bonndata

Metrics

164,848 Downloads

Featured Dataverses

In order to use this feature you must have at least one published or linked dataverse.

Publish Dataverse

Are you sure you want to publish your dataverse? Once you do so it must remain published.

Publish Dataverse

This dataverse cannot be published because the dataverse it is in has not been published.

Delete Dataverse

Are you sure you want to delete your dataverse? You cannot undelete this dataverse.

Publication Year: 2025

671 to 680 of 1,851 Results

F_tau.m Sep 9, 2025 - Critical fluctuations of the exponential last passage percolation with thick boundaries Wolfram Mathematica Code - 864 B - MD5: 7839b60e7dd88adc093c6af00aed0dcb
K_tau_11.m Sep 9, 2025 - Critical fluctuations of the exponential last passage percolation with thick boundaries Wolfram Mathematica Code - 245 B - MD5: 7c4e62c3496642ea91fbca9e2c323caa
K_tau_12.m Sep 9, 2025 - Critical fluctuations of the exponential last passage percolation with thick boundaries Wolfram Mathematica Code - 1.2 KB - MD5: 2d445f21bbf9824696867e1e8a682780
K_tau_21.m Sep 9, 2025 - Critical fluctuations of the exponential last passage percolation with thick boundaries Wolfram Mathematica Code - 918 B - MD5: ff7de8ddafadb765d28f5e40804cf84a
K_tau_22.m Sep 9, 2025 - Critical fluctuations of the exponential last passage percolation with thick boundaries Wolfram Mathematica Code - 335 B - MD5: 0109f967da1b7b18e5140d01ef50d6ee
Phase of firing does not reflect temporal order in sequence memory of humans and recurrent neural networks Sep 4, 2025 - SFB1089 Mormann, Florian; Liebe, Stefanie; Niediek, Johannes; Reber, Thomas; Faber, Jennifer; Elger, Christian E.; Pals, Matthijs; Macke, Jakob H.; Boström, Jan, 2025, "Phase of firing does not reflect temporal order in sequence memory of humans and recurrent neural networks", https://doi.org/10.60507/FK2/KB2RN6, bonndata, V1 The temporal order of a sequence of events has been thought to be reflected in the ordered firing of neurons at different phases of theta oscillations. Here we assess this by measuring single neuron activity (1,420 neurons) and local field potentials (921 channels) in the medial temporal lobe of 16 patients with epilepsy performing a working-memory...
sequence-memory-main.zip Sep 4, 2025 - Phase of firing does not reflect temporal order in sequence memory of humans and recurrent neural networks ZIP Archive - 277.4 KB - MD5: 2b0af4a85622332befc6c139debd7229
Network state changes in sensory thalamus represent learned outcomes Sep 3, 2025 - SFB1089 Gründemann, Jan; Hasegawa, Masashi; Huang, Ziyan; Paricio-Montesinos, Ricardo, 2025, "Network state changes in sensory thalamus represent learned outcomes", https://doi.org/10.60507/FK2/I2NSY2, bonndata, V1 Thalamic brain areas play an important role in adaptive behaviors. Nevertheless, the population dynamics of thalamic relays during learning across sensory modalities remain unknown. Using a cross-modal sensory reward-associative learning paradigm combined with deep brain two-photon calcium imaging of large populations of auditory thalamus (medial g...
10.12751_g-node.1rfzbn.zip Sep 3, 2025 - Network state changes in sensory thalamus represent learned outcomes ZIP Archive - 341.5 KB - MD5: 975231b34fe8f4eba16cf2d44127b67d
datacite.yml Sep 3, 2025 - Network state changes in sensory thalamus represent learned outcomes Unknown - 2.0 KB - MD5: 977217f06d2ef40b4c9941d9026a72bb

F_tau.m

Sep 9, 2025 - Critical fluctuations of the exponential last passage percolation with thick boundaries

Wolfram Mathematica Code - 864 B -

K_tau_11.m

Sep 9, 2025 - Critical fluctuations of the exponential last passage percolation with thick boundaries

Wolfram Mathematica Code - 245 B -

K_tau_12.m

Sep 9, 2025 - Critical fluctuations of the exponential last passage percolation with thick boundaries

Wolfram Mathematica Code - 1.2 KB -

K_tau_21.m

Sep 9, 2025 - Critical fluctuations of the exponential last passage percolation with thick boundaries

Wolfram Mathematica Code - 918 B -

K_tau_22.m

Sep 9, 2025 - Critical fluctuations of the exponential last passage percolation with thick boundaries

Wolfram Mathematica Code - 335 B -

Phase of firing does not reflect temporal order in sequence memory of humans and recurrent neural networks

Sep 4, 2025 - SFB1089

Mormann, Florian; Liebe, Stefanie; Niediek, Johannes; Reber, Thomas; Faber, Jennifer; Elger, Christian E.; Pals, Matthijs; Macke, Jakob H.; Boström, Jan, 2025, "Phase of firing does not reflect temporal order in sequence memory of humans and recurrent neural networks", https://doi.org/10.60507/FK2/KB2RN6, bonndata, V1

The temporal order of a sequence of events has been thought to be reflected in the ordered firing of neurons at different phases of theta oscillations. Here we assess this by measuring single neuron activity (1,420 neurons) and local field potentials (921 channels) in the medial temporal lobe of 16 patients with epilepsy performing a working-memory...

sequence-memory-main.zip

Sep 4, 2025 - Phase of firing does not reflect temporal order in sequence memory of humans and recurrent neural networks

ZIP Archive - 277.4 KB -

Network state changes in sensory thalamus represent learned outcomes

Sep 3, 2025 - SFB1089

Gründemann, Jan; Hasegawa, Masashi; Huang, Ziyan; Paricio-Montesinos, Ricardo, 2025, "Network state changes in sensory thalamus represent learned outcomes", https://doi.org/10.60507/FK2/I2NSY2, bonndata, V1

Thalamic brain areas play an important role in adaptive behaviors. Nevertheless, the population dynamics of thalamic relays during learning across sensory modalities remain unknown. Using a cross-modal sensory reward-associative learning paradigm combined with deep brain two-photon calcium imaging of large populations of auditory thalamus (medial g...

10.12751_g-node.1rfzbn.zip

Sep 3, 2025 - Network state changes in sensory thalamus represent learned outcomes

ZIP Archive - 341.5 KB -

datacite.yml

Sep 3, 2025 - Network state changes in sensory thalamus represent learned outcomes

Unknown - 2.0 KB -

Add Data

Share Dataverse

Link Dataverse

Reset Modifications