Autonomous Cars: Deep Learning and Computer Vision in Python [Video]

Autonomous Cars: Deep Learning and Computer Vision in Python

Autonomous Cars: Deep Learning and Computer Vision in Python [Video]

English | MP4 | AVC 1920×1080 | AAC 48KHz 2ch | 12h 14m | 3.17 GB
eLearning | Skill level: All Levels

Autonomous Cars: Deep Learning and Computer Vision in Python [Video]: Learn OpenCV, Keras, object and lane detection, and traffic sign classification for self-driving cars

The automotive industry is experiencing a paradigm shift from conventional, human-driven vehicles to self-driving, artificial intelligence-powered vehicles. As the world advances towards a driverless future, the need for experienced engineers and researchers in this emerging new field has never been more crucial. This course will guide you through the key design and development aspects of self-driving vehicles.

You’ll be exploring OpenCV, deep learning, and artificial neural networks and their role in the development of autonomous cars. The book will even guide you through classifying traffic signs with convolutional neural networks (CNNs). In addition to this, you’ll use template matching to identify other vehicles in images, along with understanding how to apply HOG for extracting image features. As you progress, you’ll gain insights into feature detectors, including SIFT, SURF, FAST, and ORB. Next, you’ll get up to speed with building neural networks using Keras and TensorFlow, and later focus on linear regression and logistic regression. Toward the concluding part, you’ll explore machine learning techniques such as decision trees and Naive Bayes for classifying data, in addition to understanding the Support Vector Machine (SVM) method.

  • Identify lane markings in images and detect cars and pedestrians using a trained classifier and SVM
  • Classify traffic signs using CNNs
  • Analyze and visualize data with NumPy, Pandas, Matplotlib, and Seaborn
  • Process image data using OpenCV
  • Sharpen and blur images with convolution and detect edges in images with Sobel, Laplace, and Canny
  • Transform images through translation, rotation, resizing, and perspective transform
  • Extract image features with HOG and detects object corners with Harris
  • Classify data with artificial neural networks and deep learning

By the end of this course, you’ll be well-versed with key concepts related to the design and development of self-driving vehicles.

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