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Python: Advanced Guide to Artificial Intelligence

More Information
Learn
  • Explore how an ML model can be trained, optimized, and evaluated
  • Work with Autoencoders and Generative Adversarial Networks
  • Explore the most important Reinforcement Learning techniques
  • Build end-to-end deep learning (CNN, RNN, and Autoencoders) models
  • Define and train a model for image and video classification
  • Deploy your deep learning models and optimize them for high performance
About

This Learning Path is your complete guide to quickly getting to grips with popular machine learning algorithms. You'll be introduced to the most widely used algorithms in supervised, unsupervised, and semi-supervised machine learning, and learn how to use them in the best possible manner. Ranging from Bayesian models to the MCMC algorithm to Hidden Markov models, this Learning Path will teach you how to extract features from your dataset and perform dimensionality reduction by making use of Python-based libraries.


You'll bring the use of TensorFlow and Keras to build deep learning models, using concepts such as transfer learning, generative adversarial networks, and deep reinforcement learning. Next, you'll learn the advanced features of TensorFlow1.x, such as distributed TensorFlow with TF clusters, deploy production models with TensorFlow Serving. You'll implement different techniques related to object classification, object detection, image segmentation, and more.

By the end of this Learning Path, you'll have obtained in-depth knowledge of TensorFlow, making you the go-to person for solving artificial intelligence problems

 

This Learning Path includes content from the following Packt products:

  • Mastering Machine Learning Algorithms by Giuseppe Bonaccorso
  • Mastering TensorFlow 1.x by Armando Fandango
  • Deep Learning for Computer Vision by Rajalingappaa Shanmugamani
Features
  • Master supervised, unsupervised, and semi-supervised ML algorithms and their implementation  
  • Build deep learning models for object detection, image classification, similarity learning, and more
  • Build, deploy, and scale end-to-end deep neural network models in a production environment
Page Count 764
Course Length 22 hours 55 minutes
ISBN9781789957211
Date Of Publication 21 Dec 2018
Detecting objects in an image
Exploring the datasets
Localizing algorithms 
Detecting objects
Object detection API
The YOLO object detection algorithm 
Summary

Authors

Armando Fandango

Armando Fandango creates AI empowered products by leveraging his expertise in deep learning, machine learning, distributed computing, and computational methods and has provided thought leadership roles as Chief Data Scientist and Director at startups and large enterprises. He has been advising high-tech AI-based startups. Armando has authored books titled Python Data Analysis - Second Edition and Mastering TensorFlow. He has also published research in international journals and conferences.

Rajalingappaa Shanmugamani

Rajalingappaa Shanmugamani is currently working as a Engineering Manager for a Deep learning team at Kairos. Previously, he worked as a Senior Machine Learning Developer at SAP, Singapore and worked at various startups in developing machine learning products. He has a Masters from Indian Institute of Technology – Madras. He has published articles in peer-reviewed journals and conferences and applied for few patents in the area of machine learning. In his spare time, he coaches programming and machine learning to school students and engineers.

Giuseppe Bonaccorso

Giuseppe Bonaccorso is an experienced manager in the fields of AI, data science, and machine learning. He has been involved in solution design, management, and delivery in different business contexts. He got his M.Sc.Eng in electronics in 2005 from the University of Catania, Italy, and continued his studies at the University of Rome Tor Vergata, Italy, and the University of Essex, UK. His main interests include machine/deep learning, reinforcement learning, big data, bio-inspired adaptive systems, neuroscience, and natural language processing.