 | 2010 |
|---|
| 22 |       | Yash P. Gad,
Thomas J. Anastasio:
Simulating the shaping of the fastigial deep nuclear saccade command by cerebellar Purkinje cells.
Neural Networks 23(7): 789-804 (2010) |
| 2009 |
|---|
| 21 | | Fredrick H. Rothganger,
Thomas J. Anastasio:
Using input minimization to train a cerebellar model to simulate regulation of smooth pursuit.
Biological Cybernetics 101(5-6): 339-359 (2009) |
| 20 | | Andrea K. Barreiro,
Jared C. Bronski,
Thomas J. Anastasio:
Bifurcation theory explains waveform variability in a congenital eye movement disorder.
Journal of Computational Neuroscience 26(2): 321-329 (2009) |
| 2008 |
|---|
| 19 | | Maxim Raginsky,
Thomas J. Anastasio:
Cooperation in self-organizing map networks enhances information transmission in the presence of input background activity.
Biological Cybernetics 98(3): 195-211 (2008) |
| 2007 |
|---|
| 18 | | Thomas J. Anastasio,
Yash P. Gad:
Sparse cerebellar innervation can morph the dynamics of a model oculomotor neural integrator.
Journal of Computational Neuroscience 22(3): 239-254 (2007) |
| 2003 |
|---|
| 17 | | Paul E. Patton,
Thomas J. Anastasio:
Modeling Cross-Modal Enhancement and Modality-Specific Suppression in Multisensory Neurons.
Neural Computation 15(4): 783-810 (2003) |
| 2001 |
|---|
| 16 | | Thomas J. Anastasio:
A pattern correlation model of vestibulo-ocular reflex habituation.
Neural Networks 14(1): 1-22 (2001) |
| 2000 |
|---|
| 15 | | Thomas J. Anastasio,
Paul E. Patton,
Kamel Belkacem-Boussaid:
Using Bayes' Rule to Model Multisensory Enhancement in the Superior Colliculus.
Neural Computation 12(5): 1165-1187 (2000) |
| 1999 |
|---|
| 14 | | Ernst R. Dow,
Thomas J. Anastasio:
Analysis and Modeling of Frequency-Specific Habituation of the Goldfish Vestibulo-Ocular Reflex.
Journal of Computational Neuroscience 7(1): 55-70 (1999) |
| 1998 |
|---|
| 13 |  | Hao Pan,
Zhi-Pei Liang,
Thomas J. Anastasio,
Thomas S. Huang:
A Hybrid NN-Bayesian Architecture for Information Fusion.
ICIP (1) 1998: 368-371 |
| 12 | | Thomas J. Anastasio:
Nonuniformity in the linear network model of the oculomotor integrator produces approximately fractional-order dynamics and more realistic neuron behavior.
Biological Cybernetics 79(5): 377-391 (1998) |
| 11 | | Ernst R. Dow,
Thomas J. Anastasio:
Analysis and Neural Network Modeling of the Nonlinear Correlates of Habituation in the Vestibulo-ocular Reflex.
Journal of Computational Neuroscience 5(2): 171-190 (1998) |
| 1997 |
|---|
| 10 | | Thomas J. Anastasio:
Symmetry and Self-Organization of the Oculo-Motor Neural Integrator.
IWANN 1997: 116-123 |
| 9 | | Ernst R. Dow,
Thomas J. Anastasio:
Instabilities in Eye Movement Control: A Model of Periodic Alternating Nystagmus.
NIPS 1997 |
| 8 | | Thomas J. Anastasio:
A burst-feedback model of fast-phase burst generation during nystagmus.
Biological Cybernetics 76(2): 139-152 (1997) |
| 1996 |
|---|
| 7 | | Thomas J. Anastasio:
A random walk model of fast-phase timing during optokinetic nystagmus.
Biological Cybernetics 75(1): 1-9 (1996) |
| 1994 |
|---|
| 6 | | Thomas J. Anastasio,
M. J. Correia:
"Velocity leakage" in the pigeon vestibulo-ocular reflex.
Biological Cybernetics 70(3): 235-245 (1994) |
| 5 | | Thomas J. Anastasio:
The fractional-order dynamics of brainstem vestibulo-oculomotor neurons.
Biological Cybernetics 72(1): 69-79 (1994) |
| 4 | | Thomas J. Anastasio:
Testable predictions from recurrent backpropagation models of the vestibulo-ocular reflex.
Neurocomputing 6(2): 237-255 (1994) |
| 1992 |
|---|
| 3 | | Thomas J. Anastasio:
Simulating vestibular compensation using recurrent back-propagation.
Biological Cybernetics 66(5): 389-397 (1992) |
| 1991 |
|---|
| 2 | | Thomas J. Anastasio:
Learning in the Vestibular System: Simulations of Vestibular Compensation Using Recurrent Back-Propagation.
NIPS 1991: 603-610 |
| 1990 |
|---|
| 1 | | Thomas J. Anastasio:
A Recurrent Neural Network Model of Velocity Storage in the Vestibulo-Ocular Reflex.
NIPS 1990: 32-38 |
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