The aim of the project is to be able to transfer data using LEDs. The technique is called Li-Fi technology.
Version 1 -> Audio Transmission using Li-Fi -> Circuits: Phone Circuit as Transmitter, Speaker circuit as Receiver -> Components: 3.5 mm audio jack, Breadboard, Wires, Cables: Male to Male and Male to female, 100 ohm and 1Kohm resistors, Alligator clips, 9V battery -> 6V solar cell, Speaker with 3.5 mm audio In, 2 way 3.5 mm jack -> Setup as in the circuits -> Audio transmitted successfully
Version 1 released!!
Version 2 -> Including Arduino UNO ATMEGA32 in the project
-> Completed Connection of Arduino with LEDs
-> Completed Connection of Arduino with LDR
-> Successfully blinked LEDs
-> Successfully transmitted a single data
-> Sucessfully blinked LEDs via transmission of data from contents of a text file on disk
-> Used processing3.1.1 (Used Java code here) with Arduino to transmit data
Version 3 ## Final Stage of Project ### ### Aim is to be able to transfer any kind of data ### -> USB to LED Data transmision problem solved. -> Successfully completed Receiver end of the Li-Fi ( modifying cyhex's flashCom) -> Suceessfully completed Hardware setup of the Transceiver - Receiver -> Testing of Data transmission data using light and receiving it ; Successfully
### Sorted the Versions Groupwise into separate folders; LiFi Audio Transmission, LiFi textReader, LiFi UDTR(Universal Data Transmision & Receiving)
### To modify: Transmission end to send controlled data by blinking of LEDs
### To modify; Hardware setup to display received data in human-readable format..
--> Connect A5(Input of Arduino) to GND of the solar cell..
--> Connect PWR of solar cell to GND of Arduino board..
Debugging the decoder fault