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Literature DB >> 28595051

Optimizing Neural Information Capacity through Discretization.

Abstract

Discretization in neural circuits occurs on many levels, from the generation of action potentials and dendritic integration, to neuropeptide signaling and processing of signals from multiple neurons, to behavioral decisions. It is clear that discretization, when implemented properly, can convey many benefits. However, the optimal solutions depend on both the level of noise and how it impacts a particular computation. This Perspective discusses how current physiological data could potentially be integrated into one theoretical framework based on maximizing information. Key experiments for testing that framework are discussed.

Entities: Chemical Disease Gene Species

Keywords: dendrites; information theory; ion channels; ionic currents; neural cell types; neuromodulation; neuropeptide; phase transitions; power law; scale-free dynamics

Mesh：

Substances：
Neuropeptides

Year: 2017 PMID： 28595051 PMCID： PMC5634811 DOI： 10.1016/j.neuron.2017.04.044

Source DB: PubMed Journal: Neuron ISSN： 0896-6273 Impact factor: 17.173

41 in total

1. Mathematics. Critical truths about power laws.

Authors: Michael P H Stumpf; Mason A Porter
Journal: Science Date: 2012-02-10 Impact factor: 47.728

2. Dissecting a circuit for olfactory behaviour in Caenorhabditis elegans.

Authors: Sreekanth H Chalasani; Nikos Chronis; Makoto Tsunozaki; Jesse M Gray; Daniel Ramot; Miriam B Goodman; Cornelia I Bargmann
Journal: Nature Date: 2007-11-01 Impact factor: 49.962

Review 3. Sensory adaptation.

Authors: Barry Wark; Brian Nils Lundstrom; Adrienne Fairhall
Journal: Curr Opin Neurobiol Date: 2007-08-21 Impact factor: 6.627

Optimizing Neural Information Capacity through Discretization.

1. Mathematics. Critical truths about power laws.

2. Dissecting a circuit for olfactory behaviour in Caenorhabditis elegans.

Review 3. Sensory adaptation.

4. Neural population coding is optimized by discrete tuning curves.

5. Critical and maximally informative encoding between neural populations in the retina.

6. Mutual Information, Fisher Information, and Efficient Coding.

7. Design of a trichromatic cone array.

8. Being critical of criticality in the brain.

9. Coordinated dynamic encoding in the retina using opposing forms of plasticity.

10. How Do Efficient Coding Strategies Depend on Origins of Noise in Neural Circuits?

1. Assessing the Impacts of Correlated Variability with Dissociated Timescales.

2. NMDA Receptor Alterations After Mild Traumatic Brain Injury Induce Deficits in Memory Acquisition and Recall.

3. Efficient sampling and noisy decisions.

4. Functional diversity among sensory neurons from efficient coding principles.