¶ Lab User Manual for RZ/V2L Vision AI Platform
¶ ℹ️ Introduction
EU121 is an Al computer vision demo focused on car tracking systems. The project aims to demonstrate a realistic simulation setup for car tracking by utilizing a rotating disk with a toy car system, using the principles of the 'Triangle Proportionality Theorem'. By employing this theorem, the simulation system can accurately determine the actual speed of the car. This setup allows users to conduct experiments and gain practical experience with the car tracking system
¶ 💡 Key Features
- Entry-Level Dual-Core ARM Cortex A-55 MPU – Ensures reliable processing power.
- Dedicated High-Speed HW AI Inference (DRP-AI) – Enhances AI performance for real-time applications.
- Wireless IoT Connectivity – Includes Wi-Fi, BLE, and LTE Cat-M1 for seamless communication.
- SMARC 2.1 Standard Compliance – Ensures compatibility with embedded computing standards.
¶ 📋 Practical Applications and Use Cases
- Vision applications
- Smart camera sensors
- Embedded, mobile mesh networks
- Scalable industrial-embedded computers
¶ 📋 Setup Description
- The setup comprises of EU121 Kit connected to SBC with USB. EU121 Kit is Controlled by serial control through SBC.
- A simulation environment as rotating disk connected with DC motor driver to simulate the motion of car.
- A rpm counter to measure the rotation of the disk.
- The user can connect to the EU121 device by pressing the “Connect” button.
- The user can control the ”speed” of the traffic simulation disc.
- The user can “SIMULATION START / SIMULATION STOP” of the Traffic simulation disc.
- User can control IRIDA LABS application CHART ZOOM-IN / CHART ZOOM-OUT.
¶ 📋Test Setup Considerations
The EU121 AI computer vision demo focuses on car tracking systems. It aims to create a realistic simulation setup by incorporating a rotating disk and a toy car system. The experiment is based on the Triangle Proportionality Theorem, allowing users to determine the car’s actual speed with high accuracy. This setup enables hands-on learning and experimentation with car tracking technology.
¶ 📝 Steps to Evaluate the Design
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¶ 📑 Frequently Ask Questions
1. How does the simulation disk work?
The rotating simulation disk replicates car movement in a controlled environment, using mathematical models like the Triangle Proportionality Theorem to calculate speed and position.
2. What kind of AI applications can be deployed on RZ/V2L?
- Traffic analytics and monitoring.
- Industrial QA systems (e.g., packaging integrity).
- Smart city applications like people counting and license plate recognition.
3. What is the role of IRIDA LABS in this setup?
IRIDA LABS provides visualization tools like chart zooming to analyze simulation data and logs in detail.
4. What is the primary function of the RZ/V2L platform?
It provides a scalable Vision AI solution for real-time traffic monitoring and industrial AI applications.
5. What is DRP-AI?
The DRP-AI (Dynamically Reconfigurable Processor for AI) enables high-speed, energy-efficient AI inference.
¶ 🔗Reference Links
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RZ/V2L Eval kit link: Click here
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IRIDA Labs Platform : Click here
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PerCV.ai Product brief: Click here