Difference between revisions of "F17: Rolling Thunder"

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(Schedule)
(Schedule)
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* Interface Compass module with SJOne board using I2C serial bus.  
 
* Interface Compass module with SJOne board using I2C serial bus.  
 
* <font color="indigo">Work on Bluetooth firmware development to integrate with SJ one board.</font color>
 
* <font color="indigo">Work on Bluetooth firmware development to integrate with SJ one board.</font color>
* <font color="indigo">Receive data in the Android app from the SJOne.</font color>
+
* <font color="indigo">Receive data over Bluetooth in the Android app from the SJOne.</font color>
 
* Interface Geo controller module with CAN Bus.
 
* Interface Geo controller module with CAN Bus.
 
| Not Started
 
| Not Started
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| 10/30/2017
 
| 10/30/2017
 
|  
 
|  
* <font color="indigo">Transfer data from the Android app to the SJOne.</font color>
+
* <font color="indigo">Transfer data over Bluetooth from the Android app to the SJOne.</font color>
 
| Not Started
 
| Not Started
 
|  
 
|  
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* <font color="blue"> Filter sensor value readings and send it over the CAN bus to the Master controller. </font color>  
 
* <font color="blue"> Filter sensor value readings and send it over the CAN bus to the Master controller. </font color>  
 
* <font color="green"> Continue testing motor driver via commands from CAN bus.  Begin work on LCD display. </font color>  
 
* <font color="green"> Continue testing motor driver via commands from CAN bus.  Begin work on LCD display. </font color>  
 +
* <font color="indigo">Add Google Earth/Maps to the Android app for selecting the car's destination.</font color>
 
* Calibrate GPS and Compass Module.Develop code for GPS and Compass module communication over CAN .
 
* Calibrate GPS and Compass Module.Develop code for GPS and Compass module communication over CAN .
 
* Design the Obstacle avoidance and start with basic implementation.
 
* Design the Obstacle avoidance and start with basic implementation.
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|  
 
|  
 
* Implement motor feedback and IO display.
 
* Implement motor feedback and IO display.
* <font color="indigo"> Complete the implementation of Android application.</font color>
 
 
* <font color="orange"> Interface all the controllers each with additional implemented features. </font color>
 
* <font color="orange"> Interface all the controllers each with additional implemented features. </font color>
 
* <font color="orange"> Verify the rest of the communication over the CAN bus across the five controllers. </font color>
 
* <font color="orange"> Verify the rest of the communication over the CAN bus across the five controllers. </font color>

Revision as of 06:54, 10 October 2017

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.

Rolling Thunder

Abstract

This section should be a couple lines to describe what your project does.

Objectives & Introduction

Team Members & Responsibilities

  • Central Controller
    • Akil Khan
    • Jerry John
  • Geographical Controller
    • Abhilash Tuse
    • Vishal Rajendra Shrivastava
  • Communication Bridge + Android Application
    • Akinfemi Akin-Aluko
    • Johnny Nigh
  • Motor and I/O Controller
    • Saurabh Ravindra Badenkal
    • Joshua Skow
  • Sensor Controller
    • Sona Bhasin
    • Thrishna Palissery
  • QA Team
    • Akil Khan
    • Saurabh Ravindra Badenkal

Legend

Color Component

Blue

Sensor Controller

Green

Motor/IO Controller

Red

Geographical Controller

Orange

Central Controller

Indigo

Communication Bridge + Android Application

Brown

QA

Schedule

Week # Start Date End Date Task Status Actual Date of Completion
1 09/19/2017 09/25/2017
  • Order components and distribute project modules.
  • Research on project requirements.
  • Research on different sensors to be used.
Completed 09/25/2017
2 09/26/2017 10/02/2017
  • Set up project Git and Wiki page.
  • Understand the hardware specifications of each component.
  • Study the datasheet of each component and the hardware interfacing.
  • Test the compatibility of each module.
Completed 10/02/2017
3 10/03/2017 10/09/2017
  • Establish connection over Bluetooth between the Android app and the Bluetooth module.
Completed 10/09/2017
4 10/10/2017 WIKI SCHEDULE Completed 10/10/2017
4 10/10/2017 10/16/2017
  • Test ultrasonic sensors (maxbotix and parallax ping) and identify the suitable one for front and rear.
  • Verify basic commands to Traxxas motor, send basic commands (e.g. forward) to RC car from SJOne board.
  • Analyse the communication required across the controllers.
  • Chalk out the Message IDs based on the priority of the messages and the data to be sent across nodes.
  • Understand DBC and implement the DBC file compatible with all the controllers.
  • Configure GPS device baud rate and interface it with SJOne board using UART.
  • Parse data received from GPS device to transmittable format.
In progress
5 10/17/2017 10/23/2017
  • Implement sensor code and perform standalone testing.
  • Finish motor controller API. Test motor driving in different situations, begin to listen to CAN for controls.
  • Establish communication across all the CAN controllers over CAN bus based on the DBC file.
  • Verify the power-up interactions and configurations between Master and the other controllers
  • Interface motor to the SJOne board and check for basic functionality.
  • Interface Compass module with SJOne board using I2C serial bus.
  • Work on Bluetooth firmware development to integrate with SJ one board.
  • Receive data over Bluetooth in the Android app from the SJOne.
  • Interface Geo controller module with CAN Bus.
Not Started
6 10/24/2017 FINAL WIKI SCHEDULE Not Started
6 10/24/2017 DBC FILE Not Started
6 10/24/2017 CAN COMMUNICATION DEMO Not Started
6 10/24/2017 10/30/2017
  • Transfer data over Bluetooth from the Android app to the SJOne.
Not Started
7 10/31/2017 11/06/2017
  • Filter sensor value readings and send it over the CAN bus to the Master controller.
  • Continue testing motor driver via commands from CAN bus. Begin work on LCD display.
  • Add Google Earth/Maps to the Android app for selecting the car's destination.
  • Calibrate GPS and Compass Module.Develop code for GPS and Compass module communication over CAN .
  • Design the Obstacle avoidance and start with basic implementation.
Not Started
8 11/07/2017 PROTOTYPE DEMO Not Started
8 11/07/2017 11/13/2017
  • Test each module individually for accurate functionality based on communication with the Master
  • Finish LCD display. Make adjustments to motor as needed based on testing.
  • Verify the stringent requirement of Start-up Sync, Periodic heart-beat messages, Stop car through Bluetooth command.
  • Integrate all modules with the Master to test the data flow.
  • Design the way-point algorithm and start with the implementation.
  • Design the Navigation Algorithm and start with the implementation.
  • Test GPS and compass data for accuracy with the devices mounted on RC car.
Not Started
9 11/14/2017 11/20/2017
  • Implement motor feedback and IO display.
  • Interface all the controllers each with additional implemented features.
  • Verify the rest of the communication over the CAN bus across the five controllers.
  • Interface Geo controller and Android controller.
Not Started
10 11/21/2017 11/27/2017 Not Started
11 11/28/2017 PROTOTYPE DEMO 2 (WITH MOTO FB) Not Started
11 11/28/2017 12/04/2017
  • Based on the algorithm for obstacle avoidance test the preciseness of data send from the sensor
  • Test the accuracy of check-points from the Bluetooth controller, location data from the Geocontroller sensor and Navigation Algorithm
  • Verify the correct response of each module.
Not Started
12 12/05/2017 12/11/2017
  • Check for tuning or calibration of components if required.
  • Complete end-to-end testing for various scenarios and conditions.
Not Started
14 12/20/2017

FINAL PROJECT DEMO

Not Started
14 12/20/2017

PROJECT REPORT SUBMISSION

Not Started

Parts List & Cost

Item # Description Distributor Qty Cost
1 SJOne Board Provided by Preet 5 $400
2 RC Car - Traxxas 1/10 Slash 2WD Amazon 1 $189.95
3 Bluetooth Bee BLE 4.0 Module ebay 1 $15
4 GPS Module Amazon 1 $28.99
5 Compass (CMPS11) Acroname 1 $45.95
6 Traxxas 6520 RPM Sensor Amazon 1 $10.82
7 Traxxas 2991 LiPo Battery and Charger Amazon 1 $199.95
8 Breadboard Jumper Wires Amazon 1 $6.99
9 MIFFLIN Acrylic Plexiglass Clear Plastic Sheet Amazon 1 $9.89
10 Printed Circuit Board Amazon 1 $16.83
11 PCB Mounting Feet Set Amazon 1 $11.99
12 Traxxas 6538 Telemetry Trigger Magnet Holder Amazon 1 $4.63
13 MB1240 XL-MaxSonar EZ4 Ultrasonic Sensor Amazon 2 $73.90
14 Parallax Ping Ultrasonic Range Sensor Amazon 2 $69.98
15 CAN Transceiver Microchip 10 $10.00
16 4D systems 32u LCD 4D Systems 1 $79.00

Design & Implementation

The design section can go over your hardware and software design. Organize this section using sub-sections that go over your design and implementation.

Hardware Design

Discuss your hardware design here. Show detailed schematics, and the interface here.

Hardware Interface

In this section, you can describe how your hardware communicates, such as which BUSes used. You can discuss your driver implementation here, such that the Software Design section is isolated to talk about high level workings rather than inner working of your project.

Software Design

Show your software design. For example, if you are designing an MP3 Player, show the tasks that you are using, and what they are doing at a high level. Do not show the details of the code. For example, do not show exact code, but you may show psuedocode and fragments of code. Keep in mind that you are showing DESIGN of your software, not the inner workings of it.

Implementation

This section includes implementation, but again, not the details, just the high level. For example, you can list the steps it takes to communicate over a sensor, or the steps needed to write a page of memory onto SPI Flash. You can include sub-sections for each of your component implementation.

Testing & Technical Challenges

Describe the challenges of your project. What advise would you give yourself or someone else if your project can be started from scratch again? Make a smooth transition to testing section and described what it took to test your project.

Include sub-sections that list out a problem and solution, such as:

<Bug/issue name>

Discuss the issue and resolution.

Conclusion

Conclude your project here. You can recap your testing and problems. You should address the "so what" part here to indicate what you ultimately learnt from this project. How has this project increased your knowledge?

Project Video

Upload a video of your project and post the link here.

Project Source Code

References

Acknowledgement

Any acknowledgement that you may wish to provide can be included here.

References Used

List any references used in project.

Appendix

You can list the references you used.