Klaus-Dieter Roeth scite author profile

Sensory organs transmit information to downstream brain circuits using a neural code comprised of spikes from multiple neurons. According to the prominent efficient coding framework, the properties of sensory populations have evolved to encode maximum information about stimuli given biophysical constraints.How information coding depends on the way sensory signals from multiple channels converge downstream is still unknown, especially in the presence of noise which corrupts the signal at different points along the pathway. Here, we calculated the optimal information transfer of a population of nonlinear neurons under two scenarios. First, a lumped-coding channel where the information from different inputs converges to a single channel, thus reducing the number of neurons. Second, an independent-coding channel when different inputs contribute independent information without convergence. In each case, we investigated information loss when the sensory signal was corrupted by two sources of noise. We determined critical noise levels at which the optimal number of distinct thresholds of individual neurons in the population changes. Comparing our system to classical physical systems, these changes correspond to first-or second-order phase transitions for the lumped-or the independent-coding channel, respectively. We relate our theoretical predictions to coding in a population of auditory nerve fibers recorded experimentally, and find signatures of efficient coding. Our results yield important insights into the diverse coding strategies used by neural populations to optimally integrate sensory stimuli in the presence of distinct sources of noise.

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Improving registration measurement capability by defining a 2D grid standard using multiple registration measurement tools

Loeffler

Antesberger

Ullrich

et al. 2010

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Klaus-Dieter Roeth

In-die mask registration metrology for 32nm node DPT lithography

World wide matching of registration metrology tools of various generations

Efficient population coding depends on stimulus convergence and source of noise

Improving registration measurement capability by defining a 2D grid standard using multiple registration measurement tools

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