Difference between revisions of "S19: Hot Wheels"

From Embedded Systems Learning Academy
Jump to: navigation, search
(Communication Bridge Controller & LCD)
(Communication Bridge Controller & LCD)
Line 396: Line 396:
  
 
<Picture and link to Gitlab>
 
<Picture and link to Gitlab>
 +
 +
 +
The Hardware and the Software details are given below:
 +
  
 
=== Hardware Design ===
 
=== Hardware Design ===

Revision as of 19:34, 15 May 2019

Project Title

Self-navigating RC car based on CAN communication.

Abstract

Embedded Systems are used to take real world input and covert it into the data that can be processed to monitor,control or obtain desired results. In this project , we aim to design and develop an autonomous self-driving RC car that navigates from the current location to the destination location that is selected through an Android application, avoiding all the obstacles in the path. The car comprises of 5 controllers communicating with each other over the CAN Bus, each having different functionality.

Introduction

The project was divided into 5 modules:

  • Sensor Controller: This module detects obstacles in the driving path with the help of ultrasonic sensors.
  • Motor Controller: This controller drives the DC motor and Servo in the car.
  • Geographical Controller: This module assists the car in navigating to a destination with the help of location details provided by GPS and the

orientation(bearing and heading angle) provided by the compass.

  • Bluetooth Controller: The controller uses Bluetooth to communicate with an Android application on the Android phone. Destination coordinates are provided by this module. The Bluetooth module also displays important data like Ultrasonic sensor values, GPS coordinates and speed.
  • Master Controller: This module will collect data from all modules and direct the motor module towards the destination.

Team Members & Responsibilities

<Team Picture>

Gitlab Project Link - [1]

  • Master Controller
    • Kailash Chakravarty

  • Sensor Controller
    • Rishabh Sheth

  • Motor Controller
    • Kriti Hedau
    • Tahir Rawn

  • Geographical Controller
    • Harmeen Joshi
    • Nandini Shankar

  • Communication Bridge Controller & Android Application
    • Swanand Sapre
    • Aquib Mulani

  • Code Review & Commit Approvers
    • Rishabh Sheth
    • Nandini Shankar
    • Kailash Chakravarty


Schedule

Week# Date Task Status Completion Date
1 02/12/19
  • Form Teams
  • Completed
  • 02/12/19
2 02/17/19
  • Setup a Slack workspace for the team.
  • Setup private channel on Slack workspace
  • Completed
  • Completed
  • 02/17/19
  • 02/17/19
3 02/26/19
  • Create a Gitlab project and add all team members as well as Preet
  • Order CAN transcievers
  • All team members get familiar with the Gitlab environment and make their initial commit.
  • Completed
  • Completed
  • Completed
  • 02/26/19
  • 02/26/19
  • 02/26/19
4 03/05/19
  • Research previous projects wiki page and gather useful information.
  • Identify and discuss individual modules within the project and finalize roles of each team member.
  • Demo CAN Communication
  • Completed
  • Completed
  • Completed
  • 03/07/19
  • 03/07/19
  • 03/07/19
5 03/12/19
  • Each team member review their corresponding module hardware requirements.
  • Study data sheets of sensors used in each module.
  • Pick PCB design platform and begin work on PCB design/schematic.
  • In-Progress
  • In-Progress
  • Not Started
6 03/19/19
  • Finish ordering required components.
  • Finalize PCB design/order by end of week.
  • Each team member start work on implementing individually working modules.
  • Not Started
  • Not Started
  • Not Started
7 03/26/19
  • Demo a "Hello World" program implementation by each module.
  • Study android app development environment.
  • Start implementing android app.
  • Not Started
  • Not Started
  • Not Started
8 04/02/19
  • --- SPRING BREAK ---
9 04/09/19
  • Demo Android app basic prototype
  • Not Started
10 04/16/19
  • Finish implementing individual working modules.
  • Not Started
11 04/23/19
  • Work on integrating individual modules into the final testing.
  • Identify test cases for the integrated prototype model.
  • Start integration testing.
  • Not Started
  • Not Started
  • Not Started
12 04/30/19
  • Finish integration testing.
  • Finalize Wiki page documentation.
  • Not Started
  • Not Started
13 05/07/19
  • --- BUFFER WEEK ---
14 05/14/19
  • Final Exam Preparation
15 05/22/19
  • Final Demo

Parts List & Cost

Item# Part Desciption Vendor Qty Cost
1 RC Car Traxxas 1 $250.00
2 CAN Transceivers MCP2551-I/P Microchip [2] 8 Free Samples

Printed Circuit Board

<Picture and information, including links to your PCB>

CAN Communication

<Talk about your message IDs or communication strategy, such as periodic transmission, MIA management etc.>

Hardware Design

<Show your CAN bus hardware design>

DBC File

Gitlab link to your DBC file [3]

VERSION "0.1.0"

BU_: MASTER SENSOR MOTORIO GEO APP

BO_ 220 MOTORIO_CMD: 4 MASTER

SG_ MOTORIO_CMD_Direction : 0|8@1+ (1,0) [0|2] "" MOTORIO

BO_ 210 ULTRA_CMD: 4 SENSOR

SG_ SENSOR_SONARS_FrontDistance : 0|8@1+ (1,0) [2|100] "" MASTER

BO_ 250 DISTANCE: 4 GEO

SG_ DISTANCE_FinalDistance : 0|16@1+ (0.1,0) [0|0] "" MASTER

BO_ 102 BLUETOOTH: 4 APP

SG_ DISTANCE_FinalDistance : 0|16@1+ (0.1,0) [0|0] "" MASTER

CM_ BU_ MASTER "The Master controller of the car";

CM_ BU_ MOTOR "The motor controller of the car";

CM_ BU_ SENSOR "The sensor controller of the car";

CM_ BU_ GEO "The Geo controller of the car";

CM_ BU_ APP "The Bluetooth/App controller of the car";




Sensor ECU

<Picture and link to Gitlab>

MOTOR CONTROLLER

Group Members

Design & Implementation

Hardware Design

Motor Module Schematic


SJOne Pin Diagram
Sr.No Pin Number Pin Function
1 P0.0 CAN RX
2 P0.1 CAN TX
3 P2.0 Servo Motor
4 P2.1 Electronic Speed Controller (ESC)
5 P2.5 RPM Sensor



  • Hardware Specifications
DC Motor
DC Motor
Servo Motor
RPM Sensor

Hardware Interface

Software Design

Technical Challenges

Future Counsel



Geographical Controller

<Picture and link to Gitlab>

Hardware Design

Software Design

<List the code modules that are being called periodically.>

Technical Challenges

<Bullet or Headings of a module>

Unreliable GPS lock

<Problem Summary> <Problem Resolution>



Communication Bridge Controller & LCD

User communicates with the car through the Communication Bridge Controller. This module consists of the LPC1758 communicating with the Android application on the phone via Bluetooth.The user selects the final destination on the google map to which the car should navigate, through an android application. The Android application also works as a display where it displays the recorded values of the ultrasonic sensors, the current latitude and longitude, the bearing angle, and the compass values for the car.

<Picture and link to Gitlab>


The Hardware and the Software details are given below:


Hardware Design

Software Design

<List the code modules that are being called periodically.>

Technical Challenges

<Bullet or Headings of a module>

Insane Bug

<Problem Summary> <Problem Resolution>



Master Module

<Picture and link to Gitlab>

Hardware Design

Software Design

<List the code modules that are being called periodically.>

Technical Challenges

<Bullet or Headings of a module>

Improper Unit Testing

<Problem Summary> <Problem Resolution>



Conclusion

<Organized summary of the project>

<What did you learn?>

Project Video

Project Source Code

Advise for Future Students

<Bullet points and discussion>

Acknowledgement

References