WiFi in brief
WiFi, an acronym for Wireless Fidelity, is a technology for transmitting data via radio waves. It goes without saying that WiFi has radically changed the concept of Internet connection by allowing its users to free themselves from the constraints of a wired connection. However, it has some major drawbacks inherent to its operation. First of all, WiFi, because of its large range, is a very vulnerable solution to hacking. Indeed, anyone located within the radius of the radio waves emitted by a WiFi device can undertake to hack the data circulating on it. Although there are passwords and other more or less sophisticated means of protection, the damage caused by cybercrime throughout history has proven that they are far from infallible. Secondly, the use of radio waves regularly leads to interference that results in signal drops or losses, a phenomenon that tends to increase with the constant increase in the number of connected objects. The interference caused by radio waves also makes WiFi unsuitable for certain sectors, such as aeronautics. Moreover, the impact of such exposure to radio waves on health raises questions and concerns, without any conclusive answer.
LiFi in brief
LiFi operates on visible light, the optical part of the electromagnetic spectrum. The result of years of extensive research, LiFi can now generate a high-speed internet connection of up to 1 Gb/s, equivalent to the fastest fiber optic offerings. LiFi connectivity is made possible by the imperceptible pulsation of a beam of light emitted by an LED bulb located in the transmitting device (Access Point), captured by a receiving device plugged into the connected device (Dongle). Unlike WiFi, LiFi offers absolute security of the transmitted data, because their circulation is limited exclusively to the coverage area of the light beam(s), and the information can therefore never cross walls. Beyond the cybersecurity issues, LiFi allows for uniform Internet coverage in its broadcast room. In practice, in a 32-student classroom with only two access points, each student can enjoy a super-fast, latency-free connection, even if they are surfing at the same time as everyone else. In addition, LiFi works entirely without radio waves. It does not interfere with WiFi, 4G or 5G, or even with the equipment on board the aircraft. This is how Oledcomm was able to equip an Air France plane with high-speed internet in 2019 thanks to LiFi. The absence of radio frequency waves also means that LiFi is not harmful to health. Its application in schools, day-care centers and hospitals will therefore make it possible to offer young people in development and fragile people an optimal Internet connection without danger to their health.
Towards the connectivity of tomorrow
If LiFi and WiFi both have similar qualities and purposes, their differences should make us wonder about the future of the Internet connection. But this is not a David and Goliath confrontation. The real challenge of the emergence of LiFi is not to replace one technology by another. It is above all about extending the field of possibilities in the field of telecommunications, about redesigning tomorrow’s Internet connection by pushing back the limits of current technologies without giving up their advantages. A healthier, safer, more economical and more ecological future: this is what the development of LiFi promises around the world.