238 results on '"Heinze, Stanley"'
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2. Parallel motion vision pathways in the brain of a tropical bee
3. Implementing an insect brain computational circuit using III-V nanowire components in a single shared waveguide optical network
4. The Insect Central Complex
5. Polarization Vision
6. Vector navigation in walking bumblebees
7. Parallel vector memories in the brain of a bee as foundation for flexible navigation.
8. Principles of Insect Path Integration
9. Unraveling the neural basis of insect navigation
10. An Anatomically Constrained Model for Path Integration in the Bee Brain
11. Neural Coding: Bumps on the Move
12. Three-Dimensional Atlases of Insect Brains
13. Insect Navigation: Neural Basis to Behavior
14. Bogong moths
15. Polarization Vision
16. Emergent spatial goals in an integrative model of the insect central complex.
17. Neuroethology: Unweaving the Senses of Direction
18. Polarized-Light Processing in Insect Brains: Recent Insights from the Desert Locust, the Monarch Butterfly, the Cricket, and the Fruit Fly
19. Insect Navigation: Understanding insect neural networks could help unravel the complexities of mammalian brains
20. Reply to Zhang et al.: Parallel vector memories are required to explain all behavioral data in navigating bumblebees.
21. Parallel motion vision pathways in the brain of a tropical bee
22. Neurobiology: Jumping Spiders Getting On Board
23. Neuroethology: Decoding the waggle dance.
24. A Neural Model for Insect Steering Applied to Olfaction and Path Integration
25. Unraveling navigational strategies in migratory insects
26. Central neural coding of sky polarization in insects
27. Sun Compass Integration of Skylight Cues in Migratory Monarch Butterflies
28. Maplike Representation of Celestial E-Vector Orientations in the Brain of an Insect
29. Bumblebees navigate using path integration while walking
30. A unified platform to manage, share, and archive morphological and functional data in insect neuroscience
31. Integration of polarization and chromatic cues in the insect sky compass
32. Bumblebees Navigate Using Path Integration While Walking
33. Topographic organization and possible function of the posterior optic tubercles in the brain of the desert locust Schistocerca gregaria
34. Mapping the fly’s ‘brain in the brain’
35. Decision letter: How the insect central complex could coordinate multimodal navigation
36. Fly navigation: Yet another ring
37. A projectome of the bumblebee central complex
38. Integrating molecular photoswitch memory with nanoscale optoelectronics for neuromorphic computing
39. A unified platform to manage, share, and archive morphological and functional data in insect neuroscience
40. Author response: A unified platform to manage, share, and archive morphological and functional data in insect neuroscience
41. Author response: A projectome of the bumblebee central complex
42. Polarization Vision
43. Neuroscience: Fish and fly headed in the same direction.
44. Why flies look to the skies
45. A projectome of the bumblebee central complex
46. Decision letter: A connectome of the Drosophila central complex reveals network motifs suitable for flexible navigation and context-dependent action selection
47. Polarization Vision
48. Anatomical basis of sun compass navigation II: The neuronal composition of the central complex of the monarch butterfly
49. Anatomical Basis of Sun Compass Navigation I: The General Layout of the Monarch Butterfly Brain
50. InsectBrainDatabase - A unified platform to manage, share, and archive morphological and functional data
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