Spatiotemporal Conditional Inference and Hypothesis Tests for Neural Ensemble Spiking Precision
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Publication:5380185
DOI10.1162/NECO_a_00681zbMath1414.92097OpenAlexW2145329715WikidataQ35687856 ScholiaQ35687856MaRDI QIDQ5380185
Wilson Truccolo, Matthew T. Harrison, Asohan Amarasingham
Publication date: 4 June 2019
Published in: Neural Computation (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1162/neco_a_00681
Applications of statistics to biology and medical sciences; meta analysis (62P10) Neural biology (92C20)
Related Items (2)
Monosynaptic inference via finely-timed spikes ⋮ Spike-Centered Jitter Can Mistake Temporal Structure
Uses Software
Cites Work
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- Exact sampling and counting for fixed-margin matrices
- Assessment of synchrony in multiple neural spike trains using loglinear point process models
- A theorem on flows in networks
- The roles of conditioning in inference. With comments and rejoinder
- Analysis of higher-order neuronal interactions based on conditional inference
- Detecting higher-order interactions among the spiking events in a group of neurons
- Asymptotic enumeration of dense 0-1 matrices with specified line sums
- Unitary Events in Multiple Single-Neuron Spiking Activity: II. Nonstationary Data
- Conservative hypothesis tests and confidence intervals using importance sampling
- Combinatorial Properties of Matrices of Zeros and Ones
- An Introduction to Categorical Data Analysis
- The impact of high-order interactions on the rate of synchronous discharge and information transmission in somatosensory cortex
- A Rate and History-Preserving Resampling Algorithm for Neural Spike Trains
- On closed testing procedures with special reference to ordered analysis of variance
- Synchronous Firing and Higher-Order Interactions in Neuron Pool
- Generalized Monte Carlo significance tests
- Accelerated Spike Resampling for Accurate Multiple Testing Controls
- Testing Statistical Hypotheses
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