9. <strong>Sejnowski</strong>, T. J., Language learning in massively-parallel networks, Proceedings of the24th Annual Meeting of the Association for Computational Linguistics (June 10-13,1986).10. Lehky, S. R. and <strong>Sejnowski</strong>, T. J., Extracting 3-D curvatures from images of surfacesusing a neural model, Society for Neuroscience Abstracts 13, 1451 (1987).11. Gorman, R. P. and <strong>Sejnowski</strong>, T. J., Learned Classification of Sonar Targets Using aMassively-Parallel Network, Digital Signal Processing Workshop, IEEE Acoustics, Speechand Signal Processing, Chatham, MA, (October 20-22, 1986).12. Lehky, S. R., Jester, J. M. and <strong>Sejnowski</strong>, T. J., Line element model of disparitydiscrimination, Investigative Ophthalmology and Visual Science Supplement 28, 293(1987).13. Lehky, S. R. and <strong>Sejnowski</strong>, T. J., Extracting 3-D curvatures from images of surfacesusing a neural network, Optical Society for America, Annual Meeting (1987).14. Lehky, S. R., and <strong>Sejnowski</strong>, T. J., Model of depth interpolation using a distributedrepresentation of disparity, Investigative Ophthalmology and Visual ScienceSupplement 29, 398 (1988).15. Krause, A. W., Haralabatos, I. C., <strong>Sejnowski</strong>, T. J., Actions of glutamate receptoragonists on intracellular free calcium in cultured turtle cerebellar neurons, Society forNeuroscience Abstracts 14:95 (1988).16. Jester, J., Stanton, P. K. and <strong>Sejnowski</strong>, T. J., Asymmetry of associative long-termpotentiation (LTP) in hippocampus across the cell body of CA1 pyramidal cells, Societyfor Neuroscience Abstracts 14, 567 (1988).17. Chattarji, S., Stanton, P. K.and <strong>Sejnowski</strong>, T. J., CA3 commissural, but not mossyfiber, synapses in hippocampus exhibit associative long-term potentiation (LTP) usingrhythmically coactive inputs, Society for Neuroscience Abstracts 14, 567 (1988).18. Stanton, P. K., Jester, J., Chattarji, S. and <strong>Sejnowski</strong>, T. J., Associative long-termpotentiation (LTP) or depression (LTD) is produced in hippocampus dependent upon thephase of rhythmically coactive inputs, Society for Neuroscience Abstracts 14, 19(1988).19. Stanton, P. K. and <strong>Sejnowski</strong>, T. J., Long-term depression in hippocampal pyramidalneurons induced by low-frequency presynaptic activity paired with postsynaptichyperpolarization. Society for Neuroscience Abstracts 15, 165 (1989).20. Lockery, S. R., Wittenberg, G., Kristan, W. B. and <strong>Sejnowski</strong>, T. J., Connections ofidentified interneurons in the leech arise in neural networks trained bybackpropagation, Society for Neuroscience Abstracts 15, 1119 (1989).21. Chattarji, S., Stanton, P. K. and <strong>Sejnowski</strong>, T. J., Induction of associative long-termdepression (LTD) in hippocampal field CA3 is not mediated by NMDA receptors, Societyfor Neuroscience Abstracts 15: 165 (1989).
22. Wathey, J., Lytton, W. Jester, J. and <strong>Sejnowski</strong>, T. J., Simulations of synapticpotentials using realistic models of hippocampal pyramidal cells, Society forNeuroscience Abstracts 15, 403 (1989).23. Qian, N. and <strong>Sejnowski</strong>, T. J., Inhibition on dendritic spines and thin dendrites may beineffective because of ionic concentration changes, Society for Neuroscience Abstracts15, 184 (1989).24. Adams, R. J. and <strong>Sejnowski</strong>, T. J., Measurement of calcium transients in pyramidalneurons of hippocampal slices visualized by confocal microscopy, Society forNeuroscience Abstracts 16, 490 (1990).25. Bush, P. C. and <strong>Sejnowski</strong>, T. J., Large-scale compartment model of a cerebellarPurkinji cell, Society for Neuroscience Abstracts 16, 1298 (1990).26. Chattarji, S., Stanton, P. K., and <strong>Sejnowski</strong>, T. J., 2-amino-3-phosphonopropionate(AP3) blocks induction of associative long-term depression (LTD) in hippocampal fieldCA1, Society for Neuroscience Abstracts 16, 660 (1990).27. Holliday, J., Adams, R. J., <strong>Sejnowski</strong>, T. J., and Spitzer, N. C., Spatial and temporalresolution of calcium transients produced by stimulation of differentiating amphibianspinal neurons, Society of Neuroscience Abstracts 16, 1172 (1990).28. Lehky, S. R., Desimone, R., and <strong>Sejnowski</strong>, T., Network modeling of spatial propertiesof units in striate cortex, Society for Neuroscience Abstracts 16, 229 (1990).29. Lockery, S. R. and <strong>Sejnowski</strong>, T. J., Models of learning without detectable synapticplasticity in the leech, Society for Neuroscience Abstracts 16, 626 (1990).30. Lytton, W. W. and <strong>Sejnowski</strong>, T. J., Inhibitory interneurons may help synchronize firingof postsynaptic cells, Society for Neuroscience Abstracts 16, 468 (1990).31. Quartz, S. R., Adams, R. J., and <strong>Sejnowski</strong>, T. J., Fluorescent mitochondrial stains asvital probes of metabolic activity in the rat hippocampal slice preparation, Society forNeuroscience Abstracts 16, 346 (1990).32. Roskies, A., Armstrong, B., Amaral, D. G., and <strong>Sejnowski</strong>, T. J., Neuroanatomicalmodel of intrinsic hippocampal circuitry in the rat, Society for Neuroscience Abstracts16, 121 (1990).33. Pouget, A. and <strong>Sejnowski</strong>, T. J., A neural network model for computing depth fromstereopsis, Investigative Opthalmology and Visual Science Supplement 31, 96 (1990).34. Adams, R. J. and <strong>Sejnowski</strong>, T. J., Confocal imaging of calcium transients and wholecellrecording from pyramidal cells in area ca1 of rat hippocampal slices, Society forNeuroscience Abstracts 17, 1328 (1991).35. Bush, P. C., Li, S. and <strong>Sejnowski</strong>, T. J., Quantal analysis of superimposed excitatorypostsynaptic potentials from multiple synapses, Society for Neuroscience Abstracts 17,385 (1991).
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