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PiCar

Lane following and traffic sign reading differential drive robot. Developed for MTRX5700 Experimental Robotics Major Project 2017 by:

  • Martin Abeleda
  • Tom Rapson
  • Kristina Mahony
  • Riley Green

Dependencies

  • Raspberry Pi 3 with raspbian
    • Picamera
    • L293D H-bridge
    • Adafruit Mini Robot Rover Chassis Kit
  • Open CV
  • Python 2.7

Cloning

git clone https://github.com/martinabeleda/PiCar.git

Checkout to branch:

git checkout --track origin/<branch_name>

Run the code:

cd PiCar
python main.py

PiCar setup

The Pi is configured to startup in Command Line Interface (CLI) mode and automatically logged in as pi. This saves memory and startup time because the front end GUI doesn't have to load. To manually start the desktop GUI, type startx into CLI.

The password for the default user has been set to picar.

First, I set up hotspot on my phone and connect both the Pi and my laptop to it. Note that the IP address may change when the Pi is connected to different wifi. SSH instructions:

Marty's pi:

pi@raspberrypi:~ $ ssh [email protected]
[email protected]'s password: picar

Tom's Pi:

pi@raspberrypi:~ $ ssh [email protected]
[email protected]'s password: picar

Click here for instructions to install OpenCV on the Pi.

Remote Desktop

Click here to see instructions for connecting the Pi to remote desktop on your computer.

Remote desktop software for your computer:

Linux: sudo apt-get install rdesktop
Mac: search "remote desktop" in App store

For linux, run rdesktop -g 90% 192.168.43.94 orrdesktop -g 90% 192.168.43.118 in terminal.

Login with the following credentials:

Module: sesman-Xvnc
username: pi
password: picar