S19: Run D.B.C

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Abstract

The RUN-D.B.C project, involves the design and construction of an autonomously navigating RC car. Development of the R.C car's subsystem modules will be divided amongst and performed by seven team members. Each team member will lead or significantly contribute to the development of at least one subsystem.

Objectives & Introduction

RC CAR OBJECTIVES

  • Successfully detect and avoid obstacles
  • Autonomously navigate to a fixed destination, from a fixed starting location; based on feedback from a GPS
  • Integrate communication between the RC car's master controller and an Android device, using Bluetooth
  • Integrate system hardware communication using a PCB


TEAM OBJECTIVES

  • Strive to learn as much as possible, in order to develop a professional product
  • Establish and enforce professional software design standards
  • Establish and enforce professional hardware design standards
  • Achieve 100% code coverage, during unit testing
  • Carefully document and track all bugs encountered and patched, during development
  • Clearly communicate the development of all modules of the RC car


CORE MODULES OF RC CAR

  • Android App
  • Bridge Controller
  • Geographic Controller
  • Master Controller
  • Motor Controller
  • Sensor Controller
  • Hardware Integration PCB
  • Wiring Harness


PROJECT MANAGEMENT ADMINISTRATION ROLES

  • Team Lead
  • Finance Manager
  • Git Repository Manager
  • Wiki Report Manager
  • Gantt Chart Manager
  • Bill of Materials Manager
  • Project Presentation Manager


TEAM MEMBERS AND RESPONSIBILITIES

Team Members

Administrative Roles

Technical Roles

  • Tristan French
  • Team Lead
  • Git Repository Manager
  • Finance Manager
  • Master Controller (Lead)
  • Hardware Integration PCB
  • Wiring Harness
  • Ryan Zelek
  • Testing and Integration (Lead)
  • Master Controller
  • Motor Controller
  • Samir Mohammed
  • Wiki Report Manager
  • Gantt Chart Manager
  • Bill of Materials Manager
  • Android App and Bridge Controller (Lead)
  • Hardware Integration PCB
  • Wiring Harness
  • Vignesh Kumar Venkateshwar
  • Project Presentation Manager
  • Motor Controller (Lead)
  • Android App and Bridge Controller
  • Bharath Vyas Balasubramanyam
  • Geographic Controller (Lead)
  • Motor Controller
  • Nuoya Xie
  • Sensor Controller (Co-Lead)
  • Geographic Controller
  • Kelvin Cheong
  • Sensor Controller (Co-Lead)
  • Geographic Controller


Schedule

TEAM MEETINGS AND DELIVERABLES

Week#

Date

Deliverables

Status

1 2/16/19
  • Share team contact information
  • Create Git Repository (Tristan)
  • Set up Slack
  • Invite Preet to Slack
  • Establish Code Guidelines and Standards
  • Complete
  • Complete
  • Complete
  • Complete
  • Complete
2 2/24/19
  • (1/2 team) Share research of past projects
  • Establish ownership of Administrative and Technical Project Modules
  • Establish weekly team meeting time
  • Establish Team Slack usage Guidelines and Standards
  • Received CAN Transceivers
  • Create a Gantt chart to track project progress (Samir)
  • Create Git directory structure (Tristan)
  • Create a Bill of Materials (Samir)
  • Select and order an RC car (Bharath)
  • Push a file to Git Repository
  • Conduct research of project modules (based on ownership/sub-team)
  • Invite Preet to Gitlab
  • Complete
  • Complete
  • Complete
  • Complete
  • Complete
  • In Progress
  • Complete
  • Complete
  • Complete
  • Complete
  • Complete
  • Complete
3 3/3/19
  • (2/2 team) Share research of past projects
  • Explore using Splitwise for managing project finances
  • Explore using Taiga.io for project management (Samir/Tristan)
  • Sub-teams share research and findings with each other and the team
  • Start planning what parts need to be ordered and update BoM
  • Email Preet regarding LCD screen for Bridge Controller
  • Interface with the HC05 Bluetooth module
  • Research frameworks for Android App development
  • Research GPS modules
  • Create a high-level system block diagram and control scheme
  • Develop a high-level plan interfacing with speed controller and servo controller
  • Select a PCB design tool (develop a sample board in KiCAD)
  • Test performance/specs of current Ultrasonic sensors and research others
  • Complete
  • Complete
  • Not Started
  • Complete
  • In Progress
  • In Progress
  • In Progress
  • In Progress
  • In Progress
  • In Progress
  • In Progress
  • In Progress
  • In Progress
4 3/10/19
  • Each team create a schedule for sub-system development and send to Samir
  • Set up Cygwin on Windows (and configure) Mac machines for auto-formatting
  • Finalize and purchase LCD screen for Bridge Controller
  • Learn to develop in Android Studio (watch tutorials and begin developing Android App)
  • Purchase Adafruit Ultimate GPS module
  • Selected KiCad as PCB design tool (develop sample PCB to help learn how to use software)
  • Purchase long-range distance sensors and select bump sensors
5 3/17/19
6 3/24/19
  • Interface with with speed controller and servo controller
  • Finalize high-level system block diagram and control scheme
7 3/31/19
  • All parts have been ordered
  • LPC 1758 responds to feedback from bump sensor
  • LPC 1758 responds to feedback from Ultrasonic sensors (reports distance of objects in their detection radius)
  • Complete DBC CAN message format
  • LPC 1758 responds to feedback from motor speed sensor (reports RPM of wheels, when a PWM signal is applied)
  • Complete DBC CAN message format
8 4/7/19
  • Complete sensor module code and push final revision to GitLab
9 4/14/19
  • All modules have been fully assembled
10 4/21/19
11 4/28/19
12 5/5/19
  • RC car has been fully assembled and modules have been integrated
13 5/12/19
13 5/22/19
  • DEMO


Parts List & Cost

MICRO-CONTROLLERS

PART NAME

PART MODEL AND SOURCE

QUANTITY

COST PER UNIT (USD)

  • Micro-controller
  • LPC 1758 (Supplied by Preet Kang)
  • 5
  • $80.00


RC CAR

PART NAME

PART MODEL AND SOURCE

QUANTITY

COST PER UNIT (USD)

  • RC Car
  • 1
  • $205.99
  • Lithium-Ion Battery
  • 1
  • $74.95
  • Battery Charger
  • 1
  • $47.95


ANDROID APP AND BRIDGE CONTROLLER

PART NAME

PART MODEL

QUANTITY

COST PER UNIT (USD)

  • Bluetooth Serial Communication Module
  • 1
  • N/A


GEOGRAPHIC CONTROLLER

PART NAME

PART MODEL

QUANTITY

COST PER UNIT (USD)


MASTER CONTROLLER

PART NAME

PART MODEL

QUANTITY

COST PER UNIT (USD)


MOTOR CONTROLLER

PART NAME

PART MODEL

QUANTITY

COST PER UNIT (USD)


HARDWARE INTEGRATION PCB AND WIRING HARNESS

PART NAME

PART MODEL

QUANTITY

COST PER UNIT (USD)


SENSOR CONTROLLER

PART NAME

PART MODEL

QUANTITY

COST PER UNIT (USD)


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> <You can optionally use an inline image>



Sensor ECU

<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>

Bug Tracking

<Problem Summary> <Problem Resolution>


Motor ECU

<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>

Bug Tracking

<Problem Summary> <Problem Resolution>


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>

Bug Tracking

<Problem Summary> <Problem Resolution>


Communication Bridge Controller & LCD

<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>

Bugs and Resolutions

<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>

Bug Tracking

<Problem Summary> <Problem Resolution>


Mobile Application

<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>

Bug Tracking

<Problem Summary> <Problem Resolution>


Conclusion

<Organized summary of the project>

<What did you learn?>

Project Video

Project Source Code

Advice for Future Students

<Bullet points and discussion>

Grading Criteria

  • How well is Software & Hardware Design described?
  • How well can this report be used to reproduce this project?
  • Code Quality
  • Overall Report Quality:
    • Software Block Diagrams
    • Hardware Block Diagrams
      Schematic Quality
    • Quality of technical challenges and solutions adopted.

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