Difference between revisions of "Networking Cars"
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== Gantt Chart == | == Gantt Chart == | ||
[[File:Networking_Pi_Cars_CH-DJ_Gantt_Chart_1.jpeg|1080px|thumb|left|Gantt Chart For Networking Pi Cars]] | [[File:Networking_Pi_Cars_CH-DJ_Gantt_Chart_1.jpeg|1080px|thumb|left|Gantt Chart For Networking Pi Cars]] | ||
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== Presentation == | == Presentation == | ||
[[ File:INSERT NAME]] | [[ File:INSERT NAME]] |
Revision as of 21:54, 9 October 2017
Overview
The project is to create a network of at least two cars that can locate each other without user guidance. Using the open source platform of the Pi Car, we hope to add a serviceable extra module to integrate with existing functions of the current system. This module will consist of a transmitter and a receiver on respective cars, and the dynamic car will be able to interpret the signal in order to self-navigate to the location of a second car.
Team Members
Curtis Hoffman
Deep Jyoti
Andrew O'Sullivan (TA)
Objectives
- Design sensor system to communicate relative location between two vehicles.
- Integrate sensors in order to allow Pi Car to interpret signals into usable commands.
- Assemble Pi Car Chassis.
- Design and build a latching mechanism that integrates electromagnets and wire connections.
- Using Bluetooth or similar systems, enable each car to locate one another.
- Create a software interface and allows users to send commands to the cars to connect/disconnect.
- Add circuitry to each of the microcontrollers on the cars to share information with one another using the I2C connection protocol.
Challenges
- Establishing reliable communication between cars
- Make sure system is not susceptible to interference from ambient networks.
- Design System for Power Delivery (Stretch Goal)
- Become familiar with Pi Car hardware capabilities.
- Learn Raspberry Pi
Budget
- Pi Car Hardware - Provided by Dpt.
- Pololu IR Beacon Transceivers - $49.95
- Osoyoo IR Infrared Obstacle Avoidance Module - $9.99