15 Titel in Klassifikation (DDC) → Naturwissenschaften und Mathematik → Biowissenschaften; Biologie 1
zu den Filteroptionen15 Titel in Klassifikation (DDC) → Naturwissenschaften und Mathematik → Biowissenschaften; Biologie
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- Naturwissenschaften und Mathematik
- Biowissenschaften; Biologie
- Biowissenschaften; Biologie
- Physiologie und verwandte Themen
- Biochemie
- Einzelne physiologische Systeme bei Tieren
- Einzelne Teile von und physiologische Systeme bei Pflanzen
- Genetik und Evolution
- Ökologie
- Naturgeschichte von Organismen
- Mikroorganismen, Pilze, Algen
Object detection by relative motion in freely flying flies
In: Naturwissenschaften, Jg. 83 H. 8, S. 380-381Object detection in the fly during simulated translatory flight
In: Journal of comparative physiology, A: Neuroethology, Sensory, Neural, and Behavioral Physiology, Jg. 181 H. 3, S. 247-255Object fixation by the blowfly during tethered flight in a simulated three-dimensional environment
In: The journal of experimental biology, Jg. 203 H. 11, S. 1723-1732Object representation and distance encoding in three-dimensional environments by a neural circuit in the visual system of the blowfly
In: Journal of Neurophysiology, Jg. 107 H. 12, S. 3446-3457On the computations analyzing natural optic flow: Quantitative model analysis of the blowfly motion vision pathway
In: J Neurosci., Jg. 25 H. 27, S. 6435-6448On the coordination of motor output during visual flight control of flies
In: Journal of Comparative Physiology, A: Sensory Neural and Behavioral Physiology, Jg. 169 H. 2, S. 127-134On the neuronal basis of figure-ground discrimination by relative motion in the visual system of the fly. 1: Behavioural constraints imposed on the neuronal network and the role of the optomotor system
In: Biological Cybernetics, Jg. 52 H. 2, S. 123-140On the neuronal basis of figure-ground discrimination by relative motion in the visual system of the fly. 2: Figure-dectection cells, a new class of visual interneurones
In: Biological Cybernetics, Jg. 52 H. 3, S. 195-209On the neuronal basis of figure-ground discrimination by relative motion in the visual system of the fly. 3: Possible input circuitries and behavioural significance of the FD-cells
In: Biological Cybernetics, Jg. 52 H. 4, S. 267-280On the performance of biological movement detectors and ideal velocity sensors in the context of optomotor course stabilization
In: Visual Neuroscience, Jg. 15 H. 01, S. 113-122Optomotor course control in flies with largely asymmetric visual input
In: Journal of Comparative Physiology A, Jg. 186 H. 1, S. 45-55Outdoor performance of a motion-sensitive neuron in the blowfly
In: Vision research, Jg. 41 H. 27, S. 3627-3637