Booking options
Price on Enquiry
Price on Enquiry
Delivered Online
3 days
All levels
Duration
3 Days
18 CPD hours
This course is intended for
This course is geared for attendees with Intermediate IT skills who wish to learn Computer Vision with tensor flow 2
Overview
This 'skills-centric' course is about 50% hands-on lab and 50% lecture, with extensive practical exercises designed to reinforce fundamental skills, concepts and best practices taught throughout the course. Working in a hands-on learning environment, led by our Computer Vision expert instructor, students will learn about and explore how to
Build, train, and serve your own deep neural networks with TensorFlow 2 and Keras
Apply modern solutions to a wide range of applications such as object detection and video analysis
Run your models on mobile devices and web pages and improve their performance.
Create your own neural networks from scratch
Classify images with modern architectures including Inception and ResNet
Detect and segment objects in images with YOLO, Mask R-CNN, and U-Net
Tackle problems faced when developing self-driving cars and facial emotion recognition systems
Boost your application's performance with transfer learning, GANs, and domain adaptation
Use recurrent neural networks (RNNs) for video analysis
Optimize and deploy your networks on mobile devices and in the browser
Computer vision solutions are becoming increasingly common, making their way into fields such as health, automobile, social media, and robotics. Hands-On Computervision with TensorFlow 2 is a hands-on course that thoroughly explores TensorFlow 2, the brandnew version of Google's open source framework for machine learning. You will understand how to benefit from using convolutional neural networks (CNNs) for visual tasks. This course begins with the fundamentals of computer vision and deep learning, teaching you how to build a neural network from scratch. You will discover the features that have made TensorFlow the most widely used AI library, along with its intuitive Keras interface. You'll then move on to building, training, and deploying CNNs efficiently. Complete with concrete code examples, the course demonstrates how to classify images with modern solutions, such as Inception and ResNet, and extract specific content using You Only Look Once (YOLO), Mask R-CNN, and U-Net. You will also build generative dversarial networks (GANs) and variational autoencoders (VAEs) to create and edit images, and long short-term memory networks (LSTMs) to analyze videos. In the process, you will acquire advanced insights into transfer learning, data augmentation, domain adaptation, and mobile and web deployment, among other key concepts
Computer Vision and Neural Networks
Computer Vision and Neural Networks
Technical requirements
Computer vision in the wild
A brief history of computer vision
Getting started with neural networks
TensorFlow Basics and Training a Model
TensorFlow Basics and Training a Model
Technical requirements
Getting started with TensorFlow 2 and Keras
TensorFlow 2 and Keras in detail
The TensorFlow ecosystem
Modern Neural Networks
Modern Neural Networks
Technical requirements
Discovering convolutional neural networks
Refining the training process
Influential Classification Tools
Influential Classification Tools
Technical requirements
Understanding advanced CNN architectures
Leveraging transfer learning
Object Detection Models
Object Detection Models
Technical requirements
Introducing object detection
A fast object detection algorithm YOLO
Faster R-CNN ? a powerful object detection model
Enhancing and Segmenting Images
Enhancing and Segmenting Images
Technical requirements
Transforming images with encoders-decoders
Understanding semantic segmentation
Training on Complex and Scarce Datasets
Training on Complex and Scarce Datasets
Technical requirements
Efficient data serving
How to deal with data scarcity
Video and Recurrent Neural Networks
Video and Recurrent Neural Networks
Technical requirements
Introducing RNNs
Classifying videos Optimizing Models and Deploying on Mobile Devices
Optimizing Models and Deploying on Mobile Devices Technical requirements
Optimizing computational and disk footprints
On-device machine learning
Example app ? recognizing facial expressions
Nexus Human, established over 20 years ago, stands as a pillar of excellence in the realm of IT and Business Skills Training and education in Ireland and the UK....