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Computation of optical motion by movement detectors. Biophysical Chemistry 52.
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74 (2), p. 91 (1987)
An estimation of the time constant of movement detectors. Die Naturwissenschaften 53.
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55 (1), pp. 59 - 69 (1986)
What kind of movement detector is triggering the landing response of the housefly? Biological Cybernetics 54.
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54 (6), pp. 379 - 383 (1986)
Time course of the Houseflies' landing response. Biological Cybernetics 55.
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312 (1158), pp. 527 - 551 (1986)
Flight performance and visual control of flight of the free-flying housefly (Musca domestica L.) I: Organization of the flight motor. Philosophical Transactions of the Royal Society of London, Series B: Biological Sciences 56.
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312 (1158), pp. 581 - 595 (1986)
Flight performance and visual control of flight of the free-flying housefly (musca domestical L.) III: Interactions between angular movement induced by wide- and smallfield stimuli. Philosophical Transactions of the Royal Society of London, Series B: Biological Sciences 57.
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55 (4), pp. 275 - 280 (1986)
Motion sensitive yaw torque responses of the housefly Musca: a quantitative study. Biological Cybernetics 58.
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42 (6), pp. 159 - 163 (1986)
Musterinduziertes Flugverhalten der Fliege Musca domestica. Physikalische Blätter 59.
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53 (5), pp. 285 - 306 (1986)
Elementary pattern discrimination (Behavioural experiments with the fly Musca domestica). Biological Cybernetics 60.
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Processing of optical information by the visual system of the fly. Vision Research 61.
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52 (4), pp. 267 - 280 (1985)
On the neuronal basis of figure-ground discrimination by relative motion in the visual system of the fly III: Possible input circuitries and behavioural significance of the FD-cells. Biological Cybernetics 62.
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52 (3), pp. 195 - 209 (1985)
On the neuronal basis of figure-ground discrimination by relative motion in the visual system of the fly II: Figure-detection cells, a new class of visual interneurones. Biological Cybernetics 63.
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52 (2), pp. 123 - 140 (1985)
On the neuronal basis of figure-ground discrimination by relative motion in the visual system of the fly I: Behavioural constraints imposed on the neuronal network and the role of the optomotor system. Biological Cybernetics 64.
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78 (1), pp. 9 - 42 (1985)
The visual system of insects: Processing of optical information. Rivista di Biologia 65.
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105 (23), pp. 1280 - 1281 (1984)
Gehirn und Computer. Elektrotechnische Zeitschrift: ETZ 66.
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1984, pp. 93 - 110 (1984)
Figur-Grund-Unterscheidung durch das visuelle System. Jahrbuch der Max-Planck-Gesellschaft 67.
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1984, pp. 312 - 318 (1984)
Forschungsbericht des Max-Planck-Instituts für biologische Kybernetik. Jahrbuch der Max-Planck-Gesellschaft 68.
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219 (1215), pp. 211 - 216 (1983)
Microsurgical lesion of horizontal cells changes optomotor yaw responses in the blowfly Calliphora erythrocephala. Proceedings of the Royal Society B: Biological Sciences 69.
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1983, pp. 76 - 78 (1983)
Laudatio auf Sir Bernard Katz. Reden und Gedenkworte: Orden Pour le Mérite für Wissenschaften und Künste 70.
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1983, pp. 280 - 287 (1983)
Forschungsbericht des Max-Planck-Instituts für biologische Kybernetik. Jahrbuch der Max-Planck-Gesellschaft 71.
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46 (1 Supplement), pp. 1 - 30 (1983)
Figure-ground discrimination by relative movement in the visual system of the fly Part II: Towards the neural circuitry. Biological Cybernetics 72.
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46 (1), pp. 67 - 79 (1982)
Motion sensitive interneurons in the optomotor system of the fly II: The horizontal cells: Receptive field organization and response characteristics. Biological Cybernetics 73.
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45 (2), pp. 143 - 156 (1982)
Motion sensitive interneurons in the optomotor system of the fly I: The horizontal cells: Structure and signals. Biological Cybernetics 74.
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149 (2), pp. 163 - 177 (1982)
The number and structure of giant vertical cells (VS) in the lobula plate of the blowfly Calliphora erythrocephala. Journal of Comparative Physiology 75.
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297 (5862), pp. 147 - 148 (1982)
Flow-field variables trigger landing in flies. Nature 76.
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1982, pp. 250 - 256 (1982)
Forschungsbericht des Max-Planck-Instituts für biologische Kybernetik. Jahrbuch der Max-Planck-Gesellschaft 77.
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213 (1193), pp. 451 - 477 (1981)
Visual hyperacuity: spatiotemporal interpolation in human vision. Proceedings of the Royal Society B: Biological Sciences 78.
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4 (10), pp. 258 - 262 (1981)
Marr's computational approach to vision. Trends in Neurosciences 79.
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41 (3), pp. 197 - 201 (1981)
Asymptotic oscillations in the tracking behaviour of the fly Musca domestica. Biological Cybernetics 80.
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68 (9), pp. 443 - 446 (1981)
A neuronal circuitry for relative movement discrimination by the visual system of the fly. Die Naturwissenschaften 81.
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41 (2), pp. 91 - 99 (1981)
Is the landing response of the housefly (Musca) driven by motion of a flow field? Biological Cybernetics 82.
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40 (2), pp. 101 - 112 (1981)
Visual fixation and tracking by flies: Mathematical properties of simple control systems. Biological Cybernetics 83.
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1981, pp. 263 - 271 (1981)
Forschungsbericht des Max-Planck-Instituts für biologische Kybernetik. Jahrbuch der Max-Planck-Gesellschaft 84.
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3-D Analysis of the Flight Trajectories of Flies (Drosophila melanogaster). Zeitschrift für Naturforschung, C: Journal of Biosciences 85.
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How are tracking and fixation accomplished in the nervous system of the fly? Biological Cybernetics 86.
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38 (3), pp. 179 - 186 (1980)
How is tracking and fixation accomplished in the nervous system of the fly?: A behavioural analysis based on short time stimulation. Biological Cybernetics 87.
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67 (8), pp. 411 - 412 (1980)
Analogy between hologram formation and computation of relative movement by the visual system of the fly. Die Naturwissenschaften 88.
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70 (7), pp. 868 - 870 (1980)
Smallest channel in early human vision. Journal of the Optical Society of America 89.
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37 (3), pp. 167 - 186 (1980)
On the representation of multi-input systems: Computational properties of polynomial algorithms. Biological Cybernetics 90.
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208 (1170), pp. 57 - 71 (1980)
Sexually dimorphic interneuron arrangements in the fly visual system. Proceedings of the Royal Society B: Biological Sciences 91.
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208 (3), pp. 371 - 387 (1980)
The synaptic organization of visual interneurons in the lobula complex of flies: A light and electron microscopical study using silver-intensified cobalt-impregnations. Cell and Tissue Research 92.
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Systemanalyse in der Verhaltensforschung. Physik in unserer Zeit 93.
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An improved cobalt sulfide-silver intensification method for electron microscopy. Brain Research 94.
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Figure-ground discrimination by relative movement in the visual system of the fly, Part I: Experimental results. Biological Cybernetics 95.
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Bandpass Channels, Zero-Crossings, and Early Visual Information Processing. Journal of the Optical Society of America 96.
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A computational theory of human stereo vision. Proceedings of the Royal Society B: Biological Sciences 97.
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32 (4), pp. 239 - 241 (1979)
Sex-specific differences in the chasing behaviour of houseflies (Musca). Biological Cybernetics 98.
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The organization of the lamina ganglionaris of the hemipteran insects, Notonecta glauca, Corixa punctata and Gerris lacustris. Cell and Tissue Research 99.
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From Understanding Computation to Understanding Neural Circuitry. Neuroscience Research Program Bulletin 100.
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Analysis of a cooperative stereo algorithm. Biological Cybernetics