Encoding of Naturalistic Optic Flow by a Population of Blowfly Motion-Sensitive Neurons

K. Karmeier, J.H. van Hateren, R. Kern, M. Egelhaaf*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

65 Citations (Scopus)
377 Downloads (Pure)

Abstract

In sensory systems information is encoded by the activity of populations of neurons. To analyze the coding properties of neuronal populations sensory stimuli have usually been used that were much simpler than those encountered in real life. It has been possible only recently to stimulate visual interneurons of the blowfly with naturalistic visual stimuli reconstructed from eye movements measured during free flight. Therefore we now investigate with naturalistic optic flow the coding properties of a small neuronal population of identified visual interneurons in the blowfly, the so-called VS and HS neurons. These neurons are motion sensitive and directionally selective and are assumed to extract information about the animal's self-motion from optic flow. We could show that neuronal responses of VS and HS neurons are mainly shaped by the characteristic dynamical properties of the fly's saccadic flight and gaze strategy. Individual neurons encode information about both the rotational and the translational components of the animal's self-motion. Thus the information carried by individual neurons is ambiguous. The ambiguities can be reduced by considering neuronal population activity. The joint responses of different subpopulations of VS and HS neurons can provide unambiguous information about the three rotational and the three translational components of the animal's self-motion and also, indirectly, about the three-dimensional layout of the environment.

Original languageEnglish
Pages (from-to)1602-1614
Number of pages13
JournalJournal of Neurophysiology
Volume96
Issue number3
DOIs
Publication statusPublished - Sept-2006

Keywords

  • RECEPTIVE-FIELD ORGANIZATION
  • GRADED POTENTIAL NEURONS
  • FLY VISUAL INTERNEURONS
  • GIANT VERTICAL CELLS
  • LOBULA PLATE
  • CALLIPHORA-ERYTHROCEPHALA
  • RESPONSE PROPERTIES
  • OPTOMOTOR SYSTEM
  • HORIZONTAL CELLS
  • MEDICINAL LEECH

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