Robotics For Engineering

  • Bachelor Degree/Graduation
  • 3 Months

What You will Learn

  • Hands-on learning with state-of-the-art robotics kits.
  • Comprehensive curriculum covering programming, mechanics, and control systems.
  • Expert-led sessions on industry trends and real-world applications.
  • Upon completion, opening doors to exciting opportunities in robotics engineering careers.
Codestack Academy

Course Format

  • Physical Tutorials
  • Assignments
  • Industrial Projects
  • Certification
Codestack Academy

Course Duration*

  • 1 hr a day
  • 3 days a Week
  • 3 Assignments
  • 1 Project

Course Content

Explore the cutting-edge world of Robotics tailored for Engineering enthusiasts. Dive into the latest advancements, practical applications, and future trends in robotics, curated to inspire and inform engineering professionals and enthusiasts alike.

  • Definition and history of robotics.
  • Overview of different types of robots (industrial, service, medical, etc.).
  • Basic components of a robot (sensors, actuators, controllers).
  • Understanding circuits and components (resistors, capacitors, diodes, transistors).
  • Introduction to microcontrollers (focus on Arduino).
  • Basic soldering techniques and circuit assembly.
  • Overview of Arduino hardware and software.
  • Setting up the Arduino IDE.
  • Writing and uploading your first Arduino program (Blinking LED).
  • Interfacing LEDs, buttons, and buzzers.
  • Building a basic traffic light system.
  • Working with sensors (e.g., temperature, light, ultrasonic).
  • Building a simple obstacle-avoiding robot.
  • Integrating multiple sensors and actuators.
  • Building a line-following robot.
  • Overview of IoT concepts and applications.
  • Understanding IoT architecture and communication protocols (e.g., MQTT).
  • Connecting Arduino to the internet (using Wi-Fi modules like ESP8266).
  • Sending data to cloud services (e.g., ThingSpeak, Blynk).
  • Designing a smart home automation system (e.g., controlling lights, monitoring temperature).
  • Building an IoT weather station.
  • Overview of Raspberry Pi hardware and software.
  • Setting up the Raspberry Pi (installing Raspbian OS).
  • Basic Linux commands and Python programming introduction.
  • Interfacing sensors with Raspberry Pi (e.g., temperature, humidity, PIR motion sensor).
  • Building a simple home security system.
  • Connecting Raspberry Pi to the internet.
  • Sending and receiving data from cloud services.
  • Building an IoT-based environmental monitoring system.
  • Combining Arduino and Raspberry Pi for a comprehensive project.
  • Example project: Smart home system with Raspberry Pi as the central hub and Arduino-controlled sensors and actuators.
  • Students propose and develop their own IoT or robotics project using Arduino and/or Raspberry Pi.
  • Guidance on project planning, development, and troubleshooting.
  • Final project presentations.
  • Demonstrations and evaluations.

Course Mentor(s)

+

Persons Mentored

+

Workshops Attended

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