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feup-lcom
π±οΈProposed Solution for the Computer Laboratory Project @FEUPpinn-multivp
π¨ This repository contains the source code and additional resources for the paper "Leveraging Physics-Informed Neural Networks as Solar Wind Forecasting Models". The paper discusses the challenges of solar wind forecasting and the application of Physics-Informed Neural Networks (PiNNs) to improve prediction accuracy and computational efficiency.feup-sope
Solution proposal for the Operating Systems course exercisespolimi-naml
Numerical Analysis for Machine Learningfeup-gulbenkian-qc-mt
β‘ Developed Code for the New Talents in Quantum Technologies Program of the Gulbenkian Foundation / Capstone Project @FEUPfeup-cpd-proj
feup-cgra
π Proposed project solution for the Computer Graphics course @ FEUPfeup-pfl
Solution proposal for the Functional and Logical Programming course exercisesfeup-edaa-dcel
Implementation of the Doubly Connected Edge List (DCEL) Data Structure and application on the Map Overlay Problemfeup-sope-proj1
Proposed project solution for the Operating Systems course @ FEUPfeup-pfl-proj-1
pi-multivp
π¨ This repository consolidates the source code and experimental results for two innovative approaches developed as part of a master thesis on solar wind forecasting: Physics-Informed Neural Networks (PiNN) and Physics-Informed Neural Operators (PiNO).feup-iart-proj1
π€ Proposed project solution for the Artificial Intelligence course @ FEUPcs-ai-summer-school-challenge
π€ CentraleSupelec Summer School on AI 2022 - Classify an email into eight classes based on the metadata extracted from the emails.pod-pinn
π This repository contains the implementation of a physics-informed surrogate model leveraging Proper Orthogonal Decomposition (POD) and neural networks to solve the inviscid Burgers' equation efficiently.pino-multivp
π¨ This repository contains the source code and resources for the approach "Leveraging Physics-Informed Neural Operators as Solar Wind Forecasting Models". The paper discusses the challenges of solar wind forecasting and the application of Physics-Informed Neural Operators (PiNOs) to improve prediction accuracy and computational efficiency.Love Open Source and this site? Check out how you can help us