Are there separate ON and OFF channels in fly motion vision?
Egelhaaf, Martin ; Borst, AlexanderIn: Visual Neuroscience, Jg. 8, S. 151-164Arrangement of optical axes and spatial resolution in the compound eye of the female blowfly *Calliphora*
Petrowitz, Ralf ; Dahmen, Hansjürgen ; Egelhaaf, Martin ; Krapp, Holger G.In: Journal of comparative physiology, A: Sensory, neural, and behavioral physiology, Jg. 186 H. 7-8, S. 737-746Calcium accumulation in visual interneurons of the fly: stimulus dependence and relationship to membrane potential
Egelhaaf, Martin ; Borst, AlexanderIn: Journal of neurophysiology, Jg. 73 H. 6, S. 2540-2552Dendritic calcium accumulation associated with direction-selective adaptation in visual motion-sensitive neurons in vivo
Kurtz, Rafael ; Dürr, Volker ; Egelhaaf, MartinIn: Journal of Neurophysiology, Jg. 84 H. 4, S. 1914-1923Dendritic integration of motion information in visual interneurons of the blowfly
Haag, Jürgen ; Egelhaaf, Martin ; Borst, AlexanderIn: Neuroscience Letters, Jg. 140 H. 2, S. 173-176Dendritic processing of synaptic information by sensory interneurons
Borst, Alexander ; Egelhaaf, MartinIn: Trends in Neurosciences, Jg. 17 H. 6, S. 257-263Detection of object motion by a fly neuron during simulated flight
Kimmerle, Bernd ; Egelhaaf, MartinIn: Journal of comparative physiology A, Sensory, neural, and behavioral physiology, Jg. 186 H. 1, S. 21-31Edge detection by landing honeybees: behavioural analysis and model simulations of the underlying mechanism
Kern, Roland ; Egelhaaf, Martin ; Srinivasan, Mandyam V.In: Vision Research, Jg. 37 H. 15, S. 2103-2117Encoding of motion in real time by the fly visual system
Egelhaaf, Martin ; Warzecha, Anne-KathrinIn: Current opinion in neurobiology, Jg. 9 H. 4, S. 454-460How do flies use visual motion information to control their course?
Egelhaaf, MartinIn: Zoologische Jahrbücher, Abteilung für allgemeine Zoologie und Physiologie der Tiere, Jg. 95 H. 3-4, S. 287-296How Reliably Does a Neuron in the Visual Motion Pathway of fhe Fly Encode Behaviourally Relevant Information?
Warzecha, Anne-Kathrin ; Egelhaaf, MartinIn: European Journal of Neuroscience, Jg. 9 H. 7, S. 1365-1374Im Cockpit der Fliege. Neuronale Bildverarbeitung im Fliegengehirn; Untersuchung am Tübinger Max-Planck-Institut
Borst, Alexander ; Egelhaaf, MartinIn: MPG-Spiegel, Jg. 1992, S. 14-16In vivo calcium accumulation in presynaptic and postsynaptic dendrites of visual interneurons
Dürr, Volker ; Egelhaaf, MartinIn: Journal of neurophysiology, Jg. 82 H. 6, S. 3327-3338In vivo imaging of calcium accumulation in fly interneurons as elicited by visual motion stimulation
Borst, Alexander ; Egelhaaf, MartinIn: Proceedings of the National Academy of Sciences of the United States of America, Jg. 89 H. 9, S. 4139-4143Influence of brain and computer design on the performance of natural and artificial organisms
Schmidt, Rupert ; Buschlinger, Wolfgang ; Egelhaaf, Martin ; Koch, Michael ; Krüger, Jürgen ; Malaka, Rainer ; Peifer, Rolf ; Vollmer, Gerhard ; Wagner, HermannIn: Zeitschrift für Naturforschung, C: Biosciences, Jg. 53 H. 7, S. 752-764Intrinsic properties of biological motion detectors prevent the optomotor control system from getting unstable
Warzecha, Anne-Kathrin ; Egelhaaf, MartinIn: Philosophical Transactions of the Royal Society of London, B: Biological Sciences, Jg. 351 H. 1347, S. 1579-1591Is there a separate control system mediating a "centering response" in honeybees?
Egelhaaf, Martin ; Borst, AlexanderIn: Naturwissenschaften, Jg. 79 H. 5, S. 221-223A look into the cockpit of the fly: visual orientation, algorithms, and identified neurons
Egelhaaf, Martin ; Borst, AlexanderIn: The journal of neuroscience, Jg. 13 H. 11, S. 4563-4574Mechanisms of dendritic integration underlying gain control in fly motion-sensitive interneurons
Borst, Alexander ; Egelhaaf, Martin ; Haag, JürgenIn: Journal of Computational Neuroscience, Jg. 2 H. 1, S. 5-18Motion computation and visual orientation in flies
Egelhaaf, Martin ; Borst, AlexanderIn: Comparative Biochemistry and Physiology, A: Comparative Physiology, Jg. 104 H. 4, S. 659-673