Pattern-Dependent Response Modulations in Motion-Sensitive Visual Interneurons-A Model Study
In: PLoS ONE, Jg. 6 H. 72011
Performance of fly visual interneurons during object fixation
In: The journal of neuroscience, Jg. 20 H. 16, S. 6256-62662000Peripheral Processing Facilitates Optic Flow-Based Depth Perception
In: Frontiers in Computational Neuroscience, Jg. 10 H. 102016Photo-ablation of single neurons in the fly visual system reveals neural circuit for the detection of small moving objects
In: Neuroscience Letters, Jg. 141 H. 1, S. 119-1221992Population coding of self-motion: applying Bayesian analysis to a population of visual interneurons in the fly
In: Journal of neurophysiology, Jg. 94 H. 3, S. 2182-21942005Precise timing in fly motion vision is mediated by fast components of combined graded and spike signals
In: Neuroscience, Jg. 160 H. 3, S. 639-6502009A preparation of the blowfly (*Calliphora erythrocephala*) brain for in vitro electrophysiological and pharmacological studies
In: Journal of Neuroscience Methods, Jg. 57 H. 1, S. 37-461995Visual ecology and neural coding
In: Proceedings of the 26th Göttingen Neurobiology Conference 1998. 1: New neuroethology on the move, Jg. 26,1, S. 347-3511998Processing of figure and background motion in the visual system of the fly
In: Biological Cybernetics, Jg. 61 H. 5, S. 327-3451989Processing of synaptic information depends on the structure of the dendritic tree
In: Neuroreport, Jg. 6 H. 1, S. 205-2081994Properties of individual movement detectors as derived from behavioural experiments on the visual system of the fly
In: Biological Cybernetics, Jg. 58 H. 5, S. 287-2941988Prototypical Components of Honeybee Homing Flight Behavior Depend on the Visual Appearance of Objects Surrounding the Goal
In: Frontiers in Behavioral Neuroscience, Jg. 6 H. January, S. 1-162012