Difference between revisions of "Pi Car Discovery"
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== Project Overview == | == Project Overview == | ||
Nowadays, as the fast development of technology, artificial intelligence becomes highly valued and popular. High-tech company such as Tesla has developed self-driving technology; Google has invented its instant translation machine; Apple has siris, etc. With all the excitement and hype of A.I, our group decided to study and explore the Raspberry Pi Car. We will build a model car and use Raspberry Pi to navigate through certain trails. | Nowadays, as the fast development of technology, artificial intelligence becomes highly valued and popular. High-tech company such as Tesla has developed self-driving technology; Google has invented its instant translation machine; Apple has siris, etc. With all the excitement and hype of A.I, our group decided to study and explore the Raspberry Pi Car. We will build a model car and use Raspberry Pi to navigate through certain trails. | ||
| − | |||
== Project Proposal == | == Project Proposal == | ||
| Line 19: | Line 18: | ||
== Objectives == | == Objectives == | ||
* Build a pi car | * Build a pi car | ||
| − | * | + | * Connect the car with Raspberry Pi wirelessly |
| − | * | + | * Interface the Raspberry Pi and Arduino with sensors and actuators |
| + | * Enable the car to move | ||
| + | * Navigate the car by following certain trails | ||
* Install Night Light into the car | * Install Night Light into the car | ||
* Honk the horn when the car detecting barriers at the front | * Honk the horn when the car detecting barriers at the front | ||
== Challenges == | == Challenges == | ||
| − | * | + | * Learn how to use Raspberry Pi and how Pi interact with each electronical component |
| − | * | + | * Code with Python. |
| + | * Understand the meaning of the code in software section | ||
| + | * Learn CAD and figure out how to 3D print accessories for Pi Car | ||
== Budgets == | == Budgets == | ||
| + | 1. Buggy | ||
| + | 2. Encoder | ||
| + | 3. Raspberry Pi | ||
| + | 4. 32GB MicroSD Card | ||
| + | 5. IMU 9DoF Senor Stick | ||
| + | 6. Raspberry Pi Camera Module V2 | ||
| + | 7. Brushed ESC Motor Speed Controller | ||
| + | 8. TowerPro SG90 Micro Servo | ||
| + | 9. TFMini- Micro LiDAR Module | ||
| + | 10. Current Sensors | ||
== Gantt Chart == | == Gantt Chart == | ||
Revision as of 16:00, 18 September 2018
Contents
Project Overview
Nowadays, as the fast development of technology, artificial intelligence becomes highly valued and popular. High-tech company such as Tesla has developed self-driving technology; Google has invented its instant translation machine; Apple has siris, etc. With all the excitement and hype of A.I, our group decided to study and explore the Raspberry Pi Car. We will build a model car and use Raspberry Pi to navigate through certain trails.
Project Proposal
The goal of this project is to.......
[Presentation Link for Friday]
Team Members
Yinghan Ma (James) Jiaqi Li (George) Zhimeng Gou (Zimon) David Tekien (TA) Jim Feher (instructor)
Objectives
- Build a pi car
- Connect the car with Raspberry Pi wirelessly
- Interface the Raspberry Pi and Arduino with sensors and actuators
- Enable the car to move
- Navigate the car by following certain trails
- Install Night Light into the car
- Honk the horn when the car detecting barriers at the front
Challenges
- Learn how to use Raspberry Pi and how Pi interact with each electronical component
- Code with Python.
- Understand the meaning of the code in software section
- Learn CAD and figure out how to 3D print accessories for Pi Car
Budgets
1. Buggy 2. Encoder 3. Raspberry Pi 4. 32GB MicroSD Card 5. IMU 9DoF Senor Stick 6. Raspberry Pi Camera Module V2 7. Brushed ESC Motor Speed Controller 8. TowerPro SG90 Micro Servo 9. TFMini- Micro LiDAR Module 10. Current Sensors
