Egelhaaf, Martin; Boeddeker, Norbert; Kern, Roland; Kurtz, Rafael; Lindemann, Jens Peter: Spatial vision in insects is facilitated by shaping the dynamics of visual input through behavioral action. In: Frontiers in Neural Circuits. Jg.6. 2012, S. 108 ff.
Inhalt
- Object Detection and Object-Directed Responses
- Collision Avoidance
- Interaction between Object Fixation and Collision Avoidance
- Spatial Information Relevant for Local Navigation
- Spatial Information based on Saccadic Gaze and Flight Strategy
- Control of Saccades as the Main Rotational Components of Flight Behavior
- Control of Intersaccadic Translational Motion
- Processing of Optic Flow in the Insect Nervous System
- Spatiotemporal Visual Input of Insects is Shaped by Active Gaze Strategies
- Peripheral Processing of Motion Information
- Local Motion Computation
- Extraction of Optic Flow Information
- Behavioral Significance of Optic Flow Neurons
- A Role of LWCs in Mediating Compensatory Optomotor Turning Responses
- A Role of LWCs in Gathering Information about the Environment during Intersaccadic Intervals
- Constraints Set by a Timescale of Natural Behavior
- Conclusions
- References