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Chapter 1: What is AI? (Part 1)

Defining Computers in Real Terms · Mapping the Computing Landscape.

Defining Computers in Real Terms

We will first step away from sensationalized stories about robot uprisings in films to see what AI actually does in real life and how. And for that, we first need to understand what a computer is and how it works. A computer is really just a massive collection of switches that control the flow of electricity. Just as we put up a water barrier (naka) in our fields or irrigation beds (kyari) to stop or let water flow, transistors (or switches) in a computer work to stop or allow the flow of electricity. And it is in the form of different arrangements of these transistors (Logical Gates) that human language and logic rules are fed into computers. For example, if electricity is passing through the very first transistor while all others are closed, we can feed (or code) this arrangement as 'yes' or 'no' (1 and 0). And by combining billions of such transistors and rules, we build 'Artificial Intelligence' (AI) that works like the human brain. In this booklet, we will see how AI today drives many everyday technologies, such as cars finding their way automatically (Autonomous Navigation), finding everything according to preference on online websites (Recommendation Engines), and photo and face recognition systems (Visual Recognition Systems). To understand all of these well, we need to understand two fundamental concepts:

Mapping the Computing Landscape

To understand this subject well, students should have a clear map of how AI connects with other branches of science. If we attempt to connect these branches to one another or place them inside one another, we can say that Computer Science is the outermost large boundary, inside of which sits Artificial Intelligence. Inside that comes the sphere of Machine Learning, and even deeper within it, Deep Learning can be placed.

Data Science is an interdisciplinary field that combines Machine Learning, statistics, and domain expertise to analyze data and uncover patterns related to the past, present, and future. Meanwhile, Robotics focuses on designing and building physical machines equipped with sensors and actuators that interact with and operate within the real physical world.