matlab function mscohere.m Search Results


matlab function mscohere.m  (MathWorks Inc)
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Matlab Function Mscohere.M, supplied by MathWorks 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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mscohere m function  (MathWorks Inc)
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MathWorks Inc mscohere m function
Mscohere M Function, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 98/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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mscohere.m function  (MathWorks Inc)
90
MathWorks Inc mscohere.m function
Mscohere.M Function, supplied by MathWorks 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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magnitude squared coherence estimate  (MathWorks Inc)
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MathWorks Inc magnitude squared coherence estimate
HG and CAC spatial response patterns differ across stimulation frequencies. a Neural responses to click trains in a representative electrode situated in the right primary auditory cortex (Heschl’s Gyrus) of patient S1. Lower left plot: time course of unfiltered event-related responses to the stimuli expressed in t-values relative to baseline. Responses are aligned with an exemplar of a stimulus (here a 40 Hz click train). Upper right plot: time course of high-gamma [HG, 70–200 Hz] amplitude in response to the stimulus, expressed in t-values relative to baseline, as a function of click train frequency (ranging from 5 Hz, blue to 250 Hz, red). HG onset [0–0.4 s] response is linearly proportional to the rate of the stimulus (upper inset). Lower right plot: <t>magnitude</t> <t>squared</t> stimulus-brain <t>coherence</t> (cerebro-acoustic coherence, CAC, expressed in t -values relative to baseline). CAC shows a sustained pattern through the duration of the stimulus that varies nonlinearly as a function of the stimulus rate and is prominent in the roughness range (40–100 Hz; lower inset). b – d Neural responses to click trains across all eleven patients. b Upper panel: spatial location of electrodes exhibiting significant HG onset responses to sounds. Colours represent the stimulation frequency at which HG response is maximal. Lower plot: time course of HG [70–200 Hz] responses averaged across these electrodes, expressed in t-values relative to baseline, as a function of stimulus frequency. HG amplitude at the response onset [0–400 ms] is linearly proportional to the rate of the stimulus (inset). c Electrodes showing sustained, significant stimulus-brain coherence (CAC) are spatially located in widespread cerebral areas. Colours represent the stimulation frequency at which CAC is maximal. Lower plot: CAC as a function of stimulus rate. Light grey circles correspond to individual data. d . Top panels: spatial location of all electrodes, colour-coded as a function of participant number. Lower panel: spatial location of electrodes that did not show any significant HG or CAC response. Error bars indicate SEM. Asterisks in panels a and b indicate significant correlation with stimulus frequency: *** indicates significant p -values at 0.001
Magnitude Squared Coherence Estimate, supplied by MathWorks 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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mscohere . m function  (MathWorks Inc)
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MathWorks Inc mscohere . m function
HG and CAC spatial response patterns differ across stimulation frequencies. a Neural responses to click trains in a representative electrode situated in the right primary auditory cortex (Heschl’s Gyrus) of patient S1. Lower left plot: time course of unfiltered event-related responses to the stimuli expressed in t-values relative to baseline. Responses are aligned with an exemplar of a stimulus (here a 40 Hz click train). Upper right plot: time course of high-gamma [HG, 70–200 Hz] amplitude in response to the stimulus, expressed in t-values relative to baseline, as a function of click train frequency (ranging from 5 Hz, blue to 250 Hz, red). HG onset [0–0.4 s] response is linearly proportional to the rate of the stimulus (upper inset). Lower right plot: <t>magnitude</t> <t>squared</t> stimulus-brain <t>coherence</t> (cerebro-acoustic coherence, CAC, expressed in t -values relative to baseline). CAC shows a sustained pattern through the duration of the stimulus that varies nonlinearly as a function of the stimulus rate and is prominent in the roughness range (40–100 Hz; lower inset). b – d Neural responses to click trains across all eleven patients. b Upper panel: spatial location of electrodes exhibiting significant HG onset responses to sounds. Colours represent the stimulation frequency at which HG response is maximal. Lower plot: time course of HG [70–200 Hz] responses averaged across these electrodes, expressed in t-values relative to baseline, as a function of stimulus frequency. HG amplitude at the response onset [0–400 ms] is linearly proportional to the rate of the stimulus (inset). c Electrodes showing sustained, significant stimulus-brain coherence (CAC) are spatially located in widespread cerebral areas. Colours represent the stimulation frequency at which CAC is maximal. Lower plot: CAC as a function of stimulus rate. Light grey circles correspond to individual data. d . Top panels: spatial location of all electrodes, colour-coded as a function of participant number. Lower panel: spatial location of electrodes that did not show any significant HG or CAC response. Error bars indicate SEM. Asterisks in panels a and b indicate significant correlation with stimulus frequency: *** indicates significant p -values at 0.001
Mscohere . M Function, supplied by MathWorks 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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mscohere . m function - by Bioz Stars, 2026-03
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HG and CAC spatial response patterns differ across stimulation frequencies. a Neural responses to click trains in a representative electrode situated in the right primary auditory cortex (Heschl’s Gyrus) of patient S1. Lower left plot: time course of unfiltered event-related responses to the stimuli expressed in t-values relative to baseline. Responses are aligned with an exemplar of a stimulus (here a 40 Hz click train). Upper right plot: time course of high-gamma [HG, 70–200 Hz] amplitude in response to the stimulus, expressed in t-values relative to baseline, as a function of click train frequency (ranging from 5 Hz, blue to 250 Hz, red). HG onset [0–0.4 s] response is linearly proportional to the rate of the stimulus (upper inset). Lower right plot: magnitude squared stimulus-brain coherence (cerebro-acoustic coherence, CAC, expressed in t -values relative to baseline). CAC shows a sustained pattern through the duration of the stimulus that varies nonlinearly as a function of the stimulus rate and is prominent in the roughness range (40–100 Hz; lower inset). b – d Neural responses to click trains across all eleven patients. b Upper panel: spatial location of electrodes exhibiting significant HG onset responses to sounds. Colours represent the stimulation frequency at which HG response is maximal. Lower plot: time course of HG [70–200 Hz] responses averaged across these electrodes, expressed in t-values relative to baseline, as a function of stimulus frequency. HG amplitude at the response onset [0–400 ms] is linearly proportional to the rate of the stimulus (inset). c Electrodes showing sustained, significant stimulus-brain coherence (CAC) are spatially located in widespread cerebral areas. Colours represent the stimulation frequency at which CAC is maximal. Lower plot: CAC as a function of stimulus rate. Light grey circles correspond to individual data. d . Top panels: spatial location of all electrodes, colour-coded as a function of participant number. Lower panel: spatial location of electrodes that did not show any significant HG or CAC response. Error bars indicate SEM. Asterisks in panels a and b indicate significant correlation with stimulus frequency: *** indicates significant p -values at 0.001

Journal: Nature Communications

Article Title: The rough sound of salience enhances aversion through neural synchronisation

doi: 10.1038/s41467-019-11626-7

Figure Lengend Snippet: HG and CAC spatial response patterns differ across stimulation frequencies. a Neural responses to click trains in a representative electrode situated in the right primary auditory cortex (Heschl’s Gyrus) of patient S1. Lower left plot: time course of unfiltered event-related responses to the stimuli expressed in t-values relative to baseline. Responses are aligned with an exemplar of a stimulus (here a 40 Hz click train). Upper right plot: time course of high-gamma [HG, 70–200 Hz] amplitude in response to the stimulus, expressed in t-values relative to baseline, as a function of click train frequency (ranging from 5 Hz, blue to 250 Hz, red). HG onset [0–0.4 s] response is linearly proportional to the rate of the stimulus (upper inset). Lower right plot: magnitude squared stimulus-brain coherence (cerebro-acoustic coherence, CAC, expressed in t -values relative to baseline). CAC shows a sustained pattern through the duration of the stimulus that varies nonlinearly as a function of the stimulus rate and is prominent in the roughness range (40–100 Hz; lower inset). b – d Neural responses to click trains across all eleven patients. b Upper panel: spatial location of electrodes exhibiting significant HG onset responses to sounds. Colours represent the stimulation frequency at which HG response is maximal. Lower plot: time course of HG [70–200 Hz] responses averaged across these electrodes, expressed in t-values relative to baseline, as a function of stimulus frequency. HG amplitude at the response onset [0–400 ms] is linearly proportional to the rate of the stimulus (inset). c Electrodes showing sustained, significant stimulus-brain coherence (CAC) are spatially located in widespread cerebral areas. Colours represent the stimulation frequency at which CAC is maximal. Lower plot: CAC as a function of stimulus rate. Light grey circles correspond to individual data. d . Top panels: spatial location of all electrodes, colour-coded as a function of participant number. Lower panel: spatial location of electrodes that did not show any significant HG or CAC response. Error bars indicate SEM. Asterisks in panels a and b indicate significant correlation with stimulus frequency: *** indicates significant p -values at 0.001

Article Snippet: CAC was obtained by measuring the Magnitude Squared Coherence Estimate using the MATLAB function mscohere.m.

Techniques: