We present an effective, easy-to-implement, and low-cost modular framework for completing complex navigation tasks.
Kayaking GPS: speed, time, latitude, longitude, distance and azimuth to waypoints, odometer, tide clock, battery monitoring.
Autonomous drone equipped with GPS for traveling by the mountains, GSM, and a thermal camera capable of locating lost people or animals.
Readers can learn how to collect and display the environmental data through Arty S7, 4 Pmods and a touchscreen display.
An indoor navigation system along with an automated guided wheelchair cluster to enhance accessibility in standard buildings.
Indoor navigation system with smart floor detection and positioning.
Navigating the world is hard: let your hips do the work.
Provides input to the user via an array of haptic devices around your hips.
Precise GPS navigation with a Raspberry Pi for my Big Rob robot, which is also powered by a Raspberry Pi.
The HMC5883is a digital compass designed for low-field magnetic sensing. This device has a wide magnetic field range of +/-8 Oe.
How to connect GPS, SONAR, sensors, auto pilot units, etc. in ships and boats via NMEA 0183 to Raspberry Pi.
Use your smartphone as an IMU for your Raspberry Pi project!
Designed a system which would ensure high navigation solution integrity even in an environment with poor or no GPS/Satellite navigation sign
I built this project for the fun of it, to display our current GPS coordinates on a small OLED display. Based on Xinabox running an ARM M0+.
Create a navigation system by GSM module and Arduino instead of using GPS.
Demonstrating how to build an e-Compass using micro:bit development board's Magnetometer/Accelerometer sensors.
Use Pixy2 and Arduino to train your robot car to follow road signs!
The HMC5883 is a digital compass designed for low-field magnetic sensing.This device has a wide magnetic field range of +/-8 Oe.
This project shows you how to take advantage of GNSS connectivity of Sony Spresense board with Zerynth.
Learn how to build a digital compass that displays the heading of your device with respect to magnetic north.
In this project you will learn how to build your own GPS and Arduino vehicle position recorder system.
Learn how to make Calibrated 3-dimensional magnetic field sensor with XinaBox using xChip SI01 – IMU 9DoF.
The KD2 Droid is designed for adaptability in navigating environments inhabited by humans.
A simple library for a six-wheeled rover navigation.
In this project, you will be able to create a simple store locator for a mall.