P-unit_model/thesis/Masterthesis.bbl

\begin{thebibliography}{}

\bibitem[Babineau et~al., 2007]{babineau2007spatial}
Babineau, D., Lewis, J.~E., and Longtin, A. (2007).
\newblock Spatial acuity and prey detection in weakly electric fish.
\newblock {\em PLoS Computational Biology}, 3(3):e38.

\bibitem[Barlow et~al., 1961]{barlow1961possible}
Barlow, H.~B. et~al. (1961).
\newblock Possible principles underlying the transformation of sensory
  messages.
\newblock {\em Sensory communication}, 1:217--234.

\bibitem[Bastian, 1981]{bastian1981electrolocation}
Bastian, J. (1981).
\newblock Electrolocation.
\newblock {\em Journal of comparative physiology}, 144(4):465--479.

\bibitem[Benda et~al., 2005]{benda2005spike}
Benda, J., Longtin, A., and Maler, L. (2005).
\newblock Spike-frequency adaptation separates transient communication signals
  from background oscillations.
\newblock {\em Journal of Neuroscience}, 25(9):2312--2321.

\bibitem[Benda et~al., 2010]{benda2010linear}
Benda, J., Maler, L., and Longtin, A. (2010).
\newblock Linear versus nonlinear signal transmission in neuron models with
  adaptation currents or dynamic thresholds.
\newblock {\em Journal of Neurophysiology}, 104(5):2806--2820.

\bibitem[Chacron et~al., 2001]{chacron2001simple}
Chacron, M.~J., Longtin, A., and Maler, L. (2001).
\newblock Simple models of bursting and non-bursting p-type electroreceptors.
\newblock {\em Neurocomputing}, 38:129--139.

\bibitem[Chacron et~al., 2004]{chacron2004burst}
Chacron, M.~J., Longtin, A., and Maler, L. (2004).
\newblock To burst or not to burst?
\newblock {\em Journal of computational neuroscience}, 17(2):127--136.

\bibitem[Gao and Han, 2012]{gao2012implementing}
Gao, F. and Han, L. (2012).
\newblock Implementing the nelder-mead simplex algorithm with adaptive
  parameters.
\newblock {\em Computational Optimization and Applications}, 51(1):259--277.

\bibitem[Gussin et~al., 2007]{gussin2007limits}
Gussin, D., Benda, J., and Maler, L. (2007).
\newblock Limits of linear rate coding of dynamic stimuli by electroreceptor
  afferents.
\newblock {\em Journal of neurophysiology}, 97(4):2917--2929.

\bibitem[Kashimori et~al., 1996]{kashimori1996model}
Kashimori, Y., Goto, M., and Kambara, T. (1996).
\newblock Model of p-and t-electroreceptors of weakly electric fish.
\newblock {\em Biophysical journal}, 70(6):2513--2526.

\bibitem[Maciver et~al., 2001]{maciver2001prey}
Maciver, M.~A., Sharabash, N.~M., and Nelson, M.~E. (2001).
\newblock Prey-capture behavior in gymnotid electric fish: motion analysis and
  effects of water conductivity.
\newblock {\em Journal of experimental biology}, 204(3):543--557.

\bibitem[Nelder and Mead, 1965]{nelder1965simplex}
Nelder, J.~A. and Mead, R. (1965).
\newblock A simplex method for function minimization.
\newblock {\em The computer journal}, 7(4):308--313.

\bibitem[Olypher and Calabrese, 2007]{olypher2007using}
Olypher, A.~V. and Calabrese, R.~L. (2007).
\newblock Using constraints on neuronal activity to reveal compensatory changes
  in neuronal parameters.
\newblock {\em Journal of Neurophysiology}, 98(6):3749--3758.

\bibitem[Padmanabhan and Urban, 2010]{padmanabhan2010intrinsic}
Padmanabhan, K. and Urban, N.~N. (2010).
\newblock Intrinsic biophysical diversity decorrelates neuronal firing while
  increasing information content.
\newblock {\em Nature neuroscience}, 13(10):1276--1282.

\bibitem[Ratnam and Nelson, 2000]{ratnam2000nonrenewal}
Ratnam, R. and Nelson, M.~E. (2000).
\newblock Nonrenewal statistics of electrosensory afferent spike trains:
  implications for the detection of weak sensory signals.
\newblock {\em Journal of Neuroscience}, 20(17):6672--6683.

\bibitem[Scheich et~al., 1973]{scheich1973coding}
Scheich, H., Bullock, T.~H., and Hamstra~Jr, R. (1973).
\newblock Coding properties of two classes of afferent nerve fibers:
  high-frequency electroreceptors in the electric fish, eigenmannia.
\newblock {\em Journal of Neurophysiology}, 36(1):39--60.

\bibitem[Todd and Andrews, 1999]{todd1999identification}
Todd, B.~S. and Andrews, D.~C. (1999).
\newblock The identification of peaks in physiological signals.
\newblock {\em Computers and biomedical research}, 32(4):322--335.

\bibitem[Tripathy et~al., 2013]{tripathy2013intermediate}
Tripathy, S.~J., Padmanabhan, K., Gerkin, R.~C., and Urban, N.~N. (2013).
\newblock Intermediate intrinsic diversity enhances neural population coding.
\newblock {\em Proceedings of the National Academy of Sciences},
  110(20):8248--8253.

\bibitem[Walz, 2013]{walz2013Phd}
Walz, H. (2013).
\newblock {\em Encoding of Communication Signals in Heterogeneous Populations
  ofElectroreceptors}.
\newblock PhD thesis, Eberhard-Karls-Universität Tübingen.

\bibitem[Walz et~al., 2014]{walz2014static}
Walz, H., Grewe, J., and Benda, J. (2014).
\newblock Static frequency tuning accounts for changes in neural synchrony
  evoked by transient communication signals.
\newblock {\em Journal of Neurophysiology}, 112(4):752--765.

\bibitem[Xu et~al., 1996]{xu1996logarithmic}
Xu, Z., Payne, J.~R., and Nelson, M.~E. (1996).
\newblock Logarithmic time course of sensory adaptation in electrosensory
  afferent nerve fibers in a weakly electric fish.
\newblock {\em Journal of neurophysiology}, 76(3):2020--2032.

\bibitem[Zeldenrust et~al., 2018]{zeldenrust2018neural}
Zeldenrust, F., Wadman, W.~J., and Englitz, B. (2018).
\newblock Neural coding with bursts—current state and future perspectives.
\newblock {\em Frontiers in computational neuroscience}, 12:48.

\bibitem[Zupanc et~al., 2006]{zupanc2006electric}
Zupanc, G., S{\^\i}rbulescu, R., Nichols, A., and Ilies, I. (2006).
\newblock Electric interactions through chirping behavior in the weakly
  electric fish, apteronotus leptorhynchus.
\newblock {\em Journal of Comparative Physiology A}, 192(2):159--173.

\end{thebibliography}