Learn how to lift-off a drone with your mind and a hacked controller using a MindWave sensor, Arduino MKR1000 and Processing.
48x8 Programmable Scrolling LED Matrix using Arduino and Shift Registers.
Connect a Modbus energy meter to an Arduino and monitor power consumption via Home Assistant.
A heart rate monitoring system that tracks your heart beat in "BMP" but I made a little difference by adding some LabView Visualisations.
Training board for essential logic gates.
A photoresistor can sense the subtle changes in light intensity caused by your blood to detect your heartbeat!
In this article, we are going to make an Arduino weather clock which will tell us the time, date and temperature.
Leveraging HLS functions to create a image processing solution which implements edge detection (Sobel) in programmable logic.
In this project, we have made an automatic water tap using Arduino and IR sensor to solve the problem of wastage of water in our daily life.
This micocontrollers laboratory is designed to speed up projects, and make easy and clean connections.
The PiNG Video Doorbell is powered by a Raspberry Pi and uses Google Duo to video call you on your phone when a visitor presses the button.
A digital finger sensor to protect against theft.
Frustrated with the prices for high quality grow light systems? Let's design a fully controllable, easy to adjust, open-source LED panel.
Not all imaging systems need to be expensive. Solutions can be created using cost optimized FPGA and CMOS image sensors directly.
Building on the Zybo Z7 image processing application. This project demonstrates using HLS with C/C++ to accelerate image processing.
A barn door astrophotography mount made with no special tools.
A solar-powered IoT device for monitoring sound level, air quality, humidity, and temperature.
Use your hand to control the height of a pixel, and then navigate through a map full of obstacles to avoid. Get to the end to win!
Using the Arm DesignStart FPGA Cortex-M3 to control a simple wheeled robot. Also known as getting started with DesignStart FPGA & Cortex-M3.
This project creates an FPGA-controlled hexapod robot which is capable of walking and navigating around its environment using sonar and IMU.
I do a lot of work with image processing and need to test cameras / imagers. I am going to create a scalable test platform.
Using Pynq, we can implement an accelerated AI/ML on an FPGA without writing a line of HDL! Let's take a look at how we can this...
It feels awesome when you have the power to control things remotely.
Part one of a project that will demonstrate the building of an FPGA/SoC-based hexapod robot.