This micocontrollers laboratory is designed to speed up projects, and make easy and clean connections.
Not all imaging systems need to be expensive. Solutions can be created using cost optimized FPGA and CMOS image sensors directly.
This project creates an FPGA-controlled hexapod robot which is capable of walking and navigating around its environment using sonar and IMU.
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.
This project, known as Biotronics, was conceptualized to create synthetic species that look alive or with life and make them conscious.
Using the Arm DesignStart FPGA Cortex-M3 to control a simple wheeled robot. Also known as getting started with DesignStart FPGA & Cortex-M3.
With this project ,we aim to create a way to play physical chess with someone even if that person is on the other side of the world.
Create a hospitality robot that is capable of interacting with visitors at public spaces such as malls, rec centers, hospitals, stadium etc.
Cutsie Whun is a tough and fast, RC-controlled, 2-wheeled balancing fun machine.
Sensing, Connected Utility Transport Taxi for Level Environments (SCUTTLE) made for the Mechatronics Engineering Technology Program.
HuGo is a humanoid robot, created by 3D printing technique, controlled by FPGA boards using sensors, actuated by servo motors.
Using LabVIEW 2014 and LINX 3.0, we created two wirelessly controlled Sumobots.
A cheap DIY version of Nanoleaf RGB LIGHT with ATtiny85 and WS2812 RGB strip.
A two-wheel robotics platform built on the Arty development board.
This is a low cost robot that will help students in better learning and understanding.
Using a IR proximity sensor and microcontroller to find the local values of 'g' and will plot a real time damping curve.
This project is a medical instrument developed for early detection of dental decay using the electrical impedance measurement method.
I have revamped the control system of this 20-year-old 5DOF articulated robotic arm with TP controls and programming interface integrated.
Build a dynamic audio visualizer that responds to music, voices and other auditory input using Pmod MIC, Arduino Uno and Processing.
Imagine a 'foosball table' that autonomously calculates LIVE match statistics, such as goal scores, ball possession, successful passes, shot
A Giant Lego Hulk Minifig (10:1 Scale) that also speaks and moves.
Johnny the robot will be able to react to instructions it receives from its user through the MHI on a digital tablet (pick up objects, etc).
A six-legged robot spider that can walk, balance and display sweet visuals on an LED array.
Here we demonstrate how to build fundamental CanSat electronics using a Cmod A7 FPGA board.
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