Supervised Learning for AI with Python and Tensorflow 2

Supervised Learning for AI with Python and Tensorflow 2 - Uncover the Concepts and Techniques to Build and Train your own Artificial Intelligence Models

• New
• Created by Jeremy Richard Lai Hong
• English [Auto]

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What you'll learn

• The basics of supervised learning: What are parameters, What is a bias node, Why do we use a learning rate
• Techniques for dealing with data: How to Split Datasets, One-hot Encoding, Handling Missing Values
• Vectors, matrices and creating faster code using Vectorization
• Mathematical concepts such as Optimization, Derivatives and Gradient Descent
• Gain a deep understanding behind the fundamentals of Feedforward, Convolutional and Recurrent Neural Networks
• Build Feedforward, Convolutional and Recurrent Neural Networks using only the fundamentals
• How to use Tensorflow 2.0 and Keras to build models, create TFRecords and save and load models
• Practical project: Style Transfer - Use AI to draw an image in the style of your favorite artist
• Practical project: Object Detection - Use AI to Detect the bounding box locations of objects inside of images
• Practical project: Transfer Learning - Learn to leverage large pretrained AI models to work on new datasets
• Practical project: One-Shot Learning - Learn to build AI models to perform tasks such as Face recognition
• Practical project: Text Generation - Build an AI model to generate text similar to Romeo and Juliet
• Practical project: Sentiment Classification - Build an AI model to determine whether text is overall negative or positive
• Practical project: Attention Model - Build an attention model to build an interpretable AI model

Description

Gain a deep understanding of Supervised Learning techniques by studying the fundamentals and implementing them in NumPy.

Gain hands-on experience using popular Deep Learning frameworks such as Tensorflow 2 and Keras.

Section 1 - The Basics:

- Learn what Supervised Learning is, in the context of AI

- Learn the difference between Parametric and non-Parametric models

- Learn the fundamentals: Weights and biases, threshold functions and learning rates

- An introduction to the Vectorization technique to help speed up our self implemented code

- Learn to process real data: Feature Scaling, Splitting Data, One-hot Encoding and Handling missing data

- Classification vs Regression

Section 2 - Feedforward Networks:

- Learn about the Gradient Descent optimization algorithm.

- Implement the Logistic Regression model using NumPy

- Implement a Feedforward Network using NumPy

- Learn the difference between Multi-task and Multi-class Classification

- Understand the Vanishing Gradient Problem

- Overfitting

- Batching and various Optimizers (Momentum, RMSprop, Adam)

Section 3 - Convolutional Neural Networks:

- Fundamentals such as filters, padding, strides and reshaping

- Implement a Convolutional Neural Network using NumPy

- Introduction to Tensorfow 2 and Keras

- Data Augmentation to reduce overfitting

- Understand and implement Transfer Learning to require less data

- Analyse Object Classification models using Occlusion Sensitivity

- Generate Art using Style Transfer

- One-Shot Learning for Face Verification and Face Recognition

- Perform Object Detection for Blood Stream images

Section 4 - Sequential Data

- Understand Sequential Data and when data should be modeled as Sequential Data

- Implement a Recurrent Neural Network using NumPy

- Implement LSTM and GRUs in Tensorflow 2/Keras

- Sentiment Classification from the basics to the more advanced techniques

- Understand Word Embeddings

- Generate text similar to Romeo and Juliet

- Implement an Attention Model using Tensorflow 2/Keras

Who this course is for:

Beginner Python programmers curious about Artificial Intelligence

People looking for an AI course that teaches both the theoretical and practical aspects of Artificial Intelligence

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