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1.1 - Introduction to Course
Tutors
Chirag Joshi
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Tejal Sonawane
PROGRAM OVERVIEW
Robotics is a multidisciplinary field combining Electronics, Computer Science, and Mechanical Modelling.
This course will take you through each of these robotics domains one by one.
You’ll discover how robots sense and analyze signals from their surroundings, starting with electronics. Then you’ll program your robot brain with intelligence. Finally, you’ll assemble your robotic smart automobile equipped with sensors, which will be operated by a smartphone app.
Robotics Explorer takes you on a hands-on project discovery tour through the realm of robotics using your Inventor Toolkit.
The Robotics Explorer course will help you:
1. Understand the fundamentals of robotics.
2. Develop a better knowledge of Learn how to use a microcontroller board
3. Get hands-on experience with robotics tasks such as designing, implementing, fault-finding, and debugging.
4. Learn how to utilize coding to create versatile, multi-functional robotic systems.
5. Get inspired about creating new projects in robotics and automation technologies.
Key Skills/Tools - Electronics, Tool Handling, Coding, 2D Animation, and Game Design, Arduino based Robots
CURRICULUM
Introduction to Microcontroller Board
Digital Output devices – LED Control
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2.1 - Introduction to LED
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2.2 - Interfacing Traffic Light
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2.3 - Turning LED ON
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2.4 - TURNING OFF LED
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2.5 - BLINKING TRAFFIC LIGHT
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2.6 - MAKING OF TRAFFIC LIGHT
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2.7 - Project Traffic Signal Model
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Test your Knowledge
Digital Output Devices – Buzzer Control
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3.1 - Programming with Buzzer
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3.2 - Interfacing Buzzer with Arduino
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Session 3.3 - TURNING BUZZER ON
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3.4 - TURNING BUZZER OFF
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3.5 - BUZZER WITH TIMER
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Test your Knowledge
Teaching Math to your ROBOT
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4.1 - Serial Monitor and Variables
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4.2 - SERIAL MONITOR
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4.3 - PRINT NATURAL NUMBERS
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4.4 - ADDITION USING VARIABLES
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Test your Knowledge
Digital Input with Touch Sensor
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5.1 - Touch Sensor with Arduino
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5.2 - Interfacing Touch Sensor
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5.3 - Reading touch sensor
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5.4 - TOUCH SENSOR USING CONDITIONAL STATEMENT
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5.5 - Controlling LED Using Touch Sensor
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Test your Knowledge
Light Sensor Automation
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6.1 - Light Sensor
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6.2 - Interfacing Light Sensor
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6.3 - Reading Light Sensor
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6.4 - Light Sensor Using Conditional Statement
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6.5 - CONTROLLING TRAFFIC LIGHT WITH LIGHT SENSOR
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Test your Knowledge
Infrared Sensor and Applications
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7.1 - INTRODUCTION TO IR SENSOR
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7.2 - INTERFACING IR
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7.3 - READING IR SENSOR
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7.4 - IR Sensor Using Conditional Statements
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7.5 Project - Touchless Doorbell
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Test your Knowledge
Controlling Motors for Robot Movement
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8.1 - INTRODUCTION TO MOTORS
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8.2 - INTERFACING MOTORS
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8.3 - ROTATING MOTOR IN CLOCKWISE DIRECTION
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8.4 - ROTATING MOTOR IN ANTICLOCKWISE DIRECTION
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8.5 - BI DIRECTIONAL MOVEMENTS OF MOTOR
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Test your Knowledge
Building your Autonomous Robot
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9.1 - Part 1 Chassis cover
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9.2 - Part 2 Motor clamps
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9.3 - Part 3 Bottom plate
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9.4 - Part 4 Top plate and final assembly
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Test your Knowledge
Obstacle Avoider Robot
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10.1 - OBSTACLE AVOIDER ROBOT
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10.2 - OBSTACLE AVOIDER PROGRAMMING AND OUTPUT
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Test your Knowledge
Edge Detector Robot
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11.1 - EDGE DETECTOR ROBOT
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11.2 - CHANGING POSITION OF IR SENSOR
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11.3 - Tuning Your IR Sensor Black
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11.4 - PROGRAMMING EDGE DETECTOR ROBOT
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Test your Knowledge
Line Follower Robot
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12.1 - INTRODUCTION TO LINE FOLLOWER ROBOT
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12.2 - PROGRAMMING FOR LINE FOLLOWER ROBOT
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Test your Knowledge
Wireless Connection with Bluetooth
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13.1 - BLUETOOTH WITH ARDUINO
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13.2 - Interfacing Bluetooth
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13.3 - DOWNLOADING BLUETOOTH RC CONTROL APP
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13.4 - CONTROLLING TRAFFIC LIGHT WITH BLUETOOTH
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Test your Knowledge
Bluetooth Controlled Robot
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14.1 - Bluetooth Controlled ROBOT
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14.2 - Gesture Control Robot
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14.3 - Soccer Bot Assembly
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14.4 - Soccer Playing Robot
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Test your Knowledge