Mini Course in Deep Learning with #PyTorch for AIMS
#course #DL
https://github.com/Atcold/pytorch-Deep-Learning-Minicourse
🔗 Atcold/pytorch-Deep-Learning-Minicourse
Minicourse in Deep Learning with PyTorch. Contribute to Atcold/pytorch-Deep-Learning-Minicourse development by creating an account on GitHub.
#course #DL
https://github.com/Atcold/pytorch-Deep-Learning-Minicourse
🔗 Atcold/pytorch-Deep-Learning-Minicourse
Minicourse in Deep Learning with PyTorch. Contribute to Atcold/pytorch-Deep-Learning-Minicourse development by creating an account on GitHub.
GitHub
GitHub - Atcold/NYU-DLSP20: NYU Deep Learning Spring 2020
NYU Deep Learning Spring 2020. Contribute to Atcold/NYU-DLSP20 development by creating an account on GitHub.
Deep learning with Python Develop Deep Learning models on Theano and Thensorflow using Keras
#book #keras #DL
📝 5_6133943928459624650.pdf - 💾5 709 397
#book #keras #DL
📝 5_6133943928459624650.pdf - 💾5 709 397
📹Artificial caricature
Agents learn to draw simplified (artistic?) portraits via trial and error.
Project website: https://learning-to-paint.github.io
ArXiV: https://arxiv.org/abs/1910.01007
#GAN #CelebA #DL
🔗 Unsupervised Doodling and Painting with Improved SPIRAL
Agents learn to draw simplified (artistic?) portraits via trial and error.
Project website: https://learning-to-paint.github.io
ArXiV: https://arxiv.org/abs/1910.01007
#GAN #CelebA #DL
🔗 Unsupervised Doodling and Painting with Improved SPIRAL
arXiv.org
Unsupervised Doodling and Painting with Improved SPIRAL
We investigate using reinforcement learning agents as generative models of images (extending arXiv:1804.01118). A generative agent controls a simulated painting environment, and is trained with...
Neural networks taught to "read minds" in real time
🔗 Neural networks taught to "read minds" in real time
As part of the NeuroNet NTI Assistive Neurotechnology project, employees of the Neurobotics Group of Companies and the Moscow Institute of Physics and Technology have trained neural networks to recreate images of the electrical activity of the brain. Earlier, no such experiments were performed on EEG material (other scientists used fMRI or analyzed signals directly from neurons). In the future, this discovery will create a new type of device for post-stroke rehabilitation.
https://www.biorxiv.org/content/10.1101/787101v2
#AI #ML #DL
🔗 Neural networks taught to "read minds" in real time
As part of the NeuroNet NTI Assistive Neurotechnology project, employees of the Neurobotics Group of Companies and the Moscow Institute of Physics and Technology have trained neural networks to recreate images of the electrical activity of the brain. Earlier, no such experiments were performed on EEG material (other scientists used fMRI or analyzed signals directly from neurons). In the future, this discovery will create a new type of device for post-stroke rehabilitation.
https://www.biorxiv.org/content/10.1101/787101v2
#AI #ML #DL
YouTube
Neural networks taught to "read minds" in real time
As part of the NeuroNet NTI Assistive Neurotechnology project, employees of the Neurobotics Group of Companies and the Moscow Institute of Physics and Technology have trained neural networks to recreate images of the electrical activity of the brain. Earlier…