Convolutional Neural Networks: Deep Learning

IEM Daily       February 02, 2023   

Learn in-depth and implement CNN using Python for a project.

Platform: Udemy
Status: Available
Duration: 2.5 Hours

Price: $19.99 $0.00

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What you'll learn

• Understand the basics and types of 2D Signals (Images)
• Understand and implement the process of convolution
• Learn and implement the Convolutional neural networks for any real time applications
• Review the fundamentals of deep learning

Requirements

• No prior experience is needed. But a little bit of Python and Machine learning knowledge will make you more comfortable

Description

In this course, you'll be learning the fundamentals of deep neural networks and CNN in depth.

Initial sections of this course cover

What is Deep Learning?

What is a Neural network?

Where does CNN lie in the pie chart?

Fundamentals of Perceptron Networks

Multilayer Perceptrons

The mathematics of feed forward networks

Significance of Activation functions

The next section covers everything about CNN

Convolutional neural networks (CNNs) are a type of artificial neural network that are specifically designed to process data that has a grid-like topology, such as an image. They are particularly useful for image classification and recognition tasks.

CNNs are composed of multiple layers of artificial neural units, each of which performs a set of mathematical operations on the data it receives as input. The layers of a CNN are organized into three main types:

Convolutional layers: These layers perform convolution operations on the input data, which involves sliding a small matrix (called a "filter" or "kernel") over the input data and performing element-wise multiplication and summation. This process extracts features from the input data, which are then passed on to the next layer in the network.

Pooling layers: These layers down-sample the output of the convolutional layers, reducing the spatial size of the output while maintaining the important features. This helps to reduce the computational burden of the network and also helps to reduce overfitting.

Fully-connected layers: These layers, also known as dense layers, perform classification on the features extracted by the convolutional and pooling layers. They are called fully-connected because each neuron in a fully-connected layer is connected to every neuron in the previous layer.

CNNs have been very successful in a wide range of applications, including image classification, object detection, and natural language processing. They have been used to achieve state-of-the-art results on many benchmarks and are a common choice for developing machine learning models for image-based tasks.

The last section is all about doing a project by implementing CNN

Who this course is for:
Anyone who wants to understand CNN in depth