https://github.com/aa14av/aa14av

https://github.com/aa14av/aa14av

Science Score: 23.0%

This score indicates how likely this project is to be science-related based on various indicators:

  • CITATION.cff file
  • codemeta.json file
    Found codemeta.json file
  • .zenodo.json file
  • DOI references
  • Academic publication links
    Links to: scholar.google, frontiersin.org
  • Academic email domains
  • Institutional organization owner
  • JOSS paper metadata
  • Scientific vocabulary similarity
    Low similarity (6.1%) to scientific vocabulary

Keywords

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Last synced: 10 months ago · JSON representation

Repository

Basic Info
  • Host: GitHub
  • Owner: aa14av
  • Default Branch: main
  • Homepage:
  • Size: 45.9 KB
Statistics
  • Stars: 1
  • Watchers: 1
  • Forks: 0
  • Open Issues: 0
  • Releases: 0
Topics
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Created almost 3 years ago · Last pushed almost 2 years ago
Metadata Files
Readme

README.md

Hi there, I'm Alejandro 👋

:brain: I am a neuroscientist with a PhD from the University of Florida.

⚓ I am currently working as a naval aerospace experimental psychologist.

🤔 I'm primarily interested in precision dosing non-invasive brain stimulation with artificial intelligence.

🔭 I'm currently working on creating an deep learning algorithm to predict MCI in older adults !

🌱 I'm currently learning about graph neural networks for classifying fMRI data.

👯 I’m looking to collaborate on deep learning projects for non-invasive brain stimulation and neuroimaging. If you're working on this kind of thing, let me know!

Alejandro's GitHub stats

📫 Contacts

ORCID Google Scholar Scopus ID Loop Profile

You can reach out to me at: aa14av@gmail.com

:newspaper: Publications

  • Albizu, A., Paulo, S., Huang, Z., Waner, J., Indahlastari, I., Fang, R., Brunoni AR., & Woods, AJ. (2024). Artificial intelligence-optimized non-invasive brain stimulation and treatment response prediction for major depression. Bioelectronic Medicine

  • Albizu, A., Indahlastari, I., Huang, Z., Waner, J., Stolte, SE., Fang, R., & Woods, AJ. (2023). Machine-learning defined precision tDCS for improving cognitive function. Brain Stimulation

  • Albizu, A., Indahlastari, I., & Woods, AJ. (2022). Non-invasive Brain Stimulation. Encyclopedia of Gerontology and Population Aging

  • Albizu, A., Fang, R., Indahlastari, A., O’Shea, A., Stolte, SE., See, KB., Boutzoukas, EM., Kraft, JN., Nissim, NR., & Woods, AJ. (2020). Machine learning and individual variability in electric field characteristics predict tDCS treatment response. Brain Stimulation

  • Albizu, A., Indahlastari, I., & Woods, AJ. (2019). Non-invasive Brain Stimulation. Encyclopedia of Gerontology and Population Aging

Owner

  • Name: Alejandro Albizu
  • Login: aa14av
  • Kind: user
  • Location: Gainesville, FL
  • Company: University of Florida

PhD Candidate of Neuroscience

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