hypergeometric cumulative distribution function Search Results


statistical software  (SAS institute)
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SAS institute statistical software
Statistical Software, supplied by SAS institute, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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empirical cumulative distribution fraction function  (RStudio)
90
RStudio empirical cumulative distribution fraction function
Empirical Cumulative Distribution Fraction Function, supplied by RStudio, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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ecdf (empirical cumulative distribution function) plots  (RStudio)
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RStudio ecdf (empirical cumulative distribution function) plots
Ecdf (Empirical Cumulative Distribution Function) Plots, supplied by RStudio, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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standard normal cumulative distribution function  (SAS institute)
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SAS institute standard normal cumulative distribution function
Standard Normal Cumulative Distribution Function, supplied by SAS institute, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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chi-square cumulative distribution function  (CH Instruments)
90
CH Instruments chi-square cumulative distribution function
Chi Square Cumulative Distribution Function, supplied by CH Instruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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cumulative distribution function  (SAS institute)
90
SAS institute cumulative distribution function
Cumulative Distribution Function, supplied by SAS institute, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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cumulative distribution function (cdf) or complete spatial random (csr) plots  (GraphPad Software Inc)
90
GraphPad Software Inc cumulative distribution function (cdf) or complete spatial random (csr) plots
Cumulative Distribution Function (Cdf) Or Complete Spatial Random (Csr) Plots, supplied by GraphPad Software Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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minimum chi-square method  (CH Instruments)
90
CH Instruments minimum chi-square method
Minimum Chi Square Method, supplied by CH Instruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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cumulative distributions  (MathWorks Inc)
96
MathWorks Inc cumulative distributions
Entrainment of the pStr neuronal firing by 4 Hz oscillations (A) Phase modulation of the pStr neuron firing with respect to 4 Hz oscillations referenced to the pStr (top), dLGN (middle), and VC (bottom) during the early (left), middle (middle), and late (right) learning stages. Only significantly phase-modulated neurons are shown ( p < 0.05, Rayleigh test). The color scale represents the normalized firing rate of each neuron. The proportions of significantly phase-modulated neurons (early, middle, and late) were as follows: pStr-referenced, 22.9%, 18.9%, and 33.8%; dLGN-referenced, 22.9%, 22.3%, and 23.7%; and VC-referenced, 8.3%, 17.6%, and 20.2%. (B) <t>Cumulative</t> density function of phase modulation strength statistics log Z (Rayleigh Z statistic) for the pStr neurons. Green, blue, and purple lines represent the early, middle, and late stages, respectively. (C) Proportion of the pStr neurons phase-locked to 4 Hz oscillations referenced to the pStr (left), dLGN (middle), and VC (right) at each learning stage. Vertical bars represent the 95% confidence intervals (Clopper-Pearson method). (D) Histograms of preferred phase for the pStr neurons with respect to pStr (top), dLGN (middle), and VC (bottom) 4 Hz oscillations at the early (left), middle (middle), and late (right) learning stages. (E) Schematic of the hypothetical visual pathways conveying task-relevant information. After learning, the 4 Hz coherence between the pStr and visual areas increases, and a larger fraction of the pStr neurons is phase-modulated by visual-area 4 Hz oscillations. This strengthens functional connectivity between the pStr and visual areas, enabling rapid information transfer to downstream targets and improving task efficiency.
Cumulative Distributions, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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cumulative distribution function plot  (SAS institute)
90
SAS institute cumulative distribution function plot
Entrainment of the pStr neuronal firing by 4 Hz oscillations (A) Phase modulation of the pStr neuron firing with respect to 4 Hz oscillations referenced to the pStr (top), dLGN (middle), and VC (bottom) during the early (left), middle (middle), and late (right) learning stages. Only significantly phase-modulated neurons are shown ( p < 0.05, Rayleigh test). The color scale represents the normalized firing rate of each neuron. The proportions of significantly phase-modulated neurons (early, middle, and late) were as follows: pStr-referenced, 22.9%, 18.9%, and 33.8%; dLGN-referenced, 22.9%, 22.3%, and 23.7%; and VC-referenced, 8.3%, 17.6%, and 20.2%. (B) <t>Cumulative</t> density function of phase modulation strength statistics log Z (Rayleigh Z statistic) for the pStr neurons. Green, blue, and purple lines represent the early, middle, and late stages, respectively. (C) Proportion of the pStr neurons phase-locked to 4 Hz oscillations referenced to the pStr (left), dLGN (middle), and VC (right) at each learning stage. Vertical bars represent the 95% confidence intervals (Clopper-Pearson method). (D) Histograms of preferred phase for the pStr neurons with respect to pStr (top), dLGN (middle), and VC (bottom) 4 Hz oscillations at the early (left), middle (middle), and late (right) learning stages. (E) Schematic of the hypothetical visual pathways conveying task-relevant information. After learning, the 4 Hz coherence between the pStr and visual areas increases, and a larger fraction of the pStr neurons is phase-modulated by visual-area 4 Hz oscillations. This strengthens functional connectivity between the pStr and visual areas, enabling rapid information transfer to downstream targets and improving task efficiency.
Cumulative Distribution Function Plot, supplied by SAS institute, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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probchi  (SAS institute)
90
SAS institute probchi
Entrainment of the pStr neuronal firing by 4 Hz oscillations (A) Phase modulation of the pStr neuron firing with respect to 4 Hz oscillations referenced to the pStr (top), dLGN (middle), and VC (bottom) during the early (left), middle (middle), and late (right) learning stages. Only significantly phase-modulated neurons are shown ( p < 0.05, Rayleigh test). The color scale represents the normalized firing rate of each neuron. The proportions of significantly phase-modulated neurons (early, middle, and late) were as follows: pStr-referenced, 22.9%, 18.9%, and 33.8%; dLGN-referenced, 22.9%, 22.3%, and 23.7%; and VC-referenced, 8.3%, 17.6%, and 20.2%. (B) <t>Cumulative</t> density function of phase modulation strength statistics log Z (Rayleigh Z statistic) for the pStr neurons. Green, blue, and purple lines represent the early, middle, and late stages, respectively. (C) Proportion of the pStr neurons phase-locked to 4 Hz oscillations referenced to the pStr (left), dLGN (middle), and VC (right) at each learning stage. Vertical bars represent the 95% confidence intervals (Clopper-Pearson method). (D) Histograms of preferred phase for the pStr neurons with respect to pStr (top), dLGN (middle), and VC (bottom) 4 Hz oscillations at the early (left), middle (middle), and late (right) learning stages. (E) Schematic of the hypothetical visual pathways conveying task-relevant information. After learning, the 4 Hz coherence between the pStr and visual areas increases, and a larger fraction of the pStr neurons is phase-modulated by visual-area 4 Hz oscillations. This strengthens functional connectivity between the pStr and visual areas, enabling rapid information transfer to downstream targets and improving task efficiency.
Probchi, supplied by SAS institute, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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binomial cumulative distribution function  (STATA Corporation)
99
STATA Corporation binomial cumulative distribution function
Entrainment of the pStr neuronal firing by 4 Hz oscillations (A) Phase modulation of the pStr neuron firing with respect to 4 Hz oscillations referenced to the pStr (top), dLGN (middle), and VC (bottom) during the early (left), middle (middle), and late (right) learning stages. Only significantly phase-modulated neurons are shown ( p < 0.05, Rayleigh test). The color scale represents the normalized firing rate of each neuron. The proportions of significantly phase-modulated neurons (early, middle, and late) were as follows: pStr-referenced, 22.9%, 18.9%, and 33.8%; dLGN-referenced, 22.9%, 22.3%, and 23.7%; and VC-referenced, 8.3%, 17.6%, and 20.2%. (B) <t>Cumulative</t> density function of phase modulation strength statistics log Z (Rayleigh Z statistic) for the pStr neurons. Green, blue, and purple lines represent the early, middle, and late stages, respectively. (C) Proportion of the pStr neurons phase-locked to 4 Hz oscillations referenced to the pStr (left), dLGN (middle), and VC (right) at each learning stage. Vertical bars represent the 95% confidence intervals (Clopper-Pearson method). (D) Histograms of preferred phase for the pStr neurons with respect to pStr (top), dLGN (middle), and VC (bottom) 4 Hz oscillations at the early (left), middle (middle), and late (right) learning stages. (E) Schematic of the hypothetical visual pathways conveying task-relevant information. After learning, the 4 Hz coherence between the pStr and visual areas increases, and a larger fraction of the pStr neurons is phase-modulated by visual-area 4 Hz oscillations. This strengthens functional connectivity between the pStr and visual areas, enabling rapid information transfer to downstream targets and improving task efficiency.
Binomial Cumulative Distribution Function, supplied by STATA Corporation, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


Entrainment of the pStr neuronal firing by 4 Hz oscillations (A) Phase modulation of the pStr neuron firing with respect to 4 Hz oscillations referenced to the pStr (top), dLGN (middle), and VC (bottom) during the early (left), middle (middle), and late (right) learning stages. Only significantly phase-modulated neurons are shown ( p < 0.05, Rayleigh test). The color scale represents the normalized firing rate of each neuron. The proportions of significantly phase-modulated neurons (early, middle, and late) were as follows: pStr-referenced, 22.9%, 18.9%, and 33.8%; dLGN-referenced, 22.9%, 22.3%, and 23.7%; and VC-referenced, 8.3%, 17.6%, and 20.2%. (B) Cumulative density function of phase modulation strength statistics log Z (Rayleigh Z statistic) for the pStr neurons. Green, blue, and purple lines represent the early, middle, and late stages, respectively. (C) Proportion of the pStr neurons phase-locked to 4 Hz oscillations referenced to the pStr (left), dLGN (middle), and VC (right) at each learning stage. Vertical bars represent the 95% confidence intervals (Clopper-Pearson method). (D) Histograms of preferred phase for the pStr neurons with respect to pStr (top), dLGN (middle), and VC (bottom) 4 Hz oscillations at the early (left), middle (middle), and late (right) learning stages. (E) Schematic of the hypothetical visual pathways conveying task-relevant information. After learning, the 4 Hz coherence between the pStr and visual areas increases, and a larger fraction of the pStr neurons is phase-modulated by visual-area 4 Hz oscillations. This strengthens functional connectivity between the pStr and visual areas, enabling rapid information transfer to downstream targets and improving task efficiency.

Journal: iScience

Article Title: Learning-dependent 4 Hz synchronization in the posterior striatum, lateral geniculate nucleus, and visual cortex

doi: 10.1016/j.isci.2025.113958

Figure Lengend Snippet: Entrainment of the pStr neuronal firing by 4 Hz oscillations (A) Phase modulation of the pStr neuron firing with respect to 4 Hz oscillations referenced to the pStr (top), dLGN (middle), and VC (bottom) during the early (left), middle (middle), and late (right) learning stages. Only significantly phase-modulated neurons are shown ( p < 0.05, Rayleigh test). The color scale represents the normalized firing rate of each neuron. The proportions of significantly phase-modulated neurons (early, middle, and late) were as follows: pStr-referenced, 22.9%, 18.9%, and 33.8%; dLGN-referenced, 22.9%, 22.3%, and 23.7%; and VC-referenced, 8.3%, 17.6%, and 20.2%. (B) Cumulative density function of phase modulation strength statistics log Z (Rayleigh Z statistic) for the pStr neurons. Green, blue, and purple lines represent the early, middle, and late stages, respectively. (C) Proportion of the pStr neurons phase-locked to 4 Hz oscillations referenced to the pStr (left), dLGN (middle), and VC (right) at each learning stage. Vertical bars represent the 95% confidence intervals (Clopper-Pearson method). (D) Histograms of preferred phase for the pStr neurons with respect to pStr (top), dLGN (middle), and VC (bottom) 4 Hz oscillations at the early (left), middle (middle), and late (right) learning stages. (E) Schematic of the hypothetical visual pathways conveying task-relevant information. After learning, the 4 Hz coherence between the pStr and visual areas increases, and a larger fraction of the pStr neurons is phase-modulated by visual-area 4 Hz oscillations. This strengthens functional connectivity between the pStr and visual areas, enabling rapid information transfer to downstream targets and improving task efficiency.

Article Snippet: The Kolmogorov-Smirnov test was applied to compare cumulative distributions (‘kstest.m’ function in MATLAB Statistics and Machine Learning Toolbox).

Techniques: Functional Assay