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Daniel Birman
Daniel Birman
Washington Research Foundation Postdoctoral Fellow, University of Washington
Email verificata su uw.edu - Home page
Titolo
Citata da
Citata da
Anno
MRIQC: Advancing the automatic prediction of image quality in MRI from unseen sites
O Esteban, D Birman, M Schaer, OO Koyejo, RA Poldrack, ...
PloS one 12 (9), e0184661, 2017
6892017
The point of no return in vetoing self-initiated movements
M Schultze-Kraft*, D Birman*, M Rusconi, C Allefeld, K Görgen, S Dähne, ...
Proceedings of the National Academy of Sciences 113 (4), 1080-1085, 2016
2802016
A flexible readout mechanism of human sensory representations
D Birman, JL Gardner
Nature communications 10 (1), 3500, 2019
262019
Parietal and prefrontal: categorical differences?
D Birman, JL Gardner
Nature Neuroscience 19 (1), 5, 2016
122016
Reproducibility of in-vivo electrophysiological measurements in mice
International Brain Laboratory, K Banga, J Benson, N Bonacchi, ...
bioRxiv, 2022.05. 09.491042, 2022
92022
A quantitative framework for motion visibility in human cortex
D Birman, JL Gardner
Journal of Neurophysiology 120 (4), 1824-1839, 2018
92018
Brain-wide representations of prior information in mouse decision-making
C Findling, F Hubert, International Brain Laboratory, L Acerbi, B Benson, ...
BioRxiv, 2023.07. 04.547684, 2023
72023
A brain-wide map of neural activity during complex behaviour
International Brain Lab, B Benson, J Benson, D Birman, N Bonacchi, ...
bioRxiv, 2023.07. 04.547681, 2023
52023
Gain, not concomitant changes in spatial receptive field properties, improves task performance in a neural network attention model
KJ Fox*, D Birman*, JL Gardner
Elife 12, e78392, 2023
42023
Predicting Motor intentions with closed-loop brain-computer interfaces
M Schultze-Kraft, M Neumann, M Lundfall, P Wagner, D Birman, ...
Brain-Computer Interface Research: A State-of-the-Art Summary 6, 79-90, 2017
32017
Brain-wide topographic coordination of traveling spiral waves
Z Ye, MS Bull, A Li, D Birman, TL Daigle, B Tasic, H Zeng, NA Steinmetz
bioRxiv, 2023.12. 07.570517, 2023
12023
Pinpoint: trajectory planning for multi-probe electrophysiology and injections in an interactive web-based 3D environment
D Birman, KJ Yang, SJ West, B Karsh, Y Browning, IB Laboratory, ...
bioRxiv, 2023
12023
Poster Session I: Gain, not changes in spatial receptive field properties, improves task performance in a neural network attention model
D Birman, KJ Fox, JL Gardner
Journal of Vision 23 (15), 26-26, 2023
2023
Urchin: Neuroscience data visualization in a stateful interactive web-based 3D environment
D Birman, J Schoch, the International Brain Laboratory, NA Steinmetz
https://github.com/VirtualBrainLab/Urchin, 2022
2022
Sensitivity enhancement and selection are shared mechanisms for spatial and feature-based attention
D Birman, JL Gardner
bioRxiv, 2021.01. 26.428350, 2021
2021
Computational linking models of human selective visual attention
D Birman
Stanford University, 2019
2019
A Man vs. Machine Shootout Duel: Do we have Control over our Intention-Predictive Brain Signals
M Schultze-Kraft, D Birman, M Rusconi, S Daehne, B Blankertz, J Haynes
a Real-time Duelling Game Subjects try to execute Self-initiated Movements …, 2015
2015
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
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