• Post category:StudyBullet-20
  • Reading time:2 mins read


Learn To Create Arduino UNO Based Obstacle Avoiding Robot Car & RC-Control

What you will learn

Learn basics of Arduino UNO

Build 10+ projects using Arduino UNO

Create Obstacle Avoiding Robot Car

Build Arduino UNO Based Obstacle Avoiding Robot Car

Add-On Information:


Get Instant Notification of New Courses on our Telegram channel.

Noteβž› Make sure your π”ππžπ¦π² cart has only this course you're going to enroll it now, Remove all other courses from the π”ππžπ¦π² cart before Enrolling!


  • Grasp core electronics principles: Understand essential components like resistors, capacitors, and various sensor types fundamental to robotics.
  • Master Arduino C/C++ programming: Develop robust code for autonomous decision-making and precise control of your robot.
  • Integrate and interpret sensor data: Learn to connect ultrasonic sensors and effectively process their data for accurate obstacle detection.
  • Achieve precise motor control: Implement motor drivers and Pulse Width Modulation (PWM) for smooth, adjustable robot movement.
  • Construct a stable robot chassis: Gain practical skills in assembling a mechanical structure and integrating all electronic components.
  • Design sophisticated navigation algorithms: Program your robot to independently detect, react to, and maneuver around obstacles.
  • Implement reliable RC wireless control: Utilize RF modules to establish robust remote control capabilities for your robot car.
  • Develop practical circuit prototyping skills: Acquire hands-on experience in wiring, layout, and efficiently connecting electronic circuits.
  • Cultivate expert troubleshooting abilities: Learn systematic methods to diagnose and resolve both software bugs and hardware issues.
  • Optimize robot power management: Understand battery selection, voltage regulation, and efficient power distribution for sustained operation.
  • Navigate a full project lifecycle: Experience taking a robotics project from concept and component selection through to final testing.
  • Build a foundation for future innovations: Equip yourself with versatile skills applicable across robotics, IoT, and embedded systems.
  • Create a compelling technical portfolio piece: Produce a fully functional robot car demonstrating your programming, electronics, and robotics expertise.
  • PROS:
    • Hands-on, project-based learning: Direct application of theory for deep understanding and practical skills.
    • Accessible entry into robotics: Structured, beginner-friendly pathway into a complex field.
    • Develops critical problem-solving: Sharpens analytical thinking and troubleshooting expertise.
    • Fosters creativity & innovation: Encourages customization and expansion of projects.
    • Valuable portfolio asset: A demonstrable robot for showcasing technical proficiency.
    • Foundational for STEM careers: Equips learners with in-demand engineering and tech skills.
  • CONS:
    • Requires additional hardware investment: Learners must purchase robot components separately.
English
language
Found It Free? Share It Fast!