Description
Li-Fi (Light Fidelity) is a cutting-edge technology that utilizes visible light for wireless data transmission, offering advantages such as high-speed communication, enhanced security, and reduced electromagnetic interference. This project explores the implementation of Li-Fi using Arduino, where LEDs serve as transmitters and light sensors like LDRs or photodiodes act as receivers. The system encodes data into light pulses, which are transmitted and decoded to demonstrate the feasibility of Li-Fi for secure and efficient communication. By leveraging Arduino’s simplicity and versatility, this project aims to showcase the potential applications of Li-Fi in areas like IoT, secure communication, and educational experiments.
Li-Fi (Light Fidelity) is a cutting-edge technology that utilizes visible light for wireless data transmission, offering advantages such as high-speed communication, enhanced security, and reduced electromagnetic interference. This project explores the implementation of Li-Fi using Arduino, where LEDs serve as transmitters and light sensors like LDRs or photodiodes act as receivers. The system encodes data into light pulses, which are transmitted and decoded to demonstrate the feasibility of Li-Fi for secure and efficient communication. By leveraging Arduino’s simplicity and versatility, this project aims to showcase the potential applications of Li-Fi in areas like IoT, secure communication, and educational experiments.
HIGHLIGHTS
- Develop a functional Li-Fi systemEnhance understanding of Li-Fi technologyPromote innovationProvide practical insights
BLOCK DIAGRAM
HARDWARE REQUIREMENTS
- Arduino uno
- Transformer
- Diodes
- Voltage Regulator
- LCD
- Resistors
- Capacitors
- LEDs
- Switches
- LDR Sensor
- LI-FI module
SOFTWARE REQUIREMENTS
- Arduino
- Languages: Embedded
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