AbstractRecent work suggests that the visual system may represent early visual information in an energy efficient manner [Nature 381 (1996); Nature, 381 (1996) 607; Neural Comput. 3 (2001) 799; Curr. Opin. Neurobiol. 11 (2001) 475]. This paper applies the idea of energy efficient representations to understand retinal processing, and provides evidence that centre surround processing observed is efficient in terms of minimizing synaptic activity. In particular, it is shown that receptive fields at different retinal eccentricities and at different levels of noise, can be understood in terms of maximizing the transmission of visual information given a constraint on total synaptic strengths and hence energy consumption
The architecture of computational devices is shaped by their energy consumption. Energetic constrain...
We rely on our visual system to cope with the vast barrage of incoming light patterns and to extract...
Visual information reaches the brain by way of a fine cable, the optic nerve. The million or so axon...
AbstractRecent work suggests that the visual system may represent early visual information in an ene...
Recent work suggests that the visual system may represent early visual information in an energy effi...
This paper demonstrates that a representation which balances natural image encoding with metabolic e...
This paper demonstrates that a representation which balances natural image encoding with metabolic e...
Visual information is sent from eye to brain by ∼15 types of ganglion cell. Because the retina is co...
SummaryThe architecture of computational devices is shaped by their energy consumption. Energetic co...
The architecture of computational devices is shaped by their energy consumption. Energetic constrain...
The brain’s energy use on signalling has been well-described, but only about half the brain’s energy...
We rely on our visual system to cope with the vast barrage of incoming light patterns and to extract...
International audienceThe retina is the entrance of the visual system. Although based on common biop...
AbstractGanglion cells convey information from the retina back to the brain. Recent experiments have...
Trade-offs between energy consumption and neuronal performance must shape the design and evolution o...
The architecture of computational devices is shaped by their energy consumption. Energetic constrain...
We rely on our visual system to cope with the vast barrage of incoming light patterns and to extract...
Visual information reaches the brain by way of a fine cable, the optic nerve. The million or so axon...
AbstractRecent work suggests that the visual system may represent early visual information in an ene...
Recent work suggests that the visual system may represent early visual information in an energy effi...
This paper demonstrates that a representation which balances natural image encoding with metabolic e...
This paper demonstrates that a representation which balances natural image encoding with metabolic e...
Visual information is sent from eye to brain by ∼15 types of ganglion cell. Because the retina is co...
SummaryThe architecture of computational devices is shaped by their energy consumption. Energetic co...
The architecture of computational devices is shaped by their energy consumption. Energetic constrain...
The brain’s energy use on signalling has been well-described, but only about half the brain’s energy...
We rely on our visual system to cope with the vast barrage of incoming light patterns and to extract...
International audienceThe retina is the entrance of the visual system. Although based on common biop...
AbstractGanglion cells convey information from the retina back to the brain. Recent experiments have...
Trade-offs between energy consumption and neuronal performance must shape the design and evolution o...
The architecture of computational devices is shaped by their energy consumption. Energetic constrain...
We rely on our visual system to cope with the vast barrage of incoming light patterns and to extract...
Visual information reaches the brain by way of a fine cable, the optic nerve. The million or so axon...