Tracking AI Car Combination Training Set

About Feature Technical Parameter Basic Configuration

The smart car set takes autonomous driving as an example and simulates real driving scenarios through programming, such as straight roads, curves, crosswalks, road signs, tunnels, pedestrians, etc. The hardware uses Arduino and Android dual systems, supports scratch programming, and is combined with related intelligent hardware. It is equipped with courses related to artificial intelligence vision processing and machine learning tools, allowing students to understand machine vision, master the basic knowledge of smart car learning, and become obsessed with machine vision.

Equipped with tracking AI car combination training software, including course training projects.

Applicable courses:

1. Automotive intelligent sensing technology;

2. Vehicle network technology;

3. Basic automotive intelligent network technology;

4. C language programming;

5. Python basics.

Technical parameter requirements for smart car ECU control platform:
1. Operating platform: Arduino MEGA2560/ Intel® Movidius Myriad X;
2. Computing capability: 1Tops (FP16);
3. Working voltage: 5-9V;
4. Power supply method: 7.4V high-rate lithium battery;
5. Typical power consumption: 5W;
6. Working time: about 60min (maximum power consumption);

7. Working temperature: -20~60℃;

8. Working humidity: 0%~90%;
9. Main appearance color: black, blue, and red;
10. Module characteristics: ABS environmentally friendly hexahedral small module;
11. Battery capacity: >2000mAh;
12. Standby time: >40 hours;
13. Programming platform: windows 10 or above;
14. Programming method: Scratch/Arduino;
15. Learning platform: visionseed@win10;

2. Technical requirements for smart car control host:
2.1 input port*4;
2.2 1.3-inch OLED screen;
2.3 Motor port*4;
2.4 Buttons*4;
2.5 output port*4;
2.6 Reset button*1

3. Smart car hardware driver board connection interface technical requirements:
3.1 Ports 1-3 of the driver board are output ports, which can be connected to output sensors, such as LED lights;
3.2 Port 4 of the driver board is a special port connected to the VS visual processing module;
3.3 Ports 5-8 of the driver board are input ports and can be connected to input sensors, such as ultrasonic, photosensitive, infrared, rain sensors, etc.;
3.4 Ports 5-6 of the driver board are special ports, and the color sensor, acceleration sensor and line tracking board can be connected to any port;
3.5 Ports 9-12 of the driver board are motor ports, and the motor can be connected to any port;
3.6 Port 10.12 of the driver board is a special port that can be connected to either a DC motor or an encoding motor.

Basic configuration requirements for smart cars:
Supporting course resources, control host, hardware connection driver board, DC motor, encoding motor, RGB light, VS visual module, ultrasonic sensor, photosensitive sensor, infrared sensor, rain sensor, color sensor, acceleration sensor, line tracking board, various types intermediate connecting plate, etc.;