Wi-Fi(wireless fidelity) and Li-Fi(light fidelity) are two different technologies that are used to send and receive data wirelessly. In the case of Wi-Fi, we use Routers and Radio Frequency (RF) waves to transmit data, whereas in Li-Fi we use LED bulbs and Light signals to transmit and receive data.
What is WiFi?
Wireless fidelity, or wifi, is a wireless networking technique. It connects to networks and offers wireless internet using the IEEE 802.11 standard. Since cable requires installation and deployment on every computer to give an Internet connection, WiFi is more widely used because it offers a wireless connection.
Without the need for wires or cables, it functions similarly to a local area network. Wi-Fi is available on many modern computing products, including digital cameras, smart TVs, laptops, and cell phones.
Advantages of WiFi
- Enhanced effectiveness: Faster information transfer occurs between partners and customers as well as within firms when data connections are improved. While on a sales call, salespeople can, for instance, remotely verify prices and stock levels.
- Savings on costs: Installing wireless networks can be less expensive and easier, particularly in buildings that are listed or in situations where the landlord won’t let wires be installed.
- Fresh possibilities: Using wireless networking might enable you to provide new goods or services. For instance, ‘hot spot’ WiFi services have been implemented in a lot of train stations, hotels, cafes, restaurants, and airport departure lounges to enable mobile users to connect their devices to their ‘home’ workplaces while on the road.
- Availability and accessibility: You are rarely disconnected thanks to wireless technology, which enables communication while on the go and eliminates the need for additional cables or adapters to access office networks.
- Flexibility: While out from the office, office-based wireless workers can still be productive because they can network without occupying a separate computer. This may give rise to new working practices including working from home or having direct access to company data while at a customer’s location. Find out more about workers that do remote work.
Disadvantages of WiFi
- Security: It is especially important to secure your wireless systems since unauthorised people are more likely to assault wireless transmissions.
- Installation issues: If there are additional sources of electromagnetic (radio) interference or if other people in the same building utilise wireless equipment, you can experience interference. In severe circumstances, this can result in a total loss of wireless connectivity or inadequate communication.
- Reportage: It might be challenging to provide reliable coverage in some buildings, which can result in “black spots” where the signal is unavailable. For instance, it could be challenging for you to hear the radio frequencies utilised in buildings constructed with steel reinforcing components.
- Transfer rates: Compared to ‘wired’ networks, wireless transmission can be less effective and slower.
What is LiFi?
Lifi, which stands for Light Fidelity, transfers and receives data via light signals and LED bulbs. Light has been used as an illumination source in homes, offices, and other spaces for a number of decades. But in the modern day, LEDs are utilised for communication in addition to lighting. LEDs are now capable of serving as a wireless communication link to access the World Wide Web from a computer or smart device.
Advantages of LiFi
- Bandwidth and Speed: LiFi is able to provide mobile devices with several Gbps speeds. By pushing wireless technology beyond its present limits, this next generation technology will create previously unheard-of bandwidth.
- Security of a Military Kind: Within a physical place, light can be secured and contained. Since LiFi provides accurate localization for asset monitoring and user authentication, it allows for much more control.
- No Congestion: Unlike WiFi and other RF technologies, LiFi is not affected by congestion or the negative consequences of multiuser degradation.
- Reliable: LiFi offers improved stability that makes it possible to communicate without interference and 1000 times more data density, which significantly enhances user experience.
- Minimal Latency: Presently, LiFi provides three times less latency than Wi-Fi and has the potential to significantly boost automation, creativity, and applications like augmented and virtual reality.
Disadvantages of LiFi
- Only in areas with available source light may one use the internet. Furthermore, light can only travel in a straight line of sight path and cannot pass through walls. This restricts internet access wherever it is needed. Its range is also constrained.
- It cannot be used in an outdoor setting where RF signals are present. This is a result of interference from surrounding optical sources and sunlight. Furthermore, if it is used outside, it may be intercepted by unauthorised individuals.
- Even though it is easy to install, a Lifi system needs a completely new infrastructure. This will increase the cost for businesses or individuals wishing to use LiFi Internet service.
- Lights must be kept on day and night in order to use wifi internet services, even if it uses little power.
Difference Between LiFi and WiFi
| Comparison | Li-Fi | Wi-Fi |
|---|---|---|
| Full form | It stands for Light Fidelity. | It stands for Wireless Fidelity. |
| Invented/Coined | Coined by Prof. Harald Haas in 2011. | By NCR corporation in 1991. |
| Operation | Using LED bulbs, it uses light to communicate data. | It transmits data using radio waves using wifi router. |
| Technology | Present IrDA compliant devices | WLAN 802.11/b/g/n/ac/d standard compliant devices |
| Data Transfer Speed | About 1 Gbps | Ranges from 150Mbps to maximum of 2Gbps |
| Standard | IEEE 802.15.7 | IEEE 802.11 |
| Privacy | Light is blocked by the walls hence provide more secure data transfer. | Walls cannot block radio waves so we need to employ more techniques to achieve secure data transfer. |
| Bandwidth | Availability of unlimited bandwidth. | Availability of limited bandwidth. |
| Frequency of operation | 10,000 times the radio’s frequency spectrum | 2.4Ghz, 4.9Ghz and 5Ghz |
| Coverage Distance | About 10 meters | About 32 meters(vary based on transmit power and antenna type) |
| Power Consumption | Power Consumption is Low. | Power Consumption is High. |
| Data density | Work with the high dense environment | Work in a less dense environment due to interference-related issues. |
| Cost | Low | High |
| Bare minimum Components used | LED bulb, LED driver and photo detector | Routers, Modems and access points |
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| Applications | Used in airlines, undersea exploration etc. | Used for internet browsing with the help of Wifi hotspot. |
| Broadcast | Li-Fi uses visible light with special chips and sensors to broadcast its signal | WIFI uses radio waves to broadcast its signal. |
Frequently Asked Question on WiFi and LiFi – FAQs
What is WiFi?
Wireless fidelity, or wifi, is a wireless networking technique. It connects to networks and offers wireless internet using the IEEE 802.11 standard. Since cable requires installation and deployment on every computer to give an Internet connection, WiFi is more widely used because it offers a wireless connection.
What is LiFi?
Lifi, which stands for Light Fidelity, transfers and receives data via light signals and LED bulbs. Light has been used as an illumination source in homes, offices, and other spaces for a number of decades.
What is the range of WiFi?
The frequency, transmission power, kind of antenna, location, and environment all affect how far a Wi-Fi network can go. A standard 802.11n wireless router with a stock antenna used in an indoor point-to-multipoint configuration may have a range of no more than 50 metres (160 feet).
What is dual-band WiFi?
A dual-band router, as you may have figured by now, uses two separate frequency bands for your broadband connection. The bands at 2.4 GHz and 5 GHz. These dual-band routers now provide you two distinct bands, giving you a great deal of freedom.
Can LiFi and WiFi be used together?
Bringing WiFi and LiFi together is a workable solution for problems with pure LiFi. A hybrid WiFi/LiFi network combines WiFi’s broad coverage area with LiFi’s quick data transfer. As a result, hybrid WiFi and Bluetooth can help offset the drawbacks of each of these technologies.