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Introduction To Robotics (Fall 20)

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Week 1: Definition of Robot, Types of Robots (manipulator, legged robot, wheeled robot, autonomous underwater vehicles, unmanned aerial vehicles), Use of Robots, Asimov’s Laws of Robotics, History of Robotics

Lecture 1 in PDF

A link to YouTube video for a quick introduction:

Week 2: Key Components of a Robot, Introduction and Working Principles of Sensors (vision sensor, force sensor, light-dependent resistor (LDR), temperature sensor, smoke sensor, accelerometer gyroscope, laser sensor, tilt sensor, compass)

Lecture 2 in PDF

Extended reference to Basic Components of Robots

Week 3: Introduction and Working Principles of Sensors (infrared transmitter-receiver, infrared sensor array, PIR sensor, sonar sensor)

Lecture 3 in PDF

Reference to extended Basic elements of robots

Week 4: Introduction and Working Principles of Actuators (DC motor, servo motor, stepper motor)

Lecture 4 in PDF

Reference to actuator introduction

Week 5: Interfacing Hardware (Motor Driver, ADC, Op-Amp) and Micro-controllers

Lecture 5 in PDF

Week 6: Week 7: Transformations to Kinematics (with background)

Lecture 6 in PDF

Week 7: Transformations to Kinematics (with background)

Lecture 7 in PDF

Week 8: Transformations to Kinematics (with background)

Lecture 8 in PDF

Video Recording Class

Week 9: Forward Kinematics

Lecture 9 in PDF

Video Recording Class

Video Recording Class-02

Week 10: Control Theory of Robotic Systems (feedback control, PID controller)

Control System Overview

Error Response

Linear Error Dynamics

First Order Error Dynamics

Second Order Error Dynamics

Week 11: Control Theory of Robotic Systems (robot odometry, differential drive and navigation)

Motion Control with Velocity Inputs

Motion Control with Velocity Inputs

Motion Control with Torque or Force Inputs (Part 1 of 3)

Motion Control with Torque or Force Inputs (Part 2 of 3)

Motion Control with Torque or Force Inputs (Part 3 of 3)

Force Control

Hybrid Motion-Force Control

Week 12: Obstacle avoidance/tracking for mobile robots

Obstacle Avoidance

Week 13: Motion Planning Strategies for Static Environments, Implementation of Motion Planning Algorithms

Robot Motion Planning
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Week 1: Definition of Robot, Types of Robots (manipulator, legged robot, wheeled robot, autonomous underwater vehicles, unmanned aerial vehicles), Use of Robots, Asimov’s Laws of Robotics, History of Robotics 2

Lecture 1 in PDF File
A link to YouTube video for a quick introduction: URL

Week 2: Key Components of a Robot, Introduction and Working Principles of Sensors (vision sensor, force sensor, light-dependent resistor (LDR), temperature sensor, smoke sensor, accelerometer gyroscope, laser sensor, tilt sensor, compass) 3

Lecture 2 in PDF File
Extended reference to Basic Components of Robots URL

Week 3: Introduction and Working Principles of Sensors (infrared transmitter-receiver, infrared sensor array, PIR sensor, sonar sensor) 4

Lecture 3 in PDF File
Reference to extended Basic elements of robots URL

Week 4: Introduction and Working Principles of Actuators (DC motor, servo motor, stepper motor) 5

Lecture 4 in PDF File
Reference to actuator introduction URL

Week 5: Interfacing Hardware (Motor Driver, ADC, Op-Amp) and Micro-controllers 6

Lecture 5 in PDF File

Week 6: Week 7: Transformations to Kinematics (with background) 7

Lecture 6 in PDF File

Week 7: Transformations to Kinematics (with background) 8

Lecture 7 in PDF File

Week 8: Transformations to Kinematics (with background) 9

Lecture 8 in PDF File
Video Recording Class URL

Week 9: Forward Kinematics 10

Lecture 9 in PDF File
Video Recording Class URL
Video Recording Class-02 URL

Week 10: Control Theory of Robotic Systems (feedback control, PID controller) 11

Control System Overview URL
Error Response URL
Linear Error Dynamics URL
First Order Error Dynamics URL
Second Order Error Dynamics URL

Week 11: Control Theory of Robotic Systems (robot odometry, differential drive and navigation) 12

Motion Control with Velocity Inputs URL
Motion Control with Velocity Inputs URL
Motion Control with Torque or Force Inputs (Part 1 of 3) URL
Motion Control with Torque or Force Inputs (Part 2 of 3) URL
Motion Control with Torque or Force Inputs (Part 3 of 3) URL
Force Control URL
Hybrid Motion-Force Control URL

Week 12: Obstacle avoidance/tracking for mobile robots 13

Obstacle Avoidance URL

Week 13: Motion Planning Strategies for Static Environments, Implementation of Motion Planning Algorithms 14

Robot Motion Planning URL

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Introduction To Robotics (Fall 20)

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Faculty of Science and Information Technology
Computer Science and Engineering
CSE Spring 21
CSE 444( FR-203)
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