Li, Jinglin; Lindemann, Jens Peter ; Egelhaaf, Martin: Peripheral Processing Facilitates Optic Flow-Based Depth Perception. In: Frontiers in Computational Neuroscience. Jg.10 H. 10. 2016
Inhalt
- 2.1. Visual Motion Pathway Models
- 2.1.1. Photoreceptor Models
- 2.1.2. LMC Models
- 2.1.3. Retinal Area and Time Scale of Peripheral Adaptation
- 2.1.4. EMD Model
- 2.2. System-Analytical Stimuli and Electrophysiological Data
- 2.3. Naturalistic Stimuli
- 2.4. Assessment of Model Performance
- 3. Results
- 3.1. Modeling an Adaptive Peripheral Visual System
- 3.1.1. Development and Assessment of Photoreceptor Model Versions
- 3.1.2. Development and Assessment of LMC Model Versions
- 3.2. Impact of Peripheral Processing on Representing Environmental Parameters by Motion Detectors
- 3.2.1. Functional Significance of the Individual Peripheral Processing Units in Spatial Vision
- 3.2.2. PRelab1 Enables Robust Spatial Vision under a Vast Range of Light Conditions
- 3.2.3. Impact of the Retinal Area of Brightness Adaptation on Optic Flow-Based Spatial Vision
- 3.2.4. Time Scale of Brightness Adaptation and Its Relevance in Spatial Vision During Free Flight
- 4. Discussion
- 4.1. Retinal Range and Time Scale of Brightness Adaptation in the Peripheral Visual System
- 4.2. Functional Significance of Adaptive Peripheral Processing on Spatial Vision
- Author Contributions
- Funding
- Acknowledgments
- Supplementary Material
- References
- Appendix