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Modelling and simulation of vertebrate retina: Extended network

✍ Scribed by M. N. Oguztöreli; K. S. O'Mara

Publisher
Springer-Verlag
Year
1980
Tongue
English
Weight
591 KB
Volume
38
Category
Article
ISSN
0340-1200

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✦ Synopsis

In a recent work (Oğuztöreli, 1980) a mathematical model for studying the neutral activities in a vertebrate retina has been investigated, where the basic retinal network involves interconnected five neurons of different kind. This model is general enough to cover a great variety of neurons in the same retina as well as in the retinas of different species. In the present work we deal with an extension of the basic network considered in (Oğuztöreli, 1980). This extended model contains interconnected twelve neurons: three receptor cells, two horizontal cells, two bipolar cells, two amacrine cells and three ganglion cells. The performance of the model under different conditions, and, the experimental determination of the system parameters are discussed. The background of the modelling and simulations can be found in (Oğuztöreli, 1979, 1980).

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Modelling and simulation of vertebrate r
Modelling and simulation of vertebrate retina
✍ M. N. Oguztöreli 📂 Article 📅 1980 🏛 Springer-Verlag 🌐 English ⚖ 615 KB

In the present work we investigate the neuronal activities in a vertebrate retina by modelling and simulations using the results of (O~uzt/Sreli, 1979). The basic retinal network considered here consists of interconnected five neurons: a receptor cell (rod or cone), a horizontal cell, a bipolar cell