CS583: Deep Learning

Machine learning basics. This part briefly introduces the fundamental ML problems-- regression, classification, dimensionality reduction, and clustering-- and the traditional ML models and numerical algorithms for solving the problems.
- ML basics [slides-1] [slides-2].
- Regression [slides-1] [slides-2].
- Classification.
  - Logistic regression [slides] [lecture note].
  - SVM [slides].
  - Softmax classifier [slides].
  - KNN classifier [slides].
- Regularizations [slides-1] [slides-2].
- Clustering [slides].
- Dimensionality reduction [slides-1] [slides-2] [lecture note].
- Scientific computing libraries. [slides].
Neural network basics. This part covers the multilayer perceptron, backpropagation, and deep learning libraries, with focus on Keras.
- Multilayer perceptron and backpropagation [slides] [lecture note].
- Keras [slides].
- Further reading:
Convolutional neural networks (CNNs). This part is focused on CNNs and its application to computer vision problems.
- CNN basics [slides].
- Tricks for improving test accuracy [slides].
- Feature scaling and batch normalization [slides].
- Advanced topics on CNNs [slides].
- Popular CNN architectures [slides].
- Further reading:
  - [style transfer (Section 8.1, Chollet's book)]
  - [visualize CNN (Section 5.4, Chollet's book)]
Recurrent neural networks (RNNs). This part introduces RNNs and its applications in natural language processing (NLP).
- Categorical feature processing [slides] [video (Chinese)].
- Text processing and word embedding [slides] [video (Chinese)].
- RNN basics [slides] [video (Chinese)].
- LSTM [slides] [reference] [video (Chinese)].
- Making RNNs more effective [slides] [video (Chinese)].
- Text generation [slides] [video (Chinese)].
- Machine translation [slides] [video (Chinese)].
- Attention [slides] [video (English)] [video (Chinese)] [reference].
- Self-attention [slides] [video (English)] [video (Chinese)].
- Image caption generation [slides] [reference].
Transformer Models.
- Transformer (1/2): attention without RNN [slides] [video (English)] [video (Chinese)].
- Transformer (2/2): from shallow to deep [slides] [video (English)] [video (Chinese)] [reference].
- BERT: pre-training Transformer [slides] [video (English)] [video (Chinese)] [reference].
- Vision Transformer (ViT) [slides] [video (English)] [video (Chinese)].
Autoencoders. This part introduces autoencoders for dimensionality reduction and image generation.
- Autoencoder for dimensionality reduction [slides].
- Variational Autoencoders (VAEs) for image generation [slides].
Generative Adversarial Networks (GANs).
- DC-GAN [slides].
Deep Reinforcement Learning.
- Reinforcement learning basics [slides] [lecture note] [video (Chinese)].
- Value-based learning [slides] [video (Chinese)].
- Policy-based learning [slides] [video (Chinese)].
- Actor-critic methods [slides] [video (Chinese)].
- AlphaGo and Monte Carlo tree search [slides] [video (Chinese)].
Parallel Computing.
- Basics and MapReduce [slides] [lecture note] [video (Chinese)].
- Parameter server and decentralized network [slides] [video (Chinese)].
- TensorFlow's mirrored strategy and ring all-reduce [slides] [video (Chinese)].
- Federated learning [slides] [video (Chinese)].
Adversarial Robustness. This part introduces how to attack neural networks using adversarial examples and how to defend from the attack.
- Data evasion attack and defense [slides] [lecture note].
- Data poisoning attack [slides] [video (Chinese)].
- Further reading: [Adversarial Robustness - Theory and Practice].
Meta Learning.
- Few-shot learning: basic concepts [slides] [video (English)] [video (Chinese)].
- Siamese network [slides] [video (English)] [video (Chinese)].
- Pretraining + fine tuning [slides] [video (English)] [video (Chinese)].
Neural Architecture Search (NAS).
- Basics [slides] [video (Chinese)].
- RNN + Reinforcement Learning: [slides] [video (Chinese)].
- Differentiable NAS: [slides] [video (Chinese)].

CS583: Deep Learning

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Overview

CS583: Deep Learning

Owner

Shusen Wang

Implementation of OpenAI paper with Simple Noise Scale on Fastai V2

Exploring Versatile Prior for Human Motion via Motion Frequency Guidance (3DV2021)

Quickly and easily create / train a custom DeepDream model

Implement of "Training deep neural networks via direct loss minimization" in PyTorch for 0-1 loss

Predict multi paths to a moving person depending on his trajectory history.

Codes for our paper The Stem Cell Hypothesis: Dilemma behind Multi-Task Learning with Transformer Encoders published to EMNLP 2021.

Vis2Mesh: Efficient Mesh Reconstruction from Unstructured Point Clouds of Large Scenes with Learned Virtual View Visibility ICCV2021

2021 Artificial Intelligence Diabetes Datathon

Vignette is a face tracking software for characters using osu!framework.

Implementation of C-RNN-GAN.

(NeurIPS 2021) Realistic Evaluation of Transductive Few-Shot Learning

The official implementation code of "PlantStereo: A Stereo Matching Benchmark for Plant Surface Dense Reconstruction."

project page for VinVL

The InterScript dataset contains interactive user feedback on scripts generated by a T5-XXL model.

Tiny-NewsRec: Efﬁcient and Effective PLM-based News Recommendation

DI-HPC is an acceleration operator component for general algorithm modules in reinforcement learning algorithms

[NeurIPS'21] "AugMax: Adversarial Composition of Random Augmentations for Robust Training" by Haotao Wang, Chaowei Xiao, Jean Kossaifi, Zhiding Yu, Animashree Anandkumar, and Zhangyang Wang.

A Next Generation ConvNet by FaceBookResearch Implementation in PyTorch(Original) and TensorFlow.

Semi-supervised semantic segmentation needs strong, varied perturbations

A modular framework for vision & language multimodal research from Facebook AI Research (FAIR)