Daniel Carl Miner
Titel
Zitiert von
Zitiert von
Jahr
Search for Quark Compositeness with the Dijet Centrality Ratio in Collisions at
V Khachatryan, AM Sirunyan, A Tumasyan, W Adam, T Bergauer, ...
Physical review letters 105 (26), 262001, 2010
592010
Plasticity-driven self-organization under topological constraints accounts for non-random features of cortical synaptic wiring
D Miner, J Triesch
PLoS computational biology 12 (2), e1004759, 2016
382016
Slicing, sampling, and distance-dependent effects affect network measures in simulated cortical circuit structures
DC Miner, J Triesch
Frontiers in neuroanatomy 8, 125, 2014
62014
Bridging structure and function: A model of sequence learning and prediction in primary visual cortex
C Klos, D Miner, J Triesch
PLoS computational biology 14 (6), e1006187, 2018
52018
Precise synaptic efficacy alignment suggests potentiation dominated learning
C Hartmann, DC Miner, J Triesch
Frontiers in neural circuits 9, 90, 2016
52016
Self-organization of complex cortex-like wiring in a spiking neural network model
D Miner, J Triesch
BMC Neuroscience 16 (S1), P265, 2015
12015
Hey, look over there: Distraction effects on rapid sequence recall
D Miner, C Tetzlaff
Plos one 15 (4), e0223743, 2020
2020
Structural Plasticity and the Generation of Bidirectional Connectivity
D Miner, FZ Hoffmann, F Kleberg, J Triesch
The Rewiring Brain, 247-260, 2017
2017
Study of quark substructure using proton-proton collisions
D Miner
Rochester U., 2011
2011
Long Tails and Common Neighbors in Cortical Circuitry
D Miner, J Triesch
Precise synaptic alignment suggests potentiation dominated learning
C Hartmann, D Miner, J Triesch
Relating synaptic efficacies and neuronal separation in a simulated layer 2/3 cortical network
D Miner, J Triesch
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–12