Idea of Intelligence and components of Intelligence

Last updated on Oct 24 2021
Goutam Joseph

Table of Contents

Idea of Intelligence and components of Intelligence

While studying artificially intelligence, you need to know what intelligence is. This blog covers Idea of intelligence, types, and components of intelligence.

What is Intelligence?

The ability of a system to calculate, reason, perceive relationships and analogies, learn from experience, store and retrieve information from memory, solve problems, comprehend complex ideas, use natural language fluently, classify, generalize, and adapt new situations.

Types of Intelligence

As described by Howard Gardner, an American developmental psychologist, the Intelligence comes in multifold −

Intelligence Description Example
Linguistic intelligence The ability to speak, recognize, and use mechanisms of phonology (speech sounds), syntax (grammar), and semantics (meaning). Narrators, Orators
Musical intelligence The ability to create, communicate with, and understand meanings made of sound, understanding of pitch, rhythm. Musicians, Singers, Composers
Logical-mathematical intelligence The ability of use and understand relationships in the absence of action or objects. Understanding complex and abstract ideas. Mathematicians, Scientists
Spatial intelligence The ability to perceive visual or spatial information, change it, and re-create visual images without reference to the objects, construct 3D images, and to move and rotate them. Map readers, Astronauts, Physicists
Bodily-Kinesthetic intelligence The ability to use complete or part of the body to solve problems or fashion products, control over fine and coarse motor skills, and manipulate the objects. Players, Dancers
Intra-personal intelligence The ability to distinguish among one’s own feelings, intentions, and motivations. Gautam Buddhha
Interpersonal intelligence The ability to recognize and make distinctions among other people’s feelings, beliefs, and intentions. Mass Communicators, Interviewers

You can say a machine or a system is artificially intelligent when it is equipped with at least one and at most all intelligences in it.

What is Intelligence Composed of?

The intelligence is intangible. It is composed of −

  • Reasoning
  • Learning
  • Problem Solving
  • Perception
  • Linguistic Intelligence
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intelligence

Let us go through all the components briefly −

  • Reasoning − It is the set of processes that enables us to provide basis for judgement, making decisions, and prediction. There are broadly two types −
Inductive Reasoning Deductive Reasoning
It conducts specific observations to makes broad general statements. It starts with a general statement and examines the possibilities to reach a specific, logical conclusion.
Even if all of the premises are true in a statement, inductive reasoning allows for the conclusion to be false. If something is true of a class of things in general, it is also true for all members of that class.
Example − “Nita is a teacher. Nita is studious. Therefore, All teachers are studious.” Example − “All women of age above 60 years are grandmothers. Shalini is 65 years. Therefore, Shalini is a grandmother.”
  • Learning − It is the activity of gaining knowledge or skill by studying, practising, being taught, or experiencing something. Learning enhances the awareness of the subjects of the study.

The ability of learning is possessed by humans, some animals, and AI-enabled systems. Learning is categorized as −

    • Auditory Learning − It is learning by listening and hearing. For example, students listening to recorded audio lectures.
    • Episodic Learning − To learn by remembering sequences of events that one has witnessed or experienced. This is linear and orderly.
    • Motor Learning − It is learning by precise movement of muscles. For example, picking objects, Writing, etc.
    • Observational Learning − To learn by watching and imitating others. For example, child tries to learn by mimicking her parent.
    • Perceptual Learning − It is learning to recognize stimuli that one has seen before. For example, identifying and classifying objects and situations.
    • Relational Learning − It involves learning to differentiate among various stimuli on the basis of relational properties, rather than absolute properties. For Example, Adding ‘little less’ salt at the time of cooking potatoes that came up salty last time, when cooked with adding say a tablespoon of salt.
    • Spatial Learning − It is learning through visual stimuli such as images, colors, maps, etc. For Example, A person can create roadmap in mind before actually following the road.
    • Stimulus-Response Learning − It is learning to perform a particular behavior when a certain stimulus is present. For example, a dog raises its ear on hearing doorbell.
  • Problem Solving − It is the process in which one perceives and tries to arrive at a desired solution from a present situation by taking some path, which is blocked by known or unknown hurdles.

Problem solving also includes decision making, which is the process of selecting the best suitable alternative out of multiple alternatives to reach the desired goal are available.

  • Perception − It is the process of acquiring, interpreting, selecting, and organizing sensory information.

Perception presumes sensing. In humans, perception is aided by sensory organs. In the domain of AI, perception mechanism puts the data acquired by the sensors together in a meaningful manner.

  • Linguistic Intelligence − It is one’s ability to use, comprehend, speak, and write the verbal and written language. It is important in interpersonal communication.

Difference between Human and Machine Intelligence

  • Humans perceive by patterns whereas the machines perceive by set of rules and data.
  • Human’s store and recall information by patterns, machines do it by searching algorithms. For example, the number 40404040 is easy to remember, store, and recall as its pattern is simple.
  • Humans can figure out the complete object even if some part of it is missing or distorted; whereas the machines cannot do it correctly.

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  • Pre-requisites for AI & DL
  • Python Programming Language
  • Installation & IDE

Environment Set Up and Essentials

  • Installation
  • Python – NumPy
  • Python for Data Science and AI
  • Python Language Essentials
  • Python Libraries – Numpy and Pandas
  • Numpy for Mathematical Computing

More Prerequisites for Deep Learning and AI

  • Pandas for Data Analysis
  • Machine Learning Basic Concepts
  • Normalization
  • Data Set
  • Machine Learning Concepts
  • Regression
  • Logistic Regression
  • SVM – Support Vector Machines
  • Decision Trees
  • Python Libraries for Data Science and AI

Introduction to Neural Networks

  • Creating Module
  • Neural Network Equation
  • Sigmoid Function
  • Multi-layered perception
  • Weights, Biases
  • Activation Functions
  • Gradient Decent or Error function
  • Epoch, Forward & backword propagation
  • What is TensorFlow?
  • TensorFlow code-basics
  • Graph Visualization
  • Constants, Placeholders, Variables

Multi-layered Neural Networks

  • Error Back propagation issues
  • Drop outs

Regularization techniques in Deep Learning

Deep Learning Libraries

  • Tensorflow
  • Keras
  • OpenCV
  • SkImage
  • PIL

Building of Simple Neural Network from Scratch from Simple Equation

  • Training the model

Dual Equation Neural Network

  • TensorFlow
  • Predicting Algorithm

Introduction to Keras API

  • Define Keras
  • How to compose Models in Keras
  • Sequential Composition
  • Functional Composition
  • Predefined Neural Network Layers
  • What is Batch Normalization
  • Saving and Loading a model with Keras
  • Customizing the Training Process
  • Using TensorBoard with Keras
  • Use-Case Implementation with Keras

GPU in Deep Learning

  • Introduction to GPUs and how they differ from CPUs
  • Importance of GPUs in training Deep Learning Networks
  • The GPU constituent with simpler core and concurrent hardware
  • Keras Model Saving and Reusing
  • Deploying Keras with TensorBoard

Keras Cat Vs Dog Modelling

  • Activation Functions in Neural Network

Optimization Techniques

  • Some Examples for Neural Network

Convolutional Neural Networks (CNN)

  • Introduction to CNNs
  • CNNs Application
  • Architecture of a CNN
  • Convolution and Pooling layers in a CNN
  • Understanding and Visualizing a CNN

RNN: Recurrent Neural Networks

  • Introduction to RNN Model
  • Application use cases of RNN
  • Modelling sequences
  • Training RNNs with Backpropagation
  • Long Short-Term memory (LSTM)
  • Recursive Neural Tensor Network Theory
  • Recurrent Neural Network Model

Application of Deep Learning in image recognition, NLP and more

Real world projects in recommender systems and others

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