Responses to object approach by a wide field visual neurone, the LGMD2 of the locust: Characterization and image cues
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[1] M. O'Shea,et al. Protection from habituation by lateral inhibition , 1975, Nature.
[2] M O'shea,et al. The neuronal basis of a sensory analyser, the acridid movement detector system. I. Effects of simple incremental and decremental stimuli in light and dark adapted animals. , 1976, The Journal of experimental biology.
[3] M O'shea,et al. The neuronal basis of a sensory analyser, the acridid movement detector system. II. response decrement, convergence, and the nature of the excitatory afferents to the fan-like dendrites of the LGMD. , 1976, The Journal of experimental biology.
[4] G. Schlotterer. Response of the locust descending movement detector neuron to rapidly approaching and withdrawing visual stimuli , 1977 .
[5] ROBERT B. PINTER. Visual discrimination between small objects and large textured backgrounds , 1977, Nature.
[6] C. H. Fraser Rowell,et al. The neuronal basis of a sensory analyser, the acridid movement detector system. IV. The preference for small field stimuli. , 1977, The Journal of experimental biology.
[7] Thomas S. Collett,et al. SHORT COMMUNICATION PEERING - A LOCUST BEHAVIOUR PATTERN FOR OBTAINING MOTION PARALLAX INFORMATION , 1978 .
[8] R. B. Pinter,et al. Inhibition and Excitation in the Locust DCMD Receptive Field: Spatial Frequency, Temporal and Spatial Characteristics , 1979 .
[9] E. S. Eriksson. Movement Parallax and Distance Perception in the Grasshopper (Phaulacridium Vittatum (Sjöstedt)): Short Communications , 1980 .
[10] Peter J. Simmons,et al. Connexions between a movement-detecting visual interneurone and flight motoneurones of a locust. , 1980 .
[11] W. J. Heitler,et al. Triggering of locust jump by multimodal inhibitory interneurons. , 1980, Journal of neurophysiology.
[12] Donald H. Edwards. The Cockroach DCMD Neurone: I. Lateral Inhibition and the Effects of Light- and Dark-adaptation , 1982 .
[13] Samuel Rossel,et al. Binocular stereopsis in an insect , 1983, Nature.
[14] Response vs excitation in response-dependent and stimulus-dependent lateral inhibitory networks , 1983, Vision Research.
[15] F C Rind,et al. A chemical synapse between two motion detecting neurones in the locust brain. , 1984, The Journal of experimental biology.
[16] Samuel Rossel,et al. Binocular Spatial Localization in the Praying Mantis , 1986 .
[17] R. Schwind. Size and Distance Perception in Compound Eyes , 1989 .
[18] F. Claire Rind,et al. IDENTIFICATION OF DIRECTIONALLY SELECTIVE MOTION-DETECTING NEURONES IN THE LOCUST LOBULA AND THEIR SYNAPTIC CONNECTIONS WITH AN IDENTIFIED DESCENDING NEURONE , 1990 .
[19] P. Simmons,et al. Orthopteran DCMD neuron: a reevaluation of responses to moving objects. I. Selective responses to approaching objects. , 1992, Journal of neurophysiology.
[20] F C Rind,et al. Orthopteran DCMD neuron: a reevaluation of responses to moving objects. II. Critical cues for detecting approaching objects. , 1992, Journal of neurophysiology.
[21] A. Borst,et al. Neural circuit tuning fly visual interneurons to motion of small objects. I. Dissection of the circuit by pharmacological and photoinactivation techniques. , 1993, Journal of neurophysiology.
[22] M Egelhaaf,et al. Neural circuit tuning fly visual neurons to motion of small objects. II. Input organization of inhibitory circuit elements revealed by electrophysiological and optical recording techniques. , 1993, Journal of neurophysiology.
[23] F. Rind,et al. Neural network based on the input organization of an identified neuron signaling impending collision. , 1996, Journal of neurophysiology.
[24] F C Rind,et al. Intracellular characterization of neurons in the locust brain signaling impending collision. , 1996, Journal of neurophysiology.