Statistical models of the spiking activity suggest two regimes of behavior.

James A. Henderson (286309)
Pulin Gong (255733)

November 2018

The plasticity rules do not fix the firing rate of neurons, instead firing rates vary in response to...

Martin Boerlin (355887)
Sophie Denève (355889)

February 2013

(A) Post-stimulus time histogram (PSTH) of the output activity in response to a stimulus with con...

Modeling multiple inputs improves spike prediction and reveals a correlation between the model input and the injected current.

Maxim Volgushev (161275)
Vladimir Ilin (617921)
Ian H. Stevenson (243054)

March 2015

A) The variance of the coupling terms and post-spike history relative to the variance of the esti...

Visualizations and descriptive statistics of the observed spike times suggest two modes of behavior in the same cell class.

Liang Meng (510401)
Mark A. Kramer (270624)
Steven J. Middleton (510402)
Miles A. Whittington (270633)
Uri T. Eden (510403)

January 2014

1A–4A: 1 second interval of spike train data for each of the four cells considered. 1B–...

Modeling the effect of previous spiking history.

Robert Haslinger (153906)
Gordon Pipa (153913)
Bruss Lima (153920)
Wolf Singer (81850)
Emery N. Brown (153928)
Sergio Neuenschwander (153935)

July 2012

A) Schematic of basis spline expansion for the spike history dependent term of the logistic regr...

Simulated spike trains and results of model fitting.

Pengcheng Zhou (422524)
Shawn D. Burton (813393)
Adam C. Snyder (813394)
Matthew A. Smith (726923)
Nathaniel N. Urban (190580)
Robert E. Kass (726924)

October 2015

(A) Simulated spike trains in response to a fluctuating stimulus and oscillatory drive. (B,C,D) G...

Statistical properties of spiking activity in the active state for the E (blue), I1 (red) and I2 (orange) populations.

Renato Duarte (6634988)
Abigail Morrison (221262)

April 2019

(a, b): Example raster plots depicting the activity of a small, randomly chosen subset of neurons, o...

Performance of model in reproducing spiking statistics.

Jason S. Prentice (213050)
Olivier Marre (259205)
Mark L. Ioffe (3717445)
Adrianna R. Loback (3717442)
Gašper Tkačik (213054)
Michael J. Berry II (454592)

November 2016

(A – C) Low-order moments predicted by the model (y-axis) vs. measured in the data (x-axis). Each...

Improved low-activity fixed point of the model.

Jannis Schuecker (3712147)
Maximilian Schmidt (3712144)
Sacha J. van Albada (2861444)
Markus Diesmann (221260)
Moritz Helias (306448)

February 2017

Population-averaged firing rates for encoded in color (A) predicted by the analytical the...

Statistical Analysis of Recurrent events by Point process

Hong, Gyeongtae

January 2019

Characterising the neuron spike train firing as a function of external stimulus applied in an experi...

Analysis of spiking variability.

Sergio Verduzco-Flores (371239)
Mark Bodner (33604)
Bard Ermentrout (91973)
Joaquin M. Fuster (371240)
Yongdi Zhou (371241)

February 2013

A)Distributions of the coefficient of variation of the interspike intervals for units of the 2000...

Comparison with other models of spiking and the AR order.

Kensuke Arai (4497679)
Robert E. Kass (726924)

October 2017

Spiking noise and oscillation irregularity affect the quality of phase inference. A, B) Clockwise...

Spiking activity of the stochastic models.

Emiliano Torre (3152133)
Carlos Canova (3152136)
Michael Denker (3152139)
George Gerstein (3152142)
Moritz Helias (306448)
Sonja Grün (330028)

July 2016

Examples of population raster plots of the spiking activity of 100 neurons (vertical axis) over t...

Firing rate estimates based on single trials.

Greg Jensen (712648)
Fabian Muñoz (2317330)
Vincent Ferrera (520480)

February 2016

<div> <div> <div> Spikes were generated by a Poisson process (5Hz, 25Hz, 5Hz) plotted as a dotted...

Characterization of spiking activity (based on activity in the time window 400s–500s).

Christian Klos (5341241)
Daniel Miner (849834)
Jochen Triesch (106561)

June 2018

(A) Spike trains of excitatory neurons. (C) Firing rate distribution of excitatory neurons. (B,D)...

Variability of firing rates.

James A. Henderson (286309)
Pulin Gong (255733)

November 2018

The plasticity rules do not fix the firing rate of neurons, instead firing rates vary in response to...

Output firing rates.

Martin Boerlin (355887)
Sophie Denève (355889)

February 2013

(A) Post-stimulus time histogram (PSTH) of the output activity in response to a stimulus with con...

Modeling multiple inputs improves spike prediction and reveals a correlation between the model input and the injected current.

Maxim Volgushev (161275)
Vladimir Ilin (617921)
Ian H. Stevenson (243054)

March 2015

A) The variance of the coupling terms and post-spike history relative to the variance of the esti...

Visualizations and descriptive statistics of the observed spike times suggest two modes of behavior in the same cell class.

Liang Meng (510401)
Mark A. Kramer (270624)
Steven J. Middleton (510402)
Miles A. Whittington (270633)
Uri T. Eden (510403)

January 2014

1A–4A: 1 second interval of spike train data for each of the four cells considered. 1B–...

Modeling the effect of previous spiking history.

Robert Haslinger (153906)
Gordon Pipa (153913)
Bruss Lima (153920)
Wolf Singer (81850)
Emery N. Brown (153928)
Sergio Neuenschwander (153935)

July 2012

A) Schematic of basis spline expansion for the spike history dependent term of the logistic regr...

Simulated spike trains and results of model fitting.

Pengcheng Zhou (422524)
Shawn D. Burton (813393)
Adam C. Snyder (813394)
Matthew A. Smith (726923)
Nathaniel N. Urban (190580)
Robert E. Kass (726924)

October 2015

(A) Simulated spike trains in response to a fluctuating stimulus and oscillatory drive. (B,C,D) G...

Statistical properties of spiking activity in the active state for the E (blue), I1 (red) and I2 (orange) populations.

Renato Duarte (6634988)
Abigail Morrison (221262)

April 2019

(a, b): Example raster plots depicting the activity of a small, randomly chosen subset of neurons, o...

Performance of model in reproducing spiking statistics.

Jason S. Prentice (213050)
Olivier Marre (259205)
Mark L. Ioffe (3717445)
Adrianna R. Loback (3717442)
Gašper Tkačik (213054)
Michael J. Berry II (454592)

November 2016

(A – C) Low-order moments predicted by the model (y-axis) vs. measured in the data (x-axis). Each...

Improved low-activity fixed point of the model.

Jannis Schuecker (3712147)
Maximilian Schmidt (3712144)
Sacha J. van Albada (2861444)
Markus Diesmann (221260)
Moritz Helias (306448)

February 2017

Population-averaged firing rates for encoded in color (A) predicted by the analytical the...

Statistical Analysis of Recurrent events by Point process

Hong, Gyeongtae

January 2019

Characterising the neuron spike train firing as a function of external stimulus applied in an experi...

Analysis of spiking variability.

Sergio Verduzco-Flores (371239)
Mark Bodner (33604)
Bard Ermentrout (91973)
Joaquin M. Fuster (371240)
Yongdi Zhou (371241)

February 2013

A)Distributions of the coefficient of variation of the interspike intervals for units of the 2000...

Comparison with other models of spiking and the AR order.

Kensuke Arai (4497679)
Robert E. Kass (726924)

October 2017

Spiking noise and oscillation irregularity affect the quality of phase inference. A, B) Clockwise...

Spiking activity of the stochastic models.

Emiliano Torre (3152133)
Carlos Canova (3152136)
Michael Denker (3152139)
George Gerstein (3152142)
Moritz Helias (306448)
Sonja Grün (330028)

July 2016

Examples of population raster plots of the spiking activity of 100 neurons (vertical axis) over t...

Firing rate estimates based on single trials.

Greg Jensen (712648)
Fabian Muñoz (2317330)
Vincent Ferrera (520480)

February 2016

<div> <div> <div> Spikes were generated by a Poisson process (5Hz, 25Hz, 5Hz) plotted as a dotted...

Characterization of spiking activity (based on activity in the time window 400s–500s).

Christian Klos (5341241)
Daniel Miner (849834)
Jochen Triesch (106561)

June 2018

(A) Spike trains of excitatory neurons. (C) Firing rate distribution of excitatory neurons. (B,D)...

Variability of firing rates.

James A. Henderson (286309)
Pulin Gong (255733)

November 2018

The plasticity rules do not fix the firing rate of neurons, instead firing rates vary in response to...

Output firing rates.

Martin Boerlin (355887)
Sophie Denève (355889)

February 2013

(A) Post-stimulus time histogram (PSTH) of the output activity in response to a stimulus with con...

Modeling multiple inputs improves spike prediction and reveals a correlation between the model input and the injected current.

Maxim Volgushev (161275)
Vladimir Ilin (617921)
Ian H. Stevenson (243054)

March 2015

A) The variance of the coupling terms and post-spike history relative to the variance of the esti...

Statistical models of the spiking activity suggest two regimes of behavior.

Abstract

Extracted data

Statistical models of the spiking activity suggest two regimes of behavior.

Abstract

Extracted data

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