feedforward nets linearized by noise and delays. Front. Comput. Neurosci. 8:19. doi 10.3389/fncom.2014.00019 (*shared 1st authorship)
  4. Clarke, SE, Naud, R, Longtin, A and Maler, L (2013) Speed-invariant encoding of looming object distance requires power law spike rate adaptation. Proc. Nat. Acad. Sci. 110, 13624-13629
  5. Mejias, JF, Marsat, G, Bol, K, Maler, L and Longtin, A (2013) Learning contrast-invariant cancellation of redundant signals in neural systems. PLoS Comput. Biol. 9, e1003180.
  6. Jun, JJ, Longtin, A and Maler, L (2013) Automated visual and electrical tracking of weakly electric fish. J. Vis. Exp. Mar 6; (85). doi: 10.3791/50962.
  7. Jun, JJ, Longtin, A and Maler, L (2013) Real-Time localization of moving dipole sources for tracking multiple free-swimming weakly electric fish. PLoS One 8, e66596.
  8. Payeur, A, Lefebvre, J, Maler, L and Longtin, A (2013) Linear response theory for two neural populations applied to gamma oscillation generation. Phys. Rev. E 87, 032703.
  9. Marsat,G, Longtin, A and Maler, L (2012) Cellular and circuit properties supporting different sensory coding strategies in electric fish and other systems. Curr. Opin. Neurobiol. (in press)
  10. Xie, JL, Wang, ZJ and Longtin, A (2012) Correlated firing and oscillations in spiking networks with global delayed inhibition. Neurocomputing 83, 146-157.
  11. Lefebvre, J, LeBlanc, V and Longtin, A (2011) Neural adaptation facilitates oscillatory responses to static inputs in a recurrent network of ON and OFF cells. J. Comput. Neurosci. 31, 73-86.
    Lefebvre, J, LeBlanc, V and Longtin, A (2011) Responses of recurrent nets of asymmetric ON and OFF cells. J. Biol. Phys. 37, 189-212.
  12. 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.
  13. Chacron, MJ, Longtin, A and Maler, L (2011) Efficient computation via sparse coding in electrosensory neural networks. Curr. Opin. Neurobiol. 21, 752-760.
  14. Lefebvre, J., Longtin, A. and LeBlanc, VG (2010) Oscillatory Response in a Sensory Network of ON and OFF cells with Instantaneous and Delayed Recurrent Connections. Phil. Trans. Royal Soc. (in press)
  15. Lefebvre, J., Longtin, A. and LeBlanc, VG (2009) Dynamics of driven recurrent networks of ON and OFF cells. Phys. Rev. E 80, 041912 ((selected for: Virtual Journal of Biological Physics Research) (pdf)
  16. Sutherland, C., Doiron, B. and Longtin, A. (2009) Feedback-induced gain control in stochastic spiking networks. Special issue on "Neuronal Dynamics of Sensory Coding" (dedicated to JP Segundo), Biol. Cybern. 100, 475-489. (pdf)
  17. Middleton, J.W., Longtin, A., Benda, J., and Maler, L. (2009) Postsynaptic receptive field size and spike threshold determine encoding of high-frequency information via sensitivity to synchronous presynaptic activity. J. Neurophysiol. 101, 1160-70. (pdf)
  18. Hutt, A., Sutherland, C. and Longtin, A. (2008) Driving neural oscillations with correlated spatial input and topographic feedback. Phys. Rev. E 78, 021911. (pdf)
  19. Longtin, A., Middleton, J.W., Cieniak, J. and Maler, L. (2008) Neural dynamics of envelope coding. Math. Biosci. 214, 87-99. (pdf)
  20. Kelly, M., Babineau, D., Longtin, A. and Lewis, J.E. (2008) Electric field interactions in pairs of electric fish: Modeling and mimicking naturalistic input. Biol. Cybern. 98, 479-490. (pdf)
  21. Szalisznyo, K., Longtin, A. and Maler, L (2008) Effect of synaptic plasticity on sensory coding and steady-state filtering properties in the electric sense. Biosystems 92, 16-28. (pdf)
  22. Longtin, A. (2007) Linking dynamics to function in weakly electric fish. SIAM News, Vol. 40(2), special issue on "Mathematics and the Brain". (March 2007)
  23. Babineau, D., Lewis, J.E. and Longtin, A. (2007) Spatial acuity and prey detection in weakly electric fish. PLoS Comp. Biol. 3, e38 (selected as "Editor's pick") (pdf)
  24. Middleton, J.W., Harvey-Girard, E., Maler, L. and Longtin, A. (2007) Envelope gating, noise shaping and signal transmission in populations of noisy neurons. Phys. Rev. E 75, 021918 (selected for: Virtual Journal of Biological Physics Research) (pdf)
  25. Chacron, M.J., Lindner, B. and Longtin, A. (2007) Action potential threshold dynamics and information transmission. J. Comput. Neurosci. 23, 301-311. (pdf)
  26. Benda, J., Longtin, A. and Maler, L. (2006) A synchronization-desynchronization code for natural communication signals. Neuron 52, 347-58. (pdf)
  27. Middleton, J.W., Longtin, A., Benda, J. and Maler, L. (2006) The cellular basis for parallel neural transmission of a high-frequency stimulus and its low-frequency envelope. Proc. Nat. Acad. Sci. (USA) 103, 14596-14601. (pdf)
  28. Babineau, D., Longtin, A. and Lewis, J.E. (2006) Characterization of the electric fields generated by weakly electric fish and of electric images they detect. J. Exp. Biol. 209, 3636-51. (pdf)
  29. Szalisznyo, K., Longtin, A. and Maler, L. (2005) Altered sensory filtering and coding properties by synaptic dynamics in the electric sense. Neurocomputing 69, 1070-1075. (pdf)
  30. 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)
  31. 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)
  32. Masuda, N., Doiron, B., Longtin, A. and Aihara, K.(2005), Coding of time-varying signals in networks of spiking neurons with global feedback. Neural Comput. 17, 2139-2175. (pdf)
  33. Benda, J., Longtin, A. and Maler, L. (2005), Spike-frequency adaptation enhances the detection of transient communication signals. J. Neuroscience 25, 2312-2321. (pdf)
  34. Doiron, B., Lindner, B., Longtin, A., Maler, L. and Bastian, J. (2004) Oscillatory activity in electrosensory neurons increases with the spatial correlation of the stochastic input stimulus. Phys. Rev. Lett. 93, 048101. (pdf)
  35. Chacron, M.J., Longtin, A. and Maler, L. (2004) To burst or not to burst? J. Comput. Neurosci. 17, 127-136. (pdf)
  36. 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)
  37. St-Hilaire, M. and Longtin, A. (2004) Information coding in models of tuberous electroreceptors. Math. Biosci. 188, 157-174. (pdf)
  38. 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)
  39. Laing, C. and Longtin, A. (2003) Periodic forcing of a model sensory neuron. Phys. Rev. E. 67, 051928. (pdf)
  40. Laing, C.R. and Longtin, A. (2003) Dynamics of deterministic and stochastic paired excitatory-inhibitory delayed feedback. Neural Comput. 15, 2779-2822. (pdf)
  41. Chacron, M.J., Doiron, B., Maler, L., Longtin, A. and Bastian, J. (2003) Non-classical receptive field mediated biological switch in a sensory neuron's frequency tuning. Nature 423, 77-81 (May 1st). (pdf)
  42. Doiron, B., Chacron, M.J., Maler, L., Longtin, A. and Bastian, J. (2003) Inhibitory feedback required for network burst responses to communication but not to prey stimuli. Nature 421, 539-543. (see News ans Views, Nature Neuroscience 6, 212-213 by F. Gabbiani) (pdf)  (supplementary material)  (supplementary figure)
  43. Noonan, L., Doiron, B., Laing, C.R., Longtin, A. and Turner, R.W. (2003) A dynamic dendritic refractory period regulates burst discharge in the electrosensory lobe of weakly electric fish. J. Neurosci. 23, 1524-1534. (pdf)
  44. 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)
  45. 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)
  46. Laing, C., Doiron, B., Longtin, A., Turner, R., Noonan, L. and Maler, L. (2003) Type I burst excitability. J. Comput. Neurosci. 14, 329-342. (pdf)
  47. Middleton, J.W., Chacron, M.J., Lindner, B. and Longtin, A. (2002) Correlated noise and memory effects in neural firing statistics. AIP Proc., "Unsolved Problems on Noise" (Washington, DC, Sept. 2002) (in press).
  48. Turner, R.W., Lemon, N., Doiron, B., Rashid, A.J., Morales, E., Maler, L., Longtin, A., and Dunn, R.J. (2002) Oscillatory burst discharge generated through conditional backpropagation of dendritic spikes. J. Physiol. (Paris) 96, 517-530. (pdf)
  49. Laing, C. and Longtin, A. (2002) A two-variable delay-differential model of somatic-dendritic interactions in bursting neurons. Bull. Math. Biol. 64/5, 829-860. (pdf)
  50. Laing, C., Doiron, B., Longtin, A. and Maler, L. (2002) Ghostbursting: The effects of dendrites on spike patterns. Neurocomputing 44-46, 127-132. (pdf)
  51. Doiron, B., Laing, C.R., Longtin, A. and Maler, L. (2002) Ghostbursting: A novel neuronal burst mechanism. J. Comput. Neurosci. 12, 5-25. (pdf)
  52. 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)
  53. Doiron, B., Longtin, A., Turner, R.W. and Maler, L. (2001) Model of gamma frequency burst discharge generated by conditional backpropagation. J. Neurophysiol. 86, 1523-1545. (pdf)
  54. Chacron, M..J., Longtin, A. and Maler, L. (2001) Simple models of bursting and non-bursting electroreceptors. Neurocomputing 38, 129-139. (pdf)
  55. 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)
  56. Doiron, B., Longtin, A., Berman, N. and Maler, L. (2001) Subtractive and divisive inhibition: Effect of voltage-dependent inhibitory conductances and noise. Neural Comput. 13 (1), 227-248. (pdf)
  57. 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)
  58. Longtin, A. and St-Hilaire, M. (2000) Encoding carrier amplitude modulations via stochastic phase synchronization. Int. J. Bifurc. Chaos 10, 2447-2463 (invited paper for special issue on Phase Synchronization ). (pdf)
  59. Longtin, A. (2000) Effect of noise on the tuning properties of excitable systems. Chaos, Solitons and Fract. 11, 1835-1848. (pdf)
  60. Longtin, A. (1998) Firing dynamics of electroreceptors. Proc. Intern. Conf. on Neural Information Processing ICONIP'98, KitaKyushu, Japan, October 1998, 27-30 (invited paper)
  61. Longtin, A. (1998) Tuning curves for noisy excitable cells. Proc., Can. Med. and Biol. Engineer. Conf., Edmonton, June 1998, 70-71.
  62. Longtin, A. and Racicot, D.M. (1997) Spike train patterning and forecastability. Biosystems 40, 111-118. (pdf)
  63. 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.