Deep Learning with MATLAB

Day 1 of 2

Transfer Learning for Image Classification

Objective: Perform image classification using pretrained networks. Use transfer learning to train customized classification networks.

• Pretrained networks
• Image datastores
• Transfer learning
• Network evaluation

Interpreting Network Behavior

Objective: Gain insight into how a network is operating by visualizing image data as it passes through the network. Apply this technique to different kinds of images.

• Activations
• Feature extraction for machine learning

Creating Networks

Objective: Build convolutional networks from scratch. Understand how information is passed between network layers and how different types of layers work.

• Training from scratch
• Neural networks
• Convolution layers and filters

Day 2 of 2

Training a Network and Improving Performance

Objective: Understand how training algorithms work. Set training options to monitor and control training. Choose and implement modifications to training algorithm options, network architecture, or training data to improve network performance.

• Network training
• Training progress plots
• Validation
• Training options
• Directed acyclic graphs
• Augmented datastores

Performing Image Regression

Objective: Create convolutional networks that can predict continuous numeric responses.

• Transfer learning for regression
• Evaluation metrics for regression networks

Computer Vision with Deep Learning

Objective: Train networks to locate and label specific objects within images.

• Image application workflow
• Semantic segmentation

Sequence Data Classification and Forecasting

Objective: Build and train networks to perform classification on ordered sequences of data, such as time series or sensor data. Use recurrent networks to create sequences of forecasts.

• Long short-term memory networks
• Sequence classification
• Sequence preprocessing
• Sequence forecasting