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Activities

Employment (2)

Emory University: Atlanta, Georgia, US

2021-12-01 to present | Postdoctoral Researcher (Biomedical Engineering)
Employment
Source: Self-asserted source
Christopher Versteeg

Northwestern University: Chicago, IL, US

2015-08-01 to 2021-10-21 | Doctoral Research Assistant (Biomedical Engineering)
Employment
Source: Self-asserted source
Christopher Versteeg

Education and qualifications (2)

Northwestern University: Chicago, IL, US

2015-08-01 to 2021-10-21 | Ph.D. (Biomedical Engineering)
Education
Source: Self-asserted source
Christopher Versteeg

Georgia Institute of Technology: GA, GA, US

2010-08-01 to 2015-05-01 | B.S. Biomedical Engineering w/ Minor in Computer Science (Biomedical Engineering)
Education
Source: Self-asserted source
Christopher Versteeg

Funding (3)

Determining the role of the Cuneate nucleus in the processing of proprioceptive information in the awake behaving animal

2018-09-01 to 2021-08-31 | Grant
National Institute of Neurological Disorders and Stroke (Bethesda, US)
GRANT_NUMBER: F31NS106833
Source: Self-asserted source
Christopher Versteeg via DimensionsWizard

Predoctoral Training Program in Biomedical Data Driven Discovery (BD3)

2015-09-10 to 2021-09-09 | Grant
United States National Library of Medicine (Bethesda, US)
GRANT_NUMBER: T32LM012203
Source: Self-asserted source
Christopher Versteeg via DimensionsWizard

Computational Neuroscience Training at Emory and Georgia Tech Undergraduate Supplement

2011-08-15 to 2017-07-31 | Grant
National Institute on Drug Abuse (Bethesda, US)
GRANT_NUMBER: R90DA033462
Source: Self-asserted source
Christopher Versteeg via DimensionsWizard

Works (8)

Task-driven neural network models predict neural dynamics of proprioception: Code

Zenodo
2024-02-19 | Software
Contributors: Alessandro Marin Vargas; Axel Bisi; Alberto Silvio Chiappa; Christopher Versteeg; Lee E. Miller; Alexander Mathis
Source: check_circle
DataCite

Task-driven neural network models predict neural dynamics of proprioception: Code

Zenodo
2024-02-19 | Software
Contributors: Alessandro Marin Vargas; Axel Bisi; Alberto Silvio Chiappa; Christopher Versteeg; Lee E. Miller; Alexander Mathis
Source: check_circle
DataCite

Task-driven neural network models predict neural dynamics of proprioception: Experimental data, activations and predictions of neural network models

Zenodo
2024-01-20 | Data set
Contributors: Alessandro Marin Vargas; Axel Bisi; Alberto Silvio Chiappa; Christopher Versteeg; Lee E. Miller; Alexander Mathis
Source: check_circle
DataCite

Task-driven neural network models predict neural dynamics of proprioception: Experimental data, activations and predictions of neural network models

Zenodo
2024-01-20 | Data set
Contributors: Alessandro Marin Vargas; Axel Bisi; Alberto Silvio Chiappa; Christopher Versteeg; Lee E. Miller; Alexander Mathis
Source: check_circle
DataCite

Task-driven neural network models predict neural dynamics of proprioception: Neural network model weights

Zenodo
2024-01-19 | Data set
Contributors: Alessandro Marin Vargas; Axel Bisi; Alberto Silvio Chiappa; Christopher Versteeg; Lee E. Miller; Alexander Mathis
Source: check_circle
DataCite

Task-driven neural network models predict neural dynamics of proprioception: Neural network model weights

Zenodo
2024-01-19 | Data set
Contributors: Alessandro Marin Vargas; Axel Bisi; Alberto Silvio Chiappa; Christopher Versteeg; Lee E. Miller; Alexander Mathis
Source: check_circle
DataCite

Task-driven neural network models predict neural dynamics of proprioception: Synthetic muscle spindle datasets

Zenodo
2024-01-18 | Data set
Contributors: Alessandro Marin Vargas; Axel Bisi; Alberto Silvio Chiappa; Christopher Versteeg; Lee E. Miller; Alexander Mathis
Source: check_circle
DataCite

Task-driven neural network models predict neural dynamics of proprioception: Synthetic muscle spindle datasets

Zenodo
2024-01-18 | Data set
Contributors: Alessandro Marin Vargas; Axel Bisi; Alberto Silvio Chiappa; Christopher Versteeg; Lee E. Miller; Alexander Mathis
Source: check_circle
DataCite

Peer review (1 review for 1 publication/grant)

Review activity for Neural networks. (1)