Beginner Robotics & Embedded Systems
What You Will Learn
✓ Understand microprocessors, microcontrollers, and communication protocols like UART, I2C, and SPI for robotics applications
✓ Work with sensors, actuators, and modules including IR, ultrasonic, PIR, GPS, Bluetooth, Wi-Fi, servo motors, and LCDs
✓ Build real robotics projects like Line Follower Robot, Smart Parking System, and Wi-Fi-based Home Automation
✓ Design circuits, wire components on breadboards, and write code to control robotic systems
✓ Gain hands-on experience with embedded systems and develop practical skills for IoT and automation projects
This Course includes:
4 Weeks (2-3 Hours/Week)
Unlimited Lifetime Access
Downloadable PDF E-Books
Certificate of Completion
Quizzes & Knowledge Checks
Downloadable Resources & Notes
By Om Upadhyay - Robotics Trainer
Beginner
Trusted By 23.5K+ Engineers
Learn 40+ Mech Tools
Learn 40+ Mech Tools
Learn 40+ Mech Tools
The Curriculum
Module 1: Introduction to Robotics & Embedded Systems
Introduction of Robotics
Embedded System
Microprocessor
Microprocessor vs Microcontroller
Embedded Types (UART, I2C)
Module 2: First Robotics Project
Module 3: Basic Electronics Terminologies
Module 4: Sensors and Basic Modules
Module 5: Types of Sensors and Advanced Modules
Module 6: Line Follower Robot (Circuit & Coding)
Module 7: Smart Parking System
Module 8: Keypad Locking System with LCD
Module 9: Wi-Fi Based Home Automation
Module 10: Robotics Practice Projects
Module 1: Introduction to Robotics & Embedded Systems
Introduction of Robotics
Embedded System
Microprocessor
Microprocessor vs Microcontroller
Embedded Types (UART, I2C)
Module 2: First Robotics Project
Module 3: Basic Electronics Terminologies
Module 4: Sensors and Basic Modules
Module 5: Types of Sensors and Advanced Modules
Module 6: Line Follower Robot (Circuit & Coding)
Module 7: Smart Parking System
Module 8: Keypad Locking System with LCD
Module 9: Wi-Fi Based Home Automation
Module 10: Robotics Practice Projects
Module 1: Introduction to Robotics & Embedded Systems
Introduction of Robotics
Embedded System
Microprocessor
Microprocessor vs Microcontroller
Embedded Types (UART, I2C)
Module 2: First Robotics Project
Module 3: Basic Electronics Terminologies
Module 4: Sensors and Basic Modules
Module 5: Types of Sensors and Advanced Modules
Module 6: Line Follower Robot (Circuit & Coding)
Module 7: Smart Parking System
Module 8: Keypad Locking System with LCD
Module 9: Wi-Fi Based Home Automation
Module 10: Robotics Practice Projects
Requirements
No prior robotics or electronics experience needed.
What to expect from this course
You will learn the basics of robotics, embedded systems, microprocessors, microcontrollers, and communication types such as UART and I2C.
You will build your first robotics project to understand components, wiring, and working mechanisms.
You will learn key electronic components such such circuits, resistors, capacitors, diodes, LEDs, switches, motors, buzzers, breadboards, and batteries.
You will study a wide range of sensors including PIR, TILT, microphone, RFID, moisture sensors, humidity, temperature sensors, and relays.
You will explore advanced modules and sensors such as IR sensors, Bluetooth, Wi-Fi modules, color sensors, fingerprint sensors, 7-segment displays, GPS, servo motors, and pulse sensors.
You will design and build a Line Follower Robot from scratch, including circuit making, IR detection, and coding.
You will complete real projects like a Smart Parking System, Keypad Locking System with LCD, and Wi-Fi Based Home Automation.
You will practice additional robotics challenges including irrigation systems, alarms, watering systems, obstacle-avoiding cars, and edge-avoiding robots.
This course is included in plans
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Our Courses
Industry-Ready Mechanical Skills
40+ industry-focused courses covering CAD Design, FEA Simulation, CNC Programming, Robotics, Quality Control, and Smart Factory automation.
Everything Modern Engineers Need to Succeed.
Our Courses
Industry-Ready Mechanical Skills
40+ industry-focused courses covering CAD Design, FEA Simulation, CNC Programming, Robotics, Quality Control, and Smart Factory automation.
Everything Modern Engineers Need to Succeed.
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Validate before you build. This track covers FEA and CFD simulation workflows used in CAE and R&D teams.
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Run stable production and prove quality with measurement discipline, root-cause thinking, and lean tools.
Industry 4.0 Course: Smart Manufacturing
Move from classical mechanical to factory tech: data, connectivity, and digital manufacturing concepts used in modern plants.
Course Categories
Learn 40+ Mechanical Engineering Tools
On GaugeHow, the Mechanical Engineering Courses are grouped by real job tracks, so you can pick the skills recruiters expect for design, simulation, manufacturing, quality, automation, and smart factories.
CAD Courses: Product Design & Modeling
Build design output that teams can manufacture: 2D drafting, 3D modeling, assemblies, and drawings.
CAE Simulation: FEA, CFD & Multiphysics
Validate before you build. This track covers FEA and CFD simulation workflows used in CAE and R&D teams.
Quality, Metrology & Lean Manufacturing
Run stable production and prove quality with measurement discipline, root-cause thinking, and lean tools.
Industry 4.0 Course: Smart Manufacturing
Move from classical mechanical to factory tech: data, connectivity, and digital manufacturing concepts used in modern plants.
Course Categories
Learn 40+ Mechanical Engineering Tools
On GaugeHow, the Mechanical Engineering Courses are grouped by real job tracks, so you can pick the skills recruiters expect for design, simulation, manufacturing, quality, automation, and smart factories.
CAD Courses: Product Design & Modeling
Build design output that teams can manufacture: 2D drafting, 3D modeling, assemblies, and drawings.
CAE Simulation: FEA, CFD & Multiphysics
Validate before you build. This track covers FEA and CFD simulation workflows used in CAE and R&D teams.
Quality, Metrology & Lean Manufacturing
Run stable production and prove quality with measurement discipline, root-cause thinking, and lean tools.
Industry 4.0 Course: Smart Manufacturing
Move from classical mechanical to factory tech: data, connectivity, and digital manufacturing concepts used in modern plants.
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