Lateral Connections In The Retina at Anne Brown blog

Lateral Connections In The Retina. We analyse the potential effects of lateral connectivity (amacrine cells and gap junctions) on motion anticipation in the retina. Finally, we examine the mechanisms. Lateral inhibition is the phenomenon in which a neuron's response to a stimulus is inhibited by the excitation of a neighboring neuron. The cells subdivide into three basic cell types: Lateral connections in the retina modulate the signals provided by the vertical pathway from photoreceptor to bipolar to. These neurons have a characteristic distribution in the ten distinct layers of the retina, and have interconnections via two. The retina is a layered structure with ten distinct layers of neurons interconnected by synapses. The two other types of neurons in the retina, horizontal cells and amacrine cells, have their cell bodies in the inner nuclear layer and are primarily responsible for lateral interactions within the.

Finally, we examine the mechanisms. These neurons have a characteristic distribution in the ten distinct layers of the retina, and have interconnections via two. Lateral connections in the retina modulate the signals provided by the vertical pathway from photoreceptor to bipolar to. The cells subdivide into three basic cell types: We analyse the potential effects of lateral connectivity (amacrine cells and gap junctions) on motion anticipation in the retina. The retina is a layered structure with ten distinct layers of neurons interconnected by synapses. The two other types of neurons in the retina, horizontal cells and amacrine cells, have their cell bodies in the inner nuclear layer and are primarily responsible for lateral interactions within the. Lateral inhibition is the phenomenon in which a neuron's response to a stimulus is inhibited by the excitation of a neighboring neuron.

Hierarchical organization of the visual system. a) Schematic

Lateral Connections In The Retina The two other types of neurons in the retina, horizontal cells and amacrine cells, have their cell bodies in the inner nuclear layer and are primarily responsible for lateral interactions within the. The cells subdivide into three basic cell types: Lateral inhibition is the phenomenon in which a neuron's response to a stimulus is inhibited by the excitation of a neighboring neuron. We analyse the potential effects of lateral connectivity (amacrine cells and gap junctions) on motion anticipation in the retina. Lateral connections in the retina modulate the signals provided by the vertical pathway from photoreceptor to bipolar to. The two other types of neurons in the retina, horizontal cells and amacrine cells, have their cell bodies in the inner nuclear layer and are primarily responsible for lateral interactions within the. These neurons have a characteristic distribution in the ten distinct layers of the retina, and have interconnections via two. The retina is a layered structure with ten distinct layers of neurons interconnected by synapses. Finally, we examine the mechanisms.