Citation: F. Worgotter et al., A POSSIBLE BASIC CORTICAL MICROCIRCUIT CALLED CASCADED INHIBITION - RESULTS FROM CORTICAL NETWORK MODELS AND RECORDING EXPERIMENTS FROM STRIATE SIMPLE CELLS, Experimental Brain Research, 122(3), 1998, pp. 318-332
Citation: B. Li et al., ORIENTATIONAL AND DIRECTIONAL SELECTIVITIES OF VISUAL NEURONS IN THE SUPERIOR COLLICULUS OF THE CAT, SCIENCE IN CHINA SERIES C-LIFE SCIENCES, 39(2), 1996, pp. 123-132
Citation: Ym. Xiao et al., A MORPHOLOGICAL-STUDY OF NEURONS EXPRESSING NADPH DIAPHORASE ACTIVITYIN THE VISUAL-CORTEX OF THE GOLDEN-HAMSTER, Brain, behavior and evolution, 48(4), 1996, pp. 221-230
Citation: Y. Wang et al., HOW IS DIRECTION SELECTIVITY ORGANIZED IN THE EXTRASTRIATE VISUAL AREA PMLS OF THE CAT, NeuroReport, 6(15), 1995, pp. 1969-1974
Citation: Js. Sun et al., TRANSCALLOSAL CIRCUITRY REVEALED BY BLOCKING AND DISINHIBITING CALLOSAL INPUT IN THE CAT, Visual neuroscience, 11(2), 1994, pp. 189-197
Citation: B. Li et al., QUANTIFICATION OF DIRECTIONAL AND ORIENTATIONAL SELECTIVITIES OF VISUAL NEURONS TO MOVING STIMULI, Biological cybernetics, 70(3), 1994, pp. 281-290
Citation: Js. Sun et al., THE INFLUENCE OF CALLOSAL INPUT TO THE NEURONS AT THE AREA 17 18 BORDER REGION IN THE CAT/, Investigative ophthalmology & visual science, 33(4), 1992, pp. 1218-1218