Computer vision is an area of deep learning dedicated to interpreting and understanding images. It is used to help teach computers to “see” and to use visual information to perform visual tasks
Computer vision models are designed to translate visual data based on features and contextual information identified during training. This enables models to interpret images and apply those interpretations to predictive or decision making tasks.
Image processing involves modifying or enhancing images to produce a new result. It can include optimizing brightness or contrast, increasing resolution, blurring sensitive information, or cropping. The difference between image processing and computer vision is that the former doesn’t necessarily require the identification of content.
Deep Learning is part of a broader family of machine learning methods based on artificial neural networks.
Deep-learning architectures such as deep neural networks, recurrent neural networks, convolutional neural networks have been applied to fields including computer vision, speech recognition, natural language processing, machine translation, bioinformatics, drug design, medical image analysis, material inspection and board game programs, where they have produced good results
Artificial neural networks (ANNs) were inspired by information processing and distributed communication nodes in biological systems. ANNs have various differences from biological brains.
Keras is the most used deep learning framework. Keras follows best practices for reducing cognitive load: it offers APIs, it minimizes the number of user actions required for common use cases, and it provides clear & actionable error messages.
Following topics are covered as part of the course
Introduction to Deep Learning Artificial Neural Networks (ANN) Activation functions Loss functions Gradient Descent Optimizer Image Processing Convnets (CNN), hands-on with CNN Gradients and Back Propagation – Mathematics Gradient Descent Mathematics Image Processing / CV – Advanced Image Data Generator Image Data Generator – Data Augmentation VGG16 – Pretrained network VGG16 – with code improvements Functional API Intro to Functional API Multi Input Multi Output Model Image Segmentation Pooling Max, Average, Global ResNet Model Resnet overview Resnet concept model Resnet demo Xception Depthwise Separable Convolution Xception overview Xception concept model Xception demo Visualize Convnet filters
Who this course is for:
Python programmers, Machine Learning aspirants, Deep Learning Aspirants
