Explainable AI explained! | #2 By-design interpretable models with Microsofts InterpretML

DeepFindr · Beginner ·📐 ML Fundamentals ·5y ago

Key Takeaways

Explains by-design interpretable models with Microsoft's InterpretML for Explainable AI

Original Description

▬▬ Resources ▬▬▬▬▬▬▬▬▬▬ Code: https://github.com/deepfindr/xai-series Interpretable Machine Learning Book: https://christophm.github.io/interpretable-ml-book Explainable Boosting Machine Video: https://www.youtube.com/watch?v=MREiHgHgl0k ▬▬ Used Music ▬▬▬▬▬▬▬▬▬▬▬ Royalty Free Music used - https://www.fesliyanstudios.com/royalty-free-music/downloads-c/lofi-hip-hop-music/37 - Lazy Day by David Renda ▬▬ Timestamps ▬▬▬▬▬▬▬▬▬▬▬ 00:00 Introduction 01:22 Dataset for this series 07:32 Logistic Regression 13:47 Decision Trees 17:00 Explainable Boosing Machine ▬▬ Support me if you like 🌟 ►Link to this channel: https://bit.ly/3zEqL1W ►Support me on Patreon: https://bit.ly/2Wed242 ►Buy me a coffee on Ko-Fi: https://bit.ly/3kJYEdl
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Uploads from DeepFindr · DeepFindr · 10 of 56

1 Understanding Graph Neural Networks | Part 1/3 - Introduction
Understanding Graph Neural Networks | Part 1/3 - Introduction
DeepFindr
2 Understanding Graph Neural Networks | Part 2/3 - GNNs and it's Variants
Understanding Graph Neural Networks | Part 2/3 - GNNs and it's Variants
DeepFindr
3 Understanding Graph Neural Networks | Part 3/3 - Pytorch Geometric and Molecule Data using RDKit
Understanding Graph Neural Networks | Part 3/3 - Pytorch Geometric and Molecule Data using RDKit
DeepFindr
4 Node Classification on Knowledge Graphs using PyTorch Geometric
Node Classification on Knowledge Graphs using PyTorch Geometric
DeepFindr
5 Understanding Convolutional Neural Networks | Part 1 / 3 - The Basics
Understanding Convolutional Neural Networks | Part 1 / 3 - The Basics
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6 Understanding Convolutional Neural Networks | Part 2 / 3 - Wonders of the world CNN with PyTorch
Understanding Convolutional Neural Networks | Part 2 / 3 - Wonders of the world CNN with PyTorch
DeepFindr
7 Understanding Convolutional Neural Networks | Part 3 / 3 - Transfer Learning and Explainable AI
Understanding Convolutional Neural Networks | Part 3 / 3 - Transfer Learning and Explainable AI
DeepFindr
8 How to use edge features in Graph Neural Networks (and PyTorch Geometric)
How to use edge features in Graph Neural Networks (and PyTorch Geometric)
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9 Explainable AI explained! | #1 Introduction
Explainable AI explained! | #1 Introduction
DeepFindr
Explainable AI explained! | #2 By-design interpretable models with Microsofts InterpretML
Explainable AI explained! | #2 By-design interpretable models with Microsofts InterpretML
DeepFindr
11 Explainable AI explained! | #3 LIME
Explainable AI explained! | #3 LIME
DeepFindr
12 Explainable AI explained! | #4 SHAP
Explainable AI explained! | #4 SHAP
DeepFindr
13 Explainable AI explained! | #5 Counterfactual explanations and adversarial attacks
Explainable AI explained! | #5 Counterfactual explanations and adversarial attacks
DeepFindr
14 Explainable AI explained! | #6 Layerwise Relevance Propagation with MRI data
Explainable AI explained! | #6 Layerwise Relevance Propagation with MRI data
DeepFindr
15 Understanding Graph Attention Networks
Understanding Graph Attention Networks
DeepFindr
16 GNN Project #1 - Introduction to HIV dataset
GNN Project #1 - Introduction to HIV dataset
DeepFindr
17 GNN Project #2 - Creating a Custom Dataset in Pytorch Geometric
GNN Project #2 - Creating a Custom Dataset in Pytorch Geometric
DeepFindr
18 GNN Project #3.2 - Graph Transformer
GNN Project #3.2 - Graph Transformer
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19 GNN Project #4.1 - Graph Variational Autoencoders
GNN Project #4.1 - Graph Variational Autoencoders
DeepFindr
20 GNN Project #4.2 - GVAE Training and Adjacency reconstruction
GNN Project #4.2 - GVAE Training and Adjacency reconstruction
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21 GNN Project #4.3 - One-shot molecule generation - Part 1
GNN Project #4.3 - One-shot molecule generation - Part 1
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22 GNN Project #4.3 - Code explanation
GNN Project #4.3 - Code explanation
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23 Machine Learning Model Deployment with Python (Streamlit + MLflow) | Part 1/2
Machine Learning Model Deployment with Python (Streamlit + MLflow) | Part 1/2
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24 Machine Learning Model Deployment with Python (Streamlit + MLflow) | Part 2/2
Machine Learning Model Deployment with Python (Streamlit + MLflow) | Part 2/2
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25 How to explain Graph Neural Networks (with XAI)
How to explain Graph Neural Networks (with XAI)
DeepFindr
26 Explaining Twitch Predictions with GNNExplainer
Explaining Twitch Predictions with GNNExplainer
DeepFindr
27 Python Graph Neural Network Libraries (an Overview)
Python Graph Neural Network Libraries (an Overview)
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28 Friendly Introduction to Temporal Graph Neural Networks (and some Traffic Forecasting)
Friendly Introduction to Temporal Graph Neural Networks (and some Traffic Forecasting)
DeepFindr
29 Traffic Forecasting with Pytorch Geometric Temporal
Traffic Forecasting with Pytorch Geometric Temporal
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30 Fraud Detection with Graph Neural Networks
Fraud Detection with Graph Neural Networks
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31 Fake News Detection using Graphs with Pytorch Geometric
Fake News Detection using Graphs with Pytorch Geometric
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32 Recommender Systems using Graph Neural Networks
Recommender Systems using Graph Neural Networks
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33 How to handle Uncertainty in Deep Learning #1.1
How to handle Uncertainty in Deep Learning #1.1
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34 How to handle Uncertainty in Deep Learning #1.2
How to handle Uncertainty in Deep Learning #1.2
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35 How to handle Uncertainty in Deep Learning #2.1
How to handle Uncertainty in Deep Learning #2.1
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36 How to handle Uncertainty in Deep Learning #2.2
How to handle Uncertainty in Deep Learning #2.2
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37 Converting a Tabular Dataset to a Graph Dataset for GNNs
Converting a Tabular Dataset to a Graph Dataset for GNNs
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38 Converting a Tabular Dataset to a Temporal Graph Dataset for GNNs
Converting a Tabular Dataset to a Temporal Graph Dataset for GNNs
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39 How to get started with Data Science (Career tracks and advice)
How to get started with Data Science (Career tracks and advice)
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40 Causality and (Graph) Neural Networks
Causality and (Graph) Neural Networks
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41 Diffusion models from scratch in PyTorch
Diffusion models from scratch in PyTorch
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42 Self-/Unsupervised GNN Training
Self-/Unsupervised GNN Training
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43 Contrastive Learning in PyTorch - Part 1: Introduction
Contrastive Learning in PyTorch - Part 1: Introduction
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44 Contrastive Learning in PyTorch - Part 2: CL on Point Clouds
Contrastive Learning in PyTorch - Part 2: CL on Point Clouds
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45 State of AI 2022 - My Highlights
State of AI 2022 - My Highlights
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46 Equivariant Neural Networks | Part 1/3 - Introduction
Equivariant Neural Networks | Part 1/3 - Introduction
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47 Equivariant Neural Networks | Part 2/3 - Generalized CNNs
Equivariant Neural Networks | Part 2/3 - Generalized CNNs
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48 Equivariant Neural Networks | Part 3/3 - Transformers and GNNs
Equivariant Neural Networks | Part 3/3 - Transformers and GNNs
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49 Personalized Image Generation (using Dreambooth) explained!
Personalized Image Generation (using Dreambooth) explained!
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50 Vision Transformer Quick Guide - Theory and Code in (almost) 15 min
Vision Transformer Quick Guide - Theory and Code in (almost) 15 min
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51 LoRA explained (and a bit about precision and quantization)
LoRA explained (and a bit about precision and quantization)
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52 Dimensionality Reduction Techniques | Introduction and Manifold Learning (1/5)
Dimensionality Reduction Techniques | Introduction and Manifold Learning (1/5)
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53 Principal Component Analysis (PCA) | Dimensionality Reduction Techniques  (2/5)
Principal Component Analysis (PCA) | Dimensionality Reduction Techniques (2/5)
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54 Multidimensional Scaling (MDS) | Dimensionality Reduction Techniques  (3/5)
Multidimensional Scaling (MDS) | Dimensionality Reduction Techniques (3/5)
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55 t-distributed Stochastic Neighbor Embedding (t-SNE) | Dimensionality Reduction Techniques  (4/5)
t-distributed Stochastic Neighbor Embedding (t-SNE) | Dimensionality Reduction Techniques (4/5)
DeepFindr
56 Uniform Manifold Approximation and Projection (UMAP) |  Dimensionality Reduction Techniques (5/5)
Uniform Manifold Approximation and Projection (UMAP) | Dimensionality Reduction Techniques (5/5)
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Chapters (5)

Introduction
1:22 Dataset for this series
7:32 Logistic Regression
13:47 Decision Trees
17:00 Explainable Boosing Machine
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