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L. F. Abbott :
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Eve Marder , Jorge Golowasch , Kathryn S. Richards , Cristina Soto-Treviño , William L. Miller , L. F. Abbott Self-Assembly of Oscillatory Neurons and Networks. [Citation Graph (0, 0)][DBLP ] IWANN (1), 1999, pp:1-11 [Conf ] L. F. Abbott , Sen Song Temporally Asymmetric Hebbian Learning, Spike liming and Neural Response Variability. [Citation Graph (0, 0)][DBLP ] NIPS, 1998, pp:69-75 [Conf ] Frances S. Chance , Sacha B. Nelson , L. F. Abbott Recurrent Cortical Amplification Produces Complex Cell Responses. [Citation Graph (0, 0)][DBLP ] NIPS, 1998, pp:90-96 [Conf ] Thomas B. Kepler , L. F. Abbott , Eve Marder Order Reduction for Dynamical Systems Describing the Behavior of Complex Neurons. [Citation Graph (0, 0)][DBLP ] NIPS, 1990, pp:55-61 [Conf ] Sylvie Renaud-Le Masson , Gwendal Le Masson , Eve Marder , L. F. Abbott Hybrid Circuits of Interacting Computer Model and Biological Neurons. [Citation Graph (0, 0)][DBLP ] NIPS, 1992, pp:813-819 [Conf ] Frances S. Chance , L. F. Abbott Input-specific adaptation in complex cells through synaptic depression. [Citation Graph (0, 0)][DBLP ] Neurocomputing, 2001, v:38, n:, pp:141-146 [Journal ] Frances S. Chance , Sacha B. Nelson , L. F. Abbott A recurrent network model for the phase invariance of complex cell responses. [Citation Graph (0, 0)][DBLP ] Neurocomputing, 2000, v:32, n:, pp:339-344 [Journal ] Patrick J. Drew , L. F. Abbott Modeling temporal combination selective neurons of the songbird. [Citation Graph (0, 0)][DBLP ] Neurocomputing, 2002, v:44, n:, pp:789-794 [Journal ] Mark S. Goldman , Jorge Golowasch , Eve Marder , L. F. Abbott Dependence of firing pattern on intrinsic ionic conductances: Sensitive and insensitive combinations. [Citation Graph (0, 0)][DBLP ] Neurocomputing, 2000, v:32, n:, pp:141-146 [Journal ] Mark S. Goldman , Sacha B. Nelson , L. F. Abbott Decorrelation of spike trains by synaptic depression. [Citation Graph (0, 0)][DBLP ] Neurocomputing, 1999, v:26, n:, pp:147-153 [Journal ] Clifton C. Rumsey , L. F. Abbott Synaptic equalization by anti-STDP. [Citation Graph (0, 0)][DBLP ] Neurocomputing, 2004, v:58, n:, pp:359-364 [Journal ] Sen Song , L. F. Abbott Temporally asymmetric Hebbian learning and neuronal response variability. [Citation Graph (0, 0)][DBLP ] Neurocomputing, 2000, v:32, n:, pp:523-528 [Journal ] Christian D. Swinehart , Kris Bouchard , Peretz Partensky , L. F. Abbott Control of network activity through neuronal response modulation. [Citation Graph (0, 0)][DBLP ] Neurocomputing, 2004, v:58, n:, pp:327-335 [Journal ] Jian Zhang , L. F. Abbott Gain modulation of recurrent networks. [Citation Graph (0, 0)][DBLP ] Neurocomputing, 2000, v:32, n:, pp:623-628 [Journal ] Wulfram Gerstner , L. F. Abbott Learning Navigational Maps Through Potentiation and Modulation of Hippocampal Place Cells. [Citation Graph (0, 0)][DBLP ] Journal of Computational Neuroscience, 1997, v:4, n:1, pp:79-94 [Journal ] L. F. Abbott , Peter Dayan The Effect of Correlated Variability on the Accuracy of a Population Code. [Citation Graph (0, 0)][DBLP ] Neural Computation, 1999, v:11, n:1, pp:91-101 [Journal ] K. I. Blum , L. F. Abbott A model of spatial map formation in the hippocampus of the rat. [Citation Graph (0, 0)][DBLP ] Neural Computation, 1996, v:8, n:1, pp:85-93 [Journal ] Jorge Golowasch , Michael Casey , L. F. Abbott , Eve Marder Network Stability from Activity-Dependent Regulation of Neuronal Conductances. [Citation Graph (0, 0)][DBLP ] Neural Computation, 1999, v:11, n:5, pp:1079-1096 [Journal ] Emilio Salinas , L. F. Abbott Do Simple Cells in Primary Visual Cortex Form a Tight Frame? [Citation Graph (0, 0)][DBLP ] Neural Computation, 2000, v:12, n:2, pp:313-335 [Journal ] Christian D. Swinehart , L. F. Abbott Supervised Learning Through Neuronal Response Modulation. [Citation Graph (0, 0)][DBLP ] Neural Computation, 2005, v:17, n:3, pp:609-631 [Journal ] Reduction of conductance-based neuron models. [Citation Graph (, )][DBLP ] The path integral for dendritic trees. [Citation Graph (, )][DBLP ] Search in 0.002secs, Finished in 0.304secs