Multifunctional nano-bio INterfaces wIth deep braiN reGions
Published February 11, 2025 | Version v1
Journal article Open

A Physics-Informed Neural Network as a Digital Twin of Optically Turbid Media

Creators

  • 1. ROR icon Center for Biomolecular Nanotechnologies
  • 2. ROR icon Italian Institute of Technology

Description

M.V. and F.P. contributed equally to this work and are co-last authors. The authors thank Marco Pisanello for fruitful discussion. M.K., L.C., M.D.V., and F.P. acknowledge funding from the European Union's Horizon 2020 Research and Innovation Program under grant agreement no. 828972. L.C., M.D.V., and F.P. acknowledge funding from the Project “RAISE (Robotics and AI for Socio-economic Empowerment)” code ECS00000035 funded by European Union—NextGenerationEU PNRR MUR–M4C2—Investimento 1.5–Avviso “Ecosistemi dell’Innovazione” CUP J33C22001220001. M.K., M.D.V., and F.P. acknowleadge funding by European Union's Horizon Euripe under grant agreement 101125498, project MINING - “Multifunctional nano-bio interfaces wIth deep brain regions” M.K., M.D.V., and F.P. acknowledge funding from the European Union's Horizon 2020 Research and Innovation Program under grant agreement no. 101016787.

Files

Kazemzadeh et al. - A Physics-Informed Neural Network as a Digital Twi.pdf

Files (6.3 MB)

Additional details

Funding

European Commission
NanoBRIGHT – BRInGing nano-pHoTonics into the brain 828972
European Commission
MINING – Multifunctional nano-bio INterfaces wIth deep braiN reGions 101125498
European Commission
DEEPER – DEEP BRAIN PHOTONIC TOOLS FOR CELL-TYPE SPECIFIC TARGETING OF NEURAL DISEASES 101016787