An automated, smart, self-contained growing system that cultivates plants from seed to maturity!
Learn how to lift-off a drone with your mind and a hacked controller using a MindWave sensor, Arduino MKR1000 and Processing.
Diversity Adaptive Obstacle Avoiding Robot
Responds to sound or can be set on automatic, all by IR. Or switch. WS2812B VU Bar on Uno or Nano. CHECK MY OTHER VU PROJECTS.
A tiny telegraph that can write any text messages that look like a telegrammes. This project made of oak plywood.
Connect a Modbus energy meter to an Arduino and monitor power consumption via Home Assistant.
Leveraging HLS functions to create a image processing solution which implements edge detection (Sobel) in programmable logic.
Creating an image processing platform that enables HDMI input to output. This can be used as a base for HLS-based image processing demo.
This getting started guide teaches you how to program Python on Digilent Arty Z7-20, the Xilinx Zynq Z7020 SoC platform.
Not all imaging systems need to be expensive. Solutions can be created using cost optimized FPGA and CMOS image sensors directly.
Minimalist cars race with a strip of smart LEDs and two switches.
My project helps visually challenged people to walk without crashing into walls and obstacles. This help them to live freely without taking
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.
A heart rate monitoring system that tracks your heart beat in "BMP" but I made a little difference by adding some LabView Visualisations.
I do a lot of work with image processing and need to test cameras / imagers. I am going to create a scalable test platform.
Building on the Zybo Z7 image processing application. This project demonstrates using HLS with C/C++ to accelerate image processing.
48x8 Programmable Scrolling LED Matrix using Arduino and Shift Registers.
Use Python, OpenCV libraries and the PYNQ frame to implement the computer vision on Arty Z7-20 Xilinx Zynq SoC platform.
This project creates an FPGA-controlled hexapod robot which is capable of walking and navigating around its environment using sonar and IMU.
It's a Morse code receiver base on processing the light signals.
An infrastructural imaginary where an ore of granule particles (silica and iron) is written and read as a granular record.
This project is a GPS tracking system with LCD display using an Arduino Uno and a Digilent PmodGPS.
Robotics are at the leading edge of Industry 4.0, AI and the Edge revolution. Let's look at how we can create an FPGA-controlled robot arm.
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