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(Coursera) Deep Learning Specialization

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About Course

Unlock the power of **Deep Learning** with this comprehensive Specialization, offered completely **free of charge** on platforms like **Udemy, Udacity, Coursera, MasterClass, NearPeer** and more!

Dive deep into the world of **artificial intelligence (AI)** and gain a fundamental understanding of **deep learning capabilities, challenges, and consequences**. This Specialization will equip you with the skills and knowledge to participate in the development of cutting-edge AI technology.

You’ll learn to build and train various neural network architectures, including **Convolutional Neural Networks (CNNs), Recurrent Neural Networks (RNNs), LSTMs, Transformers**, and more. Master essential techniques like **Dropout, BatchNorm, Xavier/He initialization** to optimize your networks.

This program delves into both theoretical concepts and practical applications, using **Python and TensorFlow**. You’ll tackle real-world scenarios like **speech recognition, music synthesis, chatbots, machine translation, natural language processing** and more.

As AI revolutionizes industries, this Specialization provides the definitive pathway for you to advance your career. Gain career advice from renowned deep learning experts from industry and academia.

By the end, you will be able to:

  • Build and train deep neural networks, implement vectorized neural networks, identify architecture parameters, and apply DL to your applications.
  • Use best practices to train and develop test sets, analyze bias/variance for building DL applications, apply standard NN techniques, and implement a neural network in TensorFlow.
  • Use strategies for reducing errors in ML systems, understand complex ML settings, and apply end-to-end, transfer, and multi-task learning.
  • Build a Convolutional Neural Network, apply it to visual detection and recognition tasks, use neural style transfer to generate art, and apply these algorithms to image, video, and other 2D/3D data.
  • Build and train Recurrent Neural Networks and its variants (GRUs, LSTMs), apply RNNs to character-level language modeling, work with NLP and Word Embeddings, and use HuggingFace tokenizers and transformers to perform Named Entity Recognition and Question Answering.

Start your journey into the exciting world of deep learning today – it’s completely free! **Enroll now and access these top-rated courses for free.**

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What Will You Learn?

  • Build and train deep neural networks, identify key architecture parameters, implement vectorized neural networks and deep learning to applications
  • Train test sets, analyze variance for DL applications, use standard techniques and optimization algorithms, and build neural networks in TensorFlow
  • Build a CNN and apply it to detection and recognition tasks, use neural style transfer to generate art, and apply algorithms to image and video data
  • Build and train RNNs, work with NLP and Word Embeddings, and use HuggingFace tokenizers and transformer models to perform NER and Question Answering
  • Learn in-demand skills from university and industry experts
  • Master a subject or tool with hands-on projects
  • Develop a deep understanding of key concepts
  • Earn a career certificate from DeepLearning.AI

Course Content

ral Networks and Deep Learning

  • A Message from the Professor
  • Welcome
    05:31
  • 1-What is a neural network
    07:16
  • 2-Supervised Learning with Neural Networks
    08:28
  • 3-Why is Deep Learning taking off
    10:21
  • 4-About this Course
    02:27
  • 5-Course Resources
    01:55
  • Geoffrey Hinton interview
    40:22
  • 1-Binary Classification
    08:23
  • 10-Derivatives with a Computation Graph
    14:33
  • 11-Logistic Regression Gradient Descent
    06:42
  • 12-Gradient Descent on m Examples
    08:00
  • 2-Logistic Regression
    05:58
  • 4-Logistic Regression Cost Function
    08:11
  • 6-Gradient Descent
    11:23
  • 7-Derivatives
    07:10
  • 8-More Derivative Examples
    10:27
  • 9-Computation graph
    03:33
  • 1-Vectorization
    08:04
  • 2-More Vectorization Examples
    06:19
  • 4-Vectorizing Logistic Regression
    07:32
  • 5-Vectorizing Logistic Regression’s Gradient Output
    09:37
  • 6-Broadcasting in Python
    07:10
  • 7-A note on python_numpy vectors
    06:49
  • 8-Quick tour of Jupyter_iPython Notebooks
    03:42
  • 9-Explanation of logistic regression cost function (optional)
    07:14
  • Pieter Abbeel interview
    16:03
  • 1-Neural Networks Overview
    04:26
  • 10-Gradient descent for Neural Networks
    09:57
  • 12-Backpropagation intuition (optional)
    15:48
  • 13-Random Initialization
    07:57
  • 2-Neural Network Representation
    05:14
  • 3-Computing a Neural Network’s Output
    09:57
  • 4-Vectorizing across multiple examples
    09:05
  • 5-Explanation for Vectorized Implementation
    07:37
  • 7-Activation functions
    10:56
  • 8-Why do you need non-linear activation functions
    05:35
  • 9-Derivatives of activation functions
    07:57
  • Ian Goodfellow interview
    14:55
  • 1-Deep L-layer neural network
    05:50
  • 11-What does this have to do with the brain
    03:17
  • 2-Forward Propagation in a Deep Network
    07:15
  • 4-Getting your matrix dimensions right
    11:09
  • 5-Why deep representations_
    10:33
  • 6-Building blocks of deep neural networks
    08:33
  • 8-Forward and Backward Propagation
    10:29
  • 9-Parameters vs Hyperparameters
    07:16

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