Arduino Workshop Details


DAY – 1


Talk on Solving Real world problems using robotics and sensor technology


Machines have been taken away from large assembly lines and GPS technology has enabled the use of robotics in precision agriculture. Robots are being designed to be easily programmable and handle manufacturing tasks which are tough for human workers. Next generation robotics is ideal for tasks which are too difficult or repetitive. Progress in design and AI have ensured that humans have advanced beyond a point of no return too.


Introduction to Arduino


  1. What is a microcontroller?
  2. What is an Arduino?
  3. Types of Arduino.
  4. Architecture of Arduino.
  5. ARDUINO ROBOT

Introduction to Arduino Programming


  1. Arduino Libraries.
  2. Variables and Keywords.
  3. Function statements.
  4. Loop statements.
  5. Arduino IDE.
  6. LED blink using Arduino.



DAY – 2


Introduction to Sensors


  1. Anatomy of a Sensor.
  2. Factors to consider when choosing a sensor.
  3. Types of sensors.

Obstacle detection and distance measurements using sensors


  1. Introduction to Ultra Sonic sensor.
  2. Interfacing Ultra Sonic sensor with Arduino.

Light intensity sensing


  1. Introduction to Light Dependent Resistor (LDR).
  2. Interfacing LDR with Arduino.

3D Designing and 3D Printing


  1. Computer Aided Design model and 3D mesh model.
  2. Calibrated Quantum Mesh (CQM).
  3. Introduction to Additive Manufacturing.
  4. Common terminologies used in 3D Printing.
  5. Types of 3D Printing.
  6. Demo video of Fused Deposition Modeling (FDM).



DAY – 3


Speed and Direction control of DC motor


  1. Interfacing DC Motor with Arduino.

Introduction to Bluetooth


  1. What is Bluetooth?
  2. How does Bluetooth work?
  3. Interfacing Bluetooth module with Arduino.

Soldering session


  1. Introduction to Soldering.
  2. Hands-on session.



DAY – 4


Building Line Follower Robot


  1. Component Description.
  2. Working of Line Follower Robot.
  3. Construction of Chassis.
  4. Interfacing IR sensor with Arduino.
  5. Interfacing Motor driver (L293D) with DC motor and Arduino.



DAY – 5


Building Obstacle avoider robot


  1. Component Description.
  2. Working of Obstacle Avoider Robot.
  3. Construction of Chassis.
  4. Interfacing Motor Driver (L293D) with Arduino and DC motor.
  5. Interfacing Ultra Sonic sensor with Arduino and Servo motor.



DAY – 6


Building RC(Remote Controlled) Robot


  1. Component Description.
  2. Working of RC Robot.
  3. Construction of Chassis.
  4. Interfacing Motor Driver (L293D) with Arduino and DC motor.
  5. Interfacing IR module with Arduino.