The simplest Arduino-based drawing car ever.
This device automatically detects and uploads the location of road hazards, creating a safer driving environment!
This is a line following robot with vaccum cleaning capabilities. This project explains how to build it using Arduino and also NodeMCU.
Create your multitasking robot! This project demonstrates the rich capabilities of the micro:bit board for the robotic car development.
The aim of this project is the automatic recognition of automobiles with machine learning, and the pricing of the vehicle based on them.
I made a Blynk-controlled mini car using M5Stick-C. Pretty good!
Fun with obstacles: a short overview.
Lastleaf rescues from road accidents by sending automated SOS using Raspberry Pi, Android application, Soracom service and Internet.
Use a tank chassis and computer vision to create a robot that can hunt down and destroy dandelions with full autonomy!
How to use IoT devices to monitor the state of indoor parking lots.
If it is not possible to do it, as a solution I create the drowsiness monitor to avoid falling asleep while driving.
An empty place indicator or monitor for car parking.
Curious about autonomous driving, AI and neural networks? Build your own autonomous driving car and get your hands on these topics!
A simple obstacle avoiding robot with 3D-printed and salvaged parts.
To extend our V2X ecosystem we are constantly adding entities. This time we added a truly crucial component: EV charging.
Drivers do lots of things while on the road, looking at road signs, pedestrian detection, driving around obstacles. Here's some assistance.
Robot-tank PiTanq now can use GPS to reach a point on a map!
This project demonstrates the usage of a photon and temperature sensor programmed to notify you when your car reaches a certain temperature.
This project uses the Particle board to sense the distance from the rear of the vehicle to another object nearby when parking.
This project demonstrate the working of CapSense with fun.
If you have this car, you will be able to avoid obstacles and follow the necessary lines to reach your destination and protect the distances
A Micro:Maqueen Robot Car.
How to transmit and receive high speed CAN or CAN FD messages using Raspberry Pi.
A PID black / white line following, servo steering smart vehicle based on the STC15W4K32S4 MCU.