F17: Viserion
Contents
Viserion Team RC Car
Abstract
Aim of this project is to build a self-navigating car. The car is divided into five modules. Each module consists of SJ One board as the main controller. The different modules in the car are master, sensors, geo, motor and bluetooth module. The car uses CAN communication protocol for communication between the modules.
The five modules of the car are :
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. Destination coordinates are provided by this module. The bluetooth module also displays important data like sensor readings, GPS coordinates and speed.
Master Controller: This module will collect data from all modules and direct the motor towards the destination.
Objectives & Introduction
Objectives
The objectives are as follows:
1.To detect and avoid obstacles encountered in the path.
2.To move at an appropriate speed depending upon the path requirement.
3.To use Bluetooth module to start/stop the car and display important data on the LCD.
4.To integrate gps and compass to make sure that the car navigates from source to destination.
5.To efficiently establish communication between all the modules using CAN protocol.
6.To reach a destination given by the Bluetooth module autonomously for a valid path.
System Block Diagram
Team Members & Responsibilities
Master Controller
- Aakash Menon
- Omkar Kale
Geographical Controller
- Ajinkya Mandhre
- Aniket Dali
- Jean Madassery
Sensor Controller
MOTOR & I/O CONTROLLER
- Manoj Ramesh Rao
- Pratap Ramachandran
BLUETOOTH CONTROLLER & ANDROID APP
- Dheemanth Bangalore Vishwanatha
- Pratap Kishore Desai
Schedule
Show a simple table or figures that show your scheduled as planned before you started working on the project. Then in another table column, write down the actual schedule so that readers can see the planned vs. actual goals. The point of the schedule is for readers to assess how to pace themselves if they are doing a similar project.
Legend: Motor & I/O Controller , Master Controller , Communication Bridge Controller, Geographical Controller, Sensor Controller , Team Goal , Team PCB, , Team Android
Week# | Start Date | End Date | Task | Actual Completion Date / Notes | Status |
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1 | 10/09/2017 | 10/15/2017 |
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Done | |
2 | 10/16/2017 | 10/22/2017 |
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Done on time except
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3 | 10/23/2017 | 29/10/2017 |
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Done on time except
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4 | 10/30/2017 | 11/05/2017 |
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Done on time | |
5 | 11/06/2017 | 11/12/2017 |
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6 | 11/13/2017 | 11/19/2017 |
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7 | 11/20/2017 | 11/25/2017 |
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8 | 11/26/2017 | 12/01/2017 |
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9 | 12/03/2017 | 12/08/2017 |
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10 | 12/10/2017 | 12/12/2017 |
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11 | 12/13/2017 | 12/16/2017 |
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12 | 12/17/2017 | 12/19/2017 |
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13 | 12/20/2017 |
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Parts List & Cost
Item# | Part Desciption | Vendor | Qty | Cost |
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1 | RC Car - Traxxas 1/10 Slash 2WD | Amazon | 1 | $189.95 |
2 | Battery - Traxxas 7600mAh 7.4V 2-Cell 25C LiPo Battery | Amazon | 2 | $143.26 |
3 | Charger - Traxxas 2970 EZ-Peak Plus 4-Amp NiMH/LiPo Fast Charger | Amazon | 1 | $49.95 |
4 | GPS - Readytosky Ublox NEO-M8N GPS Module | Amazon | 1 | $29.98 |
5 | Bluetooth Module HC-05 | Amazon | 1 | $8.99 |
6 | IMU SparkFun 9DoF Razor IMU M0 | SparkFun | 1 | $49.95 |
7 | LV Maxsonar EZ0 Ultrasonic sensors | Robotshop | 6 | $158.7 |
8 | RPM Sensor - Traxxas 6520 RPM Sensor | Amazon | 1 | $10.25 |
9 | Jumper Wires | Amazon | 1 | $10 |
10 | Acrylic Board MIFFLIN Acrylic Plexiglass 12 x 12 | Amazon | 1 | $11 |
11 | CAN tranceivers | Microchip Samples | 30 | Free |
12 | SJOne Boards | Provided by Preet | 5 | $400.0 |
Design & Implementation
Motor and I/O Controller
The motor controller is responsible for the steering and controlling the speed of the car. Both direction and speed of the car is controlled using the duty cycle of PWM signal. The speed of the car can be controlled by sending appropriate signals to the ESC connected to the DC motor of the car.
Hardware Design
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Hardware Interface
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DC Motor
ESC
Servo
RPM Sensor
Software Design
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Steering Control
Speed Control
Consistent speed based on feedback
The design section can go over your hardware and software design. Organize this section using sub-sections that go over your design and implementation.
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
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<Bug/issue name>
Discuss the issue and resolution.
Conclusion
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Project Video
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Project Source Code
References
Acknowledgement
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References Used
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Appendix
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