Synconset based network identification works robustly in sub sampled networks.

Modeling multiple inputs improves detection times.

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

March 2015

A) Schematic of a typical non-parametric test for connectivity. By bootstrapping we first generat...

Network connectivity can be well estimated even with low observation ratios.

Daniel Soudry (162904)
Suraj Keshri (813095)
Patrick Stinson (813096)
Min-hwan Oh (813097)
Garud Iyengar (813098)
Liam Paninski (155009)

October 2015

With N = 50 neurons, and an experiment length of 5.5 hours, we examine various observation...

Synchrony across the network depends on connection strength and input difference more strongly during sustained gamma-band activity than during MS-induced transients.

Eric Lowet (692302)
Bart Gips (4409626)
Mark J. Roberts (844365)
Peter De Weerd (332480)
Ole Jensen (268395)
Jan van der Eerden (692305)

May 2018

Synchrony was measured by PLV. (A) A scaled-down schematic representation of the model network. I...

Effect of subsampling on network identification.

Mohan Raghavan (468173)
Bharadwaj Amrutur (468174)
Rishikesh Narayanan (279267)
Sujit Kumar Sikdar (468175)

October 2013

Figure shows a plot of the number of networks correctly identified (as of total) with decreasing...

Synconset waves from simulation and prediction mirror the underlying network connection probability distributions.

Mohan Raghavan (468173)
Bharadwaj Amrutur (468174)
Rishikesh Narayanan (279267)
Sujit Kumar Sikdar (468175)

October 2013

The figures on the left hand side column show the typical probabilities of a synapse from a neuro...

Creating candidate networks from multiple synconset waves.

Mohan Raghavan (468173)
Bharadwaj Amrutur (468174)
Rishikesh Narayanan (279267)
Sujit Kumar Sikdar (468175)

October 2013

(a) The three panels show the observed latencies in response to three different stimuli. B...

Relationship between network structure and synconset waves holds even when network is scaled (a)–(f) Latency profiles in networks of varying sizes.

Mohan Raghavan (468173)
Bharadwaj Amrutur (468174)
Rishikesh Narayanan (279267)
Sujit Kumar Sikdar (468175)

October 2013

The 6 networks have all been constructed using the connection probability profile shown in row-2,...

Spontaneously formed Synconset chains predict synconset waves.

Mohan Raghavan (468173)
Bharadwaj Amrutur (468174)
Rishikesh Narayanan (279267)
Sujit Kumar Sikdar (468175)

October 2013

(a) A 252 neuron network under study. Neurons are shown as black circles and synaptic conn...

More patterns can be detected than the number of neurons with SPOTDisClust.

Lukas Grossberger (5487983)
Francesco P. Battaglia (3639238)
Martin Vinck (190549)

July 2018

Left: Two realizations of two different patterns, for 50 neurons. Simulation parameters were λ<su...

Connectivity statistics.

Nicholas Timme (616203)
Shinya Ito (196349)
Maxym Myroshnychenko (678485)
Fang-Chin Yeh (616198)
Emma Hiolski (616199)
Pawel Hottowy (616202)
John M. Beggs (196361)

December 2014

(A) TE p-value histogram for real and randomized data. Real data show many more pairs of n...

Modeling Behavior in Different Delay Match to Sample Tasksin One Simple Network

Yali eAmit
Volodya eYakovlev
Shaul eHochstein

July 2013

Delay match to sample (DMS) experiments provide an important link between the theory of recurrent ne...

Robustness of the synchronization with respect to mismatch in the delays.

Leonardo L. Gollo (355155)
Claudio Mirasso (219378)
Olaf Sporns (2645)
Michael Breakspear (142366)

April 2014

The top schemes (a) illustrate the motifs of neurons considered. Motifs M6′, M9′ and M3+1′ have o...

Basin assignments are reproducible across stimulus repeats and across subnetworks.

Gašper Tkačik (213054)
Olivier Marre (259205)
Dario Amodei (505060)
Elad Schneidman (135930)
William Bialek (42552)
Michael J. Berry II (454592)

January 2014

(A) Most frequently occurring MS patterns collected from 30 subnetworks of size N =...

Correlations in a network of three populations as illustrated in Figure 2 in dependence of the size of the external population.

Moritz Helias (306448)
Tom Tetzlaff (312963)
Markus Diesmann (221260)

January 2014

Each neuron in population receives randomly drawn excitatory inputs with weight , randomly dra...

Structural embeddedness and population response.

Ioannis Vlachos (227198)
Ad Aertsen (29219)
Arvind Kumar (227201)

February 2013

(A) Network response (PSTH) for identical stimulation of 30 different subpopulations of 250 neuro...

Modeling multiple inputs improves detection times.

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

March 2015

A) Schematic of a typical non-parametric test for connectivity. By bootstrapping we first generat...

Network connectivity can be well estimated even with low observation ratios.

Daniel Soudry (162904)
Suraj Keshri (813095)
Patrick Stinson (813096)
Min-hwan Oh (813097)
Garud Iyengar (813098)
Liam Paninski (155009)

October 2015

With N = 50 neurons, and an experiment length of 5.5 hours, we examine various observation...

Synchrony across the network depends on connection strength and input difference more strongly during sustained gamma-band activity than during MS-induced transients.

Eric Lowet (692302)
Bart Gips (4409626)
Mark J. Roberts (844365)
Peter De Weerd (332480)
Ole Jensen (268395)
Jan van der Eerden (692305)

May 2018

Synchrony was measured by PLV. (A) A scaled-down schematic representation of the model network. I...

Effect of subsampling on network identification.

Mohan Raghavan (468173)
Bharadwaj Amrutur (468174)
Rishikesh Narayanan (279267)
Sujit Kumar Sikdar (468175)

October 2013

Figure shows a plot of the number of networks correctly identified (as of total) with decreasing...

Synconset waves from simulation and prediction mirror the underlying network connection probability distributions.

Mohan Raghavan (468173)
Bharadwaj Amrutur (468174)
Rishikesh Narayanan (279267)
Sujit Kumar Sikdar (468175)

October 2013

The figures on the left hand side column show the typical probabilities of a synapse from a neuro...

Creating candidate networks from multiple synconset waves.

Mohan Raghavan (468173)
Bharadwaj Amrutur (468174)
Rishikesh Narayanan (279267)
Sujit Kumar Sikdar (468175)

October 2013

(a) The three panels show the observed latencies in response to three different stimuli. B...

Relationship between network structure and synconset waves holds even when network is scaled (a)–(f) Latency profiles in networks of varying sizes.

Mohan Raghavan (468173)
Bharadwaj Amrutur (468174)
Rishikesh Narayanan (279267)
Sujit Kumar Sikdar (468175)

October 2013

The 6 networks have all been constructed using the connection probability profile shown in row-2,...

Spontaneously formed Synconset chains predict synconset waves.

Mohan Raghavan (468173)
Bharadwaj Amrutur (468174)
Rishikesh Narayanan (279267)
Sujit Kumar Sikdar (468175)

October 2013

(a) A 252 neuron network under study. Neurons are shown as black circles and synaptic conn...

More patterns can be detected than the number of neurons with SPOTDisClust.

Lukas Grossberger (5487983)
Francesco P. Battaglia (3639238)
Martin Vinck (190549)

July 2018

Left: Two realizations of two different patterns, for 50 neurons. Simulation parameters were λ<su...

Connectivity statistics.

Nicholas Timme (616203)
Shinya Ito (196349)
Maxym Myroshnychenko (678485)
Fang-Chin Yeh (616198)
Emma Hiolski (616199)
Pawel Hottowy (616202)
John M. Beggs (196361)

December 2014

(A) TE p-value histogram for real and randomized data. Real data show many more pairs of n...

Modeling Behavior in Different Delay Match to Sample Tasksin One Simple Network

Yali eAmit
Volodya eYakovlev
Shaul eHochstein

July 2013

Delay match to sample (DMS) experiments provide an important link between the theory of recurrent ne...

Robustness of the synchronization with respect to mismatch in the delays.

Leonardo L. Gollo (355155)
Claudio Mirasso (219378)
Olaf Sporns (2645)
Michael Breakspear (142366)

April 2014

The top schemes (a) illustrate the motifs of neurons considered. Motifs M6′, M9′ and M3+1′ have o...

Basin assignments are reproducible across stimulus repeats and across subnetworks.

Gašper Tkačik (213054)
Olivier Marre (259205)
Dario Amodei (505060)
Elad Schneidman (135930)
William Bialek (42552)
Michael J. Berry II (454592)

January 2014

(A) Most frequently occurring MS patterns collected from 30 subnetworks of size N =...

Correlations in a network of three populations as illustrated in Figure 2 in dependence of the size of the external population.

Moritz Helias (306448)
Tom Tetzlaff (312963)
Markus Diesmann (221260)

January 2014

Each neuron in population receives randomly drawn excitatory inputs with weight , randomly dra...

Structural embeddedness and population response.

Ioannis Vlachos (227198)
Ad Aertsen (29219)
Arvind Kumar (227201)

February 2013

(A) Network response (PSTH) for identical stimulation of 30 different subpopulations of 250 neuro...

Modeling multiple inputs improves detection times.

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

March 2015

A) Schematic of a typical non-parametric test for connectivity. By bootstrapping we first generat...

Network connectivity can be well estimated even with low observation ratios.

Daniel Soudry (162904)
Suraj Keshri (813095)
Patrick Stinson (813096)
Min-hwan Oh (813097)
Garud Iyengar (813098)
Liam Paninski (155009)

October 2015

With N = 50 neurons, and an experiment length of 5.5 hours, we examine various observation...

Synchrony across the network depends on connection strength and input difference more strongly during sustained gamma-band activity than during MS-induced transients.

Eric Lowet (692302)
Bart Gips (4409626)
Mark J. Roberts (844365)
Peter De Weerd (332480)
Ole Jensen (268395)
Jan van der Eerden (692305)

May 2018

Synchrony was measured by PLV. (A) A scaled-down schematic representation of the model network. I...

Synconset based network identification works robustly in sub sampled networks.

Abstract

Extracted data

Synconset based network identification works robustly in sub sampled networks.

Abstract

Extracted data

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