lean, mean, golf-ball-collecting, obstacle-avoiding, a*-path-planning, machine!

Sending a 2D line drawing to a robot to draw the line

We built a line-following balancing robot that uses computer vision and IR sensors to follow a line and detect obstacles.

Using a TI F28379D Launchpad and a plastic recorder we coded a robot to move. Using WiFi an ESP8266 sent the notes to LABView on a computer.

A tone-detecting, line-following, break-dancing robot car!

An autonomous robot that line follows and moves 'snowballs' in its path out of the way and then continues lane following. Mimics a snowplow.

Breanna Chan and Brenna Kelly's final project for ME 461

A six-legged robot spider that can walk, balance and display sweet visuals on an LED array.

The HDrive is an easy to use IoT-enabled servo drive, both for the inexperienced and for professionals.

Feeling lost? Help is never far away in LabVIEW.

This tutorial describes the process of setting up a Raspberry Pi as a LabVIEW target using LINX.

This tutorial describes the process of setting up a BeagleBone Black as a LabVIEW target using LINX.

Using LabVIEW 2014 and LINX 3.0, we created two wirelessly controlled Sumobots.

Create a hospitality robot that is capable of interacting with visitors at public spaces such as malls, rec centers, hospitals, stadium etc.

Application notes for Pmod OD1 and Arduino Uno. In this app, the motor will be programmed to accelerate & decelerate at specific intervals.

Dot detection using webcam

Detect colors in images or in real time

Compute address, wildcard, network address based on IP and subnet mask

The goal for this project is to control the position of a ball on a beam that is actuated by a motor while using 5 LED lights as indicator.

This project involved using an accelerometer chip and an Orange Pi to wirelessly control a small car.

We finished the Cobra MiniSumo chassis build in part 1 of this project. Let's add some brain power this time.

Remote controlled relays using Bluetooth HC-05, PIC microcontoller and LabVIEW.