⚡𝗢𝗯𝘀𝘁𝗮𝗰𝗹𝗲 𝗗𝗲𝘁𝗲𝗰𝘁𝗶𝗼𝗻 𝗕𝗼𝘁 𝘄𝗶𝘁𝗵 𝗔𝘂𝘁𝗼𝗻𝗼𝗺𝗼𝘂𝘀 𝗣𝗮𝘁𝗵 𝗔𝗱𝗷𝘂𝘀𝘁𝗺𝗲𝗻𝘁 As beginners our team built a small-scale bot that detects obstacles in its path and changes direction autonomously. The build used Arduino Uno, ultrasonic sensor, motor driver, DC motors, and a simple chassis setup. Through this project we learnt as beginners how to interface sensors, write control logic, and manage hardware–software integration in real time. Grateful to work alongside a dedicated team of five, and sharing both the demo video and the GitHub repository for those interested in the implementation. Code : https://lnkd.in/d6vK8vaQ Subham ‎ ‎ Akshat Hatila Shashank Shekhar Sanyam Bohra #Robotics #EmbeddedSystems #Innovation

⚡𝗢𝗯𝘀𝘁𝗮𝗰𝗹𝗲 𝗗𝗲𝘁𝗲𝗰𝘁𝗶𝗼𝗻 𝗕𝗼𝘁 𝘄𝗶𝘁𝗵 𝗔𝘂𝘁𝗼𝗻𝗼𝗺𝗼𝘂𝘀 𝗣𝗮𝘁𝗵 𝗔𝗱𝗷𝘂𝘀𝘁𝗺𝗲𝗻𝘁 As beginners our team built a small-scale bot that detects obstacles in its path and changes direction autonomously. The build used Arduino Uno, ultrasonic sensor, motor driver, DC motors, and a simple chassis setup. Through this project we learnt as beginners how to interface sensors, write control logic, and manage hardware–software integration in real time. Grateful to work alongside a dedicated team of five, and sharing both the demo video and the GitHub repository for those interested in the implementation. Code : https://lnkd.in/gidhZGHM Subham ‎ Akshat Hatila Satvik Vyas Sanyam Bohra #Robotics #EmbeddedSystems #BeginnersInRobotics #LearningByImplementing

Hardware‑Only Line‑Follower (no code) A robot that ships with 0 lines of code. Read that again. ⚡ We built a line‑following robot using pure logic gates—no Arduino, no MCU, just hardware thinking at the edge. This flips the script on how control can be done in cost‑sensitive, deterministic systems. Results in the lab: Path 1: 28.35 s | Path 2: 22.15 s 🚀 Decisions in combinational + sequential logic (not firmware) 🧠 Deterministic timing and fast recovery on track deviations 🎯 - Lower BOM risk and zero OTA/flash failure modes ✅ - Predictable latency for actuators and safety lanes ⏱️ - Blueprint for ultra‑lean edge robotics in manufacturing/automation 🛠️ For more details: https://lnkd.in/gbHQp9wV #Robotics #HardwareDesign #LogicCircuits #Automation #EdgeComputing

🤖✨ Excited to share my latest project: **Autonomous Line Follower Robot**!  🔹 Platform: Arduino UNO + L298N Motor Driver   🔹 Dual IR sensors for accurate line detection   🔹 Capable of navigating forward, left, and right automatically   🔹 Stops safely when off-track  This project demonstrates practical **sensor integration, motor control, and embedded systems programming**. Perfect example of beginner-friendly robotics with real-world applications!  📂 Check out the full code here:  https://lnkd.in/dVTV4-68 #Robotics #Arduino #EmbeddedSystems #STEM #Electronics #EngineeringProjects #Automation

🤖⚡ Where creativity meets code! Arduino has opened the doors for a new wave of robotics and electronics innovation. From building simple bots to designing AI-powered smart systems, Arduino boards are the heartbeat of makers, innovators, and engineers. At the Smart Innovation Hub, it’s not just about circuits – it’s about ideas coming alive, step by step, wire by wire. 🚀✨ Please Dm For Credit🙏 #Arduino #Robotics #Electronics #SmartInnovationHub #MakersMovement #TechInnovation #NextGenEngineering #CodingForRobots #FutureTech #DIYRobotics #SmartSolutions

🚗✨ Obstacle Avoiding Car Project ✨🚗 I recently worked on building an Obstacle Avoiding Robot Car using Arduino, sensors, and motor drivers. In this video, I’ve shared the entire journey — from facing initial bugs and challenges to achieving the final smooth working of the project. This project was a great learning experience, helping me improve my skills in: 🔹 Arduino programming 🔹 Sensor integration 🔹 Motor driver control 🔹 Debugging & problem-solving Every bug was a step closer to the solution, and I’m excited to showcase the final working model in action! 💡 Would love to hear your thoughts and suggestions. 🚀 #Arduino #Robotics #ObstacleAvoidingCar #Electronics #ProblemSolving #LearningByDoing

🚀 Project Spotlight: Ultrasonic Distance Detection using Arduino Over the past few days, I’ve been working on an embedded systems mini-project under the guidance of Odinakachukwu Ovuoba and Samson Nathaniel: 🔹 Ultrasonic sensor (HC-SR04) to detect distance 🔹 Arduino Uno for processing 🔹 Real-time measurement of object distance in centimeters 💡 How it works: The ultrasonic sensor sends sound waves, receives the echo, and the Arduino calculates the distance from the time taken for the sound to return. (This is the same principle behind car parking sensors!) 🔧 Key learnings: Interfacing sensors with Arduino Converting time-of-flight data into distance Writing simple but effective C++ code for microcontrollers 📌 Potential applications: Parking assistance systems Obstacle detection for robots Smart measuring devices I’m excited about how something this small can be applied in automation and robotics. Next step: adding LEDs and a buzzer to transform it into a mini parking sensor! 👉 Curious to hear from others in embedded systems: What was your first Arduino project? #Arduino #EmbeddedSystems #UltrasonicSensor #Robotics #EngineeringLearning

Light-Following Robotic Car Project Recently, I worked on building a Light-Following Robotic Car - a small but exciting step in my journey of exploring robotics and embedded systems. The robot uses LDR (Light Dependent Resistor) sensors to detect the brightest light and then navigates toward it using DC motors. It's programmed with Arduino (C++ logic + Adafruit Motor Shield library). Through this project, I learned how hardware (sensors, motors) and software (logic, code) come together to create autonomous systems. Why is this important? Light-based automation has practical applications in solar tracking, smart lighting, and robotic navigation- showing how even simple projects can connect to real-world innovation. This project not only improved my Arduino programming and electronics knowledge but also taught me the value of problem-solving and patience in robotics. Excited to keep learning and sharing more projects! #Robotics #Arduino #Electronics #ComputerEngineering

🤖✨ Excited to share my **Ultrasonic Obstacle Avoiding Robot** project!  🔹 Platform: Arduino UNO + L298N Motor Driver + HC-SR04 + Servo   🔹 Autonomous obstacle detection and avoidance   🔹 Servo scans left and right to choose the safest path   🔹 Forward, left, and right movement  This project demonstrates **sensor integration, real-time navigation, and embedded systems programming**, making it a practical robotics application.  📂 Full code available on GitHub:  https://lnkd.in/dJBi7QbV #Robotics #Arduino #EmbeddedSystems #Electronics #STEM #Automation #EngineeringProjects

👀 Meet My Robotic Arm Prototype – Powered Fully by Servos When we think of robotics, we often imagine complex systems. But this project shows how much we can achieve with servo motors, Arduino, and Raspberry Pi 4 combined with computer vision (OpenCV) and sensors. 👉 In simple words: This is a servo-powered robotic arm, designed to mimic human-like motion with: 2 servos at the shoulder 1 servo under the shoulder 1 servo at the elbow 1 servo at the forearm 5 servos for the fingers 💡 What makes it special? Controlled using Arduino + Raspberry Pi 4 Programmed with Arduino IDE and Python Integrated with OpenCV for vision and sensor-based interaction ✅ Why it matters: Demonstrates how low-cost components can create human-like motion Opens doors for prosthetics, automation, and assistive robotics Serves as a foundation for more advanced AI-driven robotic systems 👉 Your turn: What features would you love to see in a next-gen robotic arm? Gesture control? AI integration? Wireless operation? I’d love to hear your thoughts in the comments! #Robotics #Arduino #RaspberryPi #OpenCV #Python #Innovation #Engineering