Robot made with motor controller, signal distribution, and servo controller board, it's controlled through the network.
We use the compounded knowledge we have gained in class to make an autonomous RC car that follows a lane and stops at a red box stop.
Autonomous vehicles using BeagleBone AI-64 can follow lanes, stop at red boxes and detect stop signs.
Inspired by the Fast & Furious we built an autonomous RC car capable of staying within lane and stopping at traffic stop signs.
Build an autonomous vehicle using computer vision to follow a lane, stop at red, and stop at a stop sign (with ML) with BeagleBone AI-64.
The BeagleBone will be controlled through the network and use a serial terminal to communicate with off-board devices such as MCU boards.
Raspberry Pi HAT Launched, Can Detect Location with Centimeter-Level Accuracy
Learn how to use Blynk with Node.js on a variety of platforms.
Use Yocto on BeagleBone Black.
This project is about using siri command to control beaglebone which can drive a servo to point camera to the target.
Our system is designed to use computer vision to have an RC car follow a particular path and stop when it detects the color red.
Designing a car to stay within lane and react to stop signs and lights
Did you want to handle some 12v servos with your BBBW and make them available with an already completed SDK?
In this series of posts, we will explore Linux's hardware-software interface using a BeagleBoard.
My personal experience testing out features on the PocketBeagle by Beagleboard and technical knowledge I learned along the way!
How many steps does your dog take? Add OLED C and Pedometer 3 clicks to the BeagleBoard. org® PocketBeagle® featuring the OSD3358 SiP
Are you interested in visual plotting for statistics? Matplotlib!
We are very close to having full integration of the new BeagleBone AI and Bela! We will be sharing all updates here.
Counter from 0 to 9 in display of 7 Segments on Beagle Board with Node.js
Update: I got covered by.
In this project, a microcontroller-based circuit controls an LED designed with a distributed (Xbox 360) user interface.
Project to show how to use xChips with a BeagleBone Black through a XinaBox bridge on the interface found on the SBC.
We created a vi that can synthesizes different instrument sounds by generating different ADSR envelopes. Then deployed vi on the BeagleBone.
Create a paper football game board and add digital features and automation including scoring, possession, and a jumbotron.