Li Fi Rewind 2020

2020 was yet another year of great developments and advancements for Li-Fi industry. The technology is getting cheaper and better every year. The following timeline displays the main events that took place in regards to Li-Fi.

What is Li-Fi?

Li-Fi, also known as "Light Fidelity" is a wireless optical networking technology, which uses light-emitting diodes (LEDs) to transmit data. In 2011, professor Harald Haas made a Li-Fi demonstration at the TED (Technology, Entertainment, Design) Global Talk on Visible Light Communication (VLC):

VLC uses light as a medium to deliver high-speed communication like Wi-Fi and complies with the IEEE standard IEEE 802.15.7. The IEEE 802.15.7 is a high-speed, bidirectional, and fully networked wireless communication technology-based standard similar to Wi-Fi's IEEE 802.11.

How does Li-Fi work?

Li-Fi is a high speed, bidirectional, and fully networked wireless communication of data using light. Li-Fi constitutes of several light bulbs that form a wireless network.

When an electrical current goes through to a LED light bulb, a stream of light (photons) emits from the lamp. LED bulbs are semiconductor devices, which means that the brightness of the light flowing through them can change at extremely high speeds. The signal is sent by modulating the light at different rates. The signal can then be received by a detector which interprets the changes in light intensity (the signal) as data. Also when the LED is ON, you transmit a digital 1, and when it is OFF, you transmit a 0.

Li-Fi Benefits

The primary benefits of Li Fi are as follows:

• Security: Provides entirely secure access. Where there is no light there is no data.

• Safety: Does not produce electromagnetic radiation and does not interfere with existing electronic systems.

• Localisation: Allows localisation due to small coverage area of Li-Fi access point - localisation can be used for very precise asset tracking.

• Data density: Provides ubiquitous high-speed wireless access that offers substantially greater data density (data rate per unit area) than RF through high bandwidth reuse.

In conclusion, if you are also interested to hear more information about the OWNII Coin, investing in it, or to enquire about Li-Fi devices, you can contact our chatbot or send an email through our contact us form. If you enjoyed this post and would like to hear more updates about Li-Fi technology, subscribe to our newsletter. Don’t forget to subscribe to our social media accounts. You can also join on our Telegram group about Li-Fi technology on this link:

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Pilot Installation of a Li Fi system by Fraunhofer HHI at a vocational school in Main-Kinzig-Kreis

Fraunhofer HHI

The Fraunhofer Institute for Telecommunications, Heinrich Hertz Institute, HHI, also known as Fraunhofer HHI or Fraunhofer Heinrich Hertz Institute, is an organisation of the Fraunhofer Society based in Berlin. The institute engages in applied research and development in the fields of physics, electrical engineering and computer sciences.

The Fraunhofer HHI team deployed the LiFi system in a classroom at a vocational school in the State of Hesse to test the technology in a real-life application scenario. In this process, user experience will be analysed and reviewed to further improve the system. The Main-Kinzig district wants to take on a pioneering role in the evaluation of LiFi and research about the practical advantages of the new technology compared with conventional wireless solutions. They also want to play an active role in advancing the digitisation of schools.

LiFi can enable fast data transmission and communication with peak data rates of up to 1Gbit/s. The LiFi modules come with an USB interface and are therefore compatible with common end-user devices. "This project is an important milestone for us to demonstrate the great potential of this unique technology for mobile communication,” said Dr.-Ing. Dominic Schulz, project manager at Fraunhofer HHI. “It will also help us to further increase the degree of technological maturity."

What is Li-Fi?

Li-Fi, also known as "Light Fidelity" is a wireless optical networking technology, which uses light-emitting diodes (LEDs) to transmit data. In 2011, professor Harald Haas made a Li-Fi demonstration at the TED (Technology, Entertainment, Design) Global Talk on Visible Light Communication (VLC):

VLC uses light as a medium to deliver high-speed communication like Wi-Fi and complies with the IEEE standard IEEE 802.15.7. The IEEE 802.15.7 is a high-speed, bidirectional, and fully networked wireless communication technology-based standard similar to Wi-Fi's IEEE 802.11.

How does Li-Fi work?

Li-Fi is a high speed, bidirectional, and fully networked wireless communication of data using light. Li-Fi constitutes of several light bulbs that form a wireless network.

When an electrical current goes through to a LED light bulb, a stream of light (photons) emits from the lamp. LED bulbs are semiconductor devices, which means that the brightness of the light flowing through them can change at extremely high speeds. The signal is sent by modulating the light at different rates. The signal can then be received by a detector which interprets the changes in light intensity (the signal) as data. Also when the LED is ON, you transmit a digital 1, and when it is OFF, you transmit a 0.

Li-Fi Benefits

The primary benefits of Li Fi are as follows:

• Security: Provides entirely secure access. Where there is no light there is no data.

• Safety: Does not produce electromagnetic radiation and does not interfere with existing electronic systems.

• Localisation: Allows localisation due to small coverage area of Li-Fi access point - localisation can be used for very precise asset tracking.

• Data density: Provides ubiquitous high-speed wireless access that offers substantially greater data density (data rate per unit area) than RF through high bandwidth reuse.

In conclusion, if you are also interested to hear more information about the OWNII Coin, investing in it, or to enquire about Li-Fi devices, you can contact our chatbot or send an email through our contact us form. If you enjoyed this post and would like to hear more updates about Li-Fi technology, subscribe to our newsletter. Don’t forget to subscribe to our social media accounts. You can also join on our Telegram group about Li-Fi technology on this link:

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Getac Technology Corporation Announces the Integration of Li-Fi Technology to the Rugged Mobile Computing Market

Getac has announced that it is bringing integrated Li-Fi technology powered by pureLiFi to the rugged market for the first time. This means customers across a wide range of professional sectors will soon be able to enjoy the benefits of fully rugged reliability and innovative Li-Fi connectivity in a single device, unlocking a host of powerful new applications and use cases. In 2019, Getac made the announcement of its partnership with Li Fi leading company pureLiFi.

Since 1989, Getac has been manufacturing rugged computers for some of the most demanding users in some of the most demanding environments. As one of the leading rugged computer manufacturers, Getac offers the most extensive rugged computing product lines including notebooks, tablets and handheld computers. As one of the leading rugged computer providers, Getac offers extensive rugged computing product lines including laptops, tablets computers. Getac serves a wide range of vertical markets including military & defence, law enforcement, public safety, emergency services, utility, natural resources, oil and gas, telecommunications, transportation and industrial manufacturing.

Previously, users had to rely on a USB dongle plugged into the side of their device. This approach is highly vulnerable to even the slightest knock or drop, making it unviable in many working environments, such as those found in the defense, public safety, automotive, energy, and manufacturing sectors. With this announcement, users across these sectors will be able to buy a fully rugged solution with LiFi technology fully integrated into the device. The first Getac device to offer integrated LiFi capability will be the recently launched UX10 fully rugged tablet.

The Getac UX10 has been designed to deliver portable performance across a range of industries, including Industrial Manufacturing, Public Safety and Utility Services, in even the most demanding environments.

The UX10 seamlessly supports digital transformation, offering digital connectivity through BT, WiFi, and optional 4G LTE. An optional RS232 port can support legacy equipment. An optional RFID reader allows information feed-back into the management system. All these functionalities ensure the UX10 stays connected no matter whether outdoors or indoors.

In a world where devices need to work 24/7/365 power-up continuity is essential – in portable devices that means a focus on battery configuration. The UX10 offers a range of battery configurations and options, including an optional high capacity battery and an optional bridge battery that ensures a ‘hot swap’ capability.

What is Li-Fi?

Li-Fi, also known as "Light Fidelity" is a wireless optical networking technology, which uses light-emitting diodes (LEDs) to transmit data. In 2011, professor Harald Haas made a Li-Fi demonstration at the TED (Technology, Entertainment, Design) Global Talk on Visible Light Communication (VLC):

VLC uses light as a medium to deliver high-speed communication like Wi-Fi and complies with the IEEE standard IEEE 802.15.7. The IEEE 802.15.7 is a high-speed, bidirectional, and fully networked wireless communication technology-based standard similar to Wi-Fi's IEEE 802.11.

How does Li-Fi work?

Li-Fi is a high speed, bidirectional, and fully networked wireless communication of data using light. Li-Fi constitutes of several light bulbs that form a wireless network.

When an electrical current goes through to a LED light bulb, a stream of light (photons) emits from the lamp. LED bulbs are semiconductor devices, which means that the brightness of the light flowing through them can change at extremely high speeds. The signal is sent by modulating the light at different rates. The signal can then be received by a detector which interprets the changes in light intensity (the signal) as data. Also when the LED is ON, you transmit a digital 1, and when it is OFF, you transmit a 0.

Li-Fi Benefits

The primary benefits of Li Fi are as follows:

• Security: Provides entirely secure access. Where there is no light there is no data.

• Safety: Does not produce electromagnetic radiation and does not interfere with existing electronic systems.

• Localisation: Allows localisation due to small coverage area of Li-Fi access point - localisation can be used for very precise asset tracking.

• Data density: Provides ubiquitous high-speed wireless access that offers substantially greater data density (data rate per unit area) than RF through high bandwidth reuse.

In conclusion, if you are also interested to hear more information about the OWNII Coin, investing in it, or to enquire about Li-Fi devices, you can contact our chatbot or send an email through our contact us form. If you enjoyed this post and would like to hear more updates about Li-Fi technology, subscribe to our newsletter. Don’t forget to subscribe to our social media accounts. You can also join on our Telegram group about Li-Fi technology on this link:

https://t.me/joinchat/DcGyJRTMzpodEuCZa1OgHw

Spie and Oledcomm deploy LiFi technology in a high school in the Centre-Val de Loire region

Spie ICS, a digital services subsidiary of the SPIE Group, an independent European leader in multi-technical services in the fields of energy and communications, and the French start-up Oledcomm, a world leader in Li-Fi technology, have been selected by the Centre-Val de Loire region to set up, within a pilot high school, LiFi technology permitting students to connect to the Internet using light. More secure and more environmentally friendly, Li-Fi is a reliable and promising alternative to Wi-Fi.

SPIE ICS is one of the French leaders in IT Services. The subsidiary’s mission is to provide a complete range of services (consulting-engineering, facilities management and managed/cloud services) to meet the IT architecture challenges now facing companies. SPIE Communications works in the following sectors: Unified Communications and Collaboration, IP Infrastructures, Security, Data Centers and Smart Buildings.

Wishing to preserve equal access to digital technology for young people in rural areas, the Centre-Val de Loire Region wished to offer an innovative experiment in a first establishment, the Bernard Palissy high school in Gien, to deploy LiFi technology in a classroom. It chose the integrator SPIE ICS and its partner Oledcomm, a "made in France" supplier of LiFi technology, to adapt the equipment of the two pilot establishments and make them compatible with this alternative mode of communication.

"Very easy to use, Li-FI technology is superimposed on already existing equipment. Our mission was to adapt to the IT infrastructure and terminals to make the use of LiFi possible. This project immediately attracted the support of 'all of the establishment's teams ", explains Sébastien Lascombe, a business engineer at SPIE ICS, in charge of the project.

What is Li-Fi?

Li-Fi, also known as "Light Fidelity" is a wireless optical networking technology, which uses light-emitting diodes (LEDs) to transmit data. In 2011, professor Harald Haas made a Li-Fi demonstration at the TED (Technology, Entertainment, Design) Global Talk on Visible Light Communication (VLC):

VLC uses light as a medium to deliver high-speed communication like Wi-Fi and complies with the IEEE standard IEEE 802.15.7. The IEEE 802.15.7 is a high-speed, bidirectional, and fully networked wireless communication technology-based standard similar to Wi-Fi's IEEE 802.11.

How does Li-Fi work?

Li-Fi is a high speed, bidirectional, and fully networked wireless communication of data using light. Li-Fi constitutes of several light bulbs that form a wireless network.

When an electrical current goes through to a LED light bulb, a stream of light (photons) emits from the lamp. LED bulbs are semiconductor devices, which means that the brightness of the light flowing through them can change at extremely high speeds. The signal is sent by modulating the light at different rates. The signal can then be received by a detector which interprets the changes in light intensity (the signal) as data. Also when the LED is ON, you transmit a digital 1, and when it is OFF, you transmit a 0.

Li-Fi Benefits

The primary benefits of Li Fi are as follows:

• Security: Provides entirely secure access. Where there is no light there is no data.

• Safety: Does not produce electromagnetic radiation and does not interfere with existing electronic systems.

• Localisation: Allows localisation due to small coverage area of Li-Fi access point - localisation can be used for very precise asset tracking.

• Data density: Provides ubiquitous high-speed wireless access that offers substantially greater data density (data rate per unit area) than RF through high bandwidth reuse.

In conclusion, if you are also interested to hear more information about the OWNII Coin, investing in it, or to enquire about Li-Fi devices, you can contact our chatbot or send an email through our contact us form. If you enjoyed this post and would like to hear more updates about Li-Fi technology, subscribe to our newsletter. Don’t forget to subscribe to our social media accounts. You can also join on our Telegram group about Li-Fi technology on this link:

https://t.me/joinchat/DcGyJRTMzpodEuCZa1OgHw

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Infratel Italia launches a trial of Li-Fi at The National Archaeological Museum of Taranto (Marta)

Over a week ago, the Ministry of Economic Development made the announcement of a successful Li-Fi trial at the National Archaeological Museum of Taranto.  National Archaeological Museum of Taranto (Marta) is the first museum in Italy to use Li-Fi technology that allows fast and secure data transmission through LED light. A national record made possible thanks to the experimentation launched by Infratel Italia in collaboration with the start-up To Be and the Italian Videogames Academy (Aiv).

The “Li-Fi G1” solution developed and tested by Infratel thanks to the geolocation of information and users, allows the delivery of interactive multimedia contents, associated with the individual works on display, on the visitors' smartphones. The Li-Fi signal is decoded by the smartphone camera through a special app created by Infratel Italia and available on the main marketplaces.

In the continuation of the project, the introduction of technologies such as LiFi and AR / VR / Mixed Reality will make it possible to create and deliver puzzles and games, created by taking inspiration from images of works, artifacts or other contents present in the museum or inspired by the city of Taranto; drawings to colour and made taking inspiration from museum photographs, works, maps or images of finds; Static and dynamic storytelling with images and voices dramatized by actors, accompanied and synchronized with images of the museum or specially created.

CEO of Infratel Italia Marco Bellezza said that: “Through the project with the Marta we propose a model that can be applied to many Italian museums and places of culture, promoting a different and more interactive use of our historical and artistic heritage. We are very happy to leave Taranto for this project of national interest”.

The use of Li-Fi technology inside the museum - which currently houses 25 rooms for permanent exhibitions - aims to make the visitor experience as engaging as possible, accompanying the visitor through videos, touch media, images, recordings, Augmented and Virtual Reality, Mixed Reality technologies particularly appreciated by the new generations.

Eva Degl 'Innocenti, Director of the Museum  said: "The project, which sees the Marta as the first Italian museum to use Li-Fi technology, favours the widest accessibility to the cultural heritage, with the aim of making the museum visit as engaging as possible for the visitor. For this purpose, it was decided to introduce new technology to the Marta capable of making the multimedia contents associated with the works on display accessible, making them accessible to all with ad hoc content for the various visitor targets. The aim is to break down all types of barriers, allowing access to visitors with disabilities, such as deaf or blind people ".

What is Li-Fi?

Li-Fi, also known as "Light Fidelity" is a wireless optical networking technology, which uses light-emitting diodes (LEDs) to transmit data. In 2011, professor Harald Haas made a Li-Fi demonstration at the TED (Technology, Entertainment, Design) Global Talk on Visible Light Communication (VLC):

VLC uses light as a medium to deliver high-speed communication like Wi-Fi and complies with the IEEE standard IEEE 802.15.7. The IEEE 802.15.7 is a high-speed, bidirectional, and fully networked wireless communication technology-based standard similar to Wi-Fi's IEEE 802.11.

How does Li-Fi work?

Li-Fi is a high speed, bidirectional, and fully networked wireless communication of data using light. Li-Fi constitutes of several light bulbs that form a wireless network.

When an electrical current goes through to a LED light bulb, a stream of light (photons) emits from the lamp. LED bulbs are semiconductor devices, which means that the brightness of the light flowing through them can change at extremely high speeds. The signal is sent by modulating the light at different rates. The signal can then be received by a detector which interprets the changes in light intensity (the signal) as data. Also when the LED is ON, you transmit a digital 1, and when it is OFF, you transmit a 0.

In conclusion, if you are also interested to hear more information about the OWNII Coin, investing in it, or to enquire about Li-Fi devices, you can contact our chatbot or send an email through our contact us form. If you enjoyed this post and would like to hear more updates about Li-Fi technology, subscribe to our newsletter. Don’t forget to subscribe to our social media accounts. You can also join on our Telegram group about Li-Fi technology on this link:

https://t.me/joinchat/DcGyJRTMzpodEuCZa1OgHw

Light Rider announces Quantum Li-Fi Technology Products

Light Rider Inc

Light Rider Inc, a US-based quantum Li-Fi company, recently announced the unveiling of their quantum Li-Fi products coming up next year in 2021.  Light Rider states that they are a quantum Li-Fi company leveraging the supernatural behaviour of quantum physics for the creation of secure and unparalleled encryption products with their patented technology.

Light Rider is introducing four strategic product lines into the marketplace that will help individuals, businesses, cities, and governments prepare for the coming quantum revolution. Their four primary product lines cover everything from everyday encryption to connected cities, and it all starts with our first two encryption products, Light Rider LT and Light Rider Quantum coming up in late 2020.

“Traditional methods and technologies are full of vulnerabilities, so we created Light Rider to design and develop products that would enable the most secure network encryption possible,” said Tony Lawrence, CEO, and founder of Light Rider. “There is a global race to operationalise quantum technology, meaning those inflicting cyber threats will have access to this superior technology. Our mission at Light Rider is to equip businesses, organisations, and individuals with powerful, quantum Li-Fi technology that will protect their data, as we strive to create products that are un-hackable.

Light Rider’s first two products, Light Rider LT and Light Rider Quantum will be available in 2020 with more products on the way. Their LT and Quantum products are plug and play encryption systems that can protect your connected devices right out of the box. This first step is a quantum leap for those looking for a next-generation encryption system that can deliver unparalleled protection on the go.

Light Rider Products

The first two products, Light Rider LT and Light Rider Quantum will be the first quantum encryption products for individual users to hit the market.

Light Rider LT

Perfect for home and individual use, Light Rider LT uses quantum software to create the encrypted networking space you need. Simply plug in the Access Point into a USB port or wall outlet and then connect one of the USB Access Dongles to your laptop to begin. A quick start prompt will then guide you through configuring your Light Rider system. All you need to do is ensure that your laptop, Access Point, and Access Dongle are all in the same room and you’ll be set up in no time. Perfect for Home use and individuals.

Light Rider Quantum

Perfect for protecting the most vital of information for small, medium, or enterprise uses, Light Rider Quantum uses built-in quantum encryption via a quantum chip to create the encrypted networking space you need. Simply plug in the Access Point into a USB port or wall outlet and then connect one of the USB Access Dongles to your laptop to begin. A quick start prompt will then guide you through configuring your Light Rider system. All you need to do is ensure that your laptop, Access Point, and Access Dongle are all in the same room and you’ll be set up in no time. Perfect for offices, businesses, campuses

The difference between the LT and Quantum versions?

Light Rider has only just begun launching new quantum and quantum LiFi products into the market. Currently, the LT and Quantum products serve as quantum encryption systems for your computer and do not utilize LiFi for Internet connectivity. Future Light Rider products will actually create a quantum encrypted LiFi system with quantum-integrated light bulbs that will create a fortress of secure communications in your home or office. Our current product sets are focused on fast and simple quantum encryption right out of the box. The LT version uses quantum software for encryption, the Quantum version contains an actual quantum chip, the most secure encryption method available that leverages onboard processing capabilities for lightning-fast encryption.

You can preorder their first two products at the following link if you are based in the United States:

https://www.indiegogo.com/projects/light-rider-launch#/

What is Li-Fi?

Li-Fi, also known as "Light Fidelity" is a wireless optical networking technology, which uses light-emitting diodes (LEDs) to transmit data. In 2011, professor Harald Haas made a Li-Fi demonstration at the TED (Technology, Entertainment, Design) Global Talk on Visible Light Communication (VLC):

VLC uses light as a medium to deliver high-speed communication like Wi-Fi and complies with the IEEE standard IEEE 802.15.7. The IEEE 802.15.7 is a high-speed, bidirectional, and fully networked wireless communication technology-based standard similar to Wi-Fi's IEEE 802.11.

How does Li-Fi work?

Li-Fi is a high speed, bidirectional, and fully networked wireless communication of data using light. Li-Fi constitutes of several light bulbs that form a wireless network.

When an electrical current goes through to a LED light bulb, a stream of light (photons) emits from the lamp. LED bulbs are semiconductor devices, which means that the brightness of the light flowing through them can change at extremely high speeds. The signal is sent by modulating the light at different rates. The signal can then be received by a detector which interprets the changes in light intensity (the signal) as data. Also when the LED is ON, you transmit a digital 1, and when it is OFF, you transmit a 0.

In conclusion, if you are also interested to hear more information about the OWNII Coin, investing in it, or to enquire about Li-Fi devices, you can contact our chatbot or send an email through our contact us form. If you enjoyed this post and would like to hear more updates about Li-Fi technology, subscribe to our newsletter. Don’t forget to subscribe to our social media accounts. You can also join on our Telegram group about Li-Fi technology on this link:

https://t.me/joinchat/DcGyJRTMzpodEuCZa1OgHw

Fraunhofer HHI announces a new toolkit for the simulation of networked Li Fi systems

Fraunhofer HHI

The Fraunhofer Institute for Telecommunications, Heinrich Hertz Institute, HHI, also known as Fraunhofer HHI or Fraunhofer Heinrich Hertz Institute, is an organisation of the Fraunhofer Society based in Berlin. The institute engages in applied research and development in the fields of physics, electrical engineering and computer sciences.

The Fraunhofer Heinrich Hertz Institute develops mobile and stationary broadband communication networks and multimedia systems. Focal points of independent and contract research conducted by Fraunhofer HHI are photonic components and systems, fiber optic sensor systems, and image signal processing and transmission. Future applications for broadband networks are developed as well. Research in this area focuses on 3D displays, UHD panorama video production, human-machine interaction through gesture control, optical satellite communication and data transmission technologies such as visible light communications.

A research team from the "Photonic Networks and Systems" department has now created a new toolkit for the simulation of networked LiFi systems.

The research team's implementations are based on a long-term developed MATLAB signal processing toolbox with algorithms being verified by numerous simulations, laboratory experiments, and tests. The LiFi software suite can be used to complete link level simulation chains and to validate LiFi transmission and receive components.

When used for system-level (multilink) simulations, it is possible to optimise LiFi for different applications such as for conference rooms, operating rooms or industrial manufacturing environments. This also supports the further development of standards.

LiFi software suite components can be used individually or as a complete package and can be adapted to specific requirements. Different licensing models depending on individual customer needs are available.
The software was developed within the German research projects OWICELLS , SESAM, AIRBORNE, ERIKA and OTB-5G+ and the European projects VISION and ELIoT.

What is Li-Fi?

Li-Fi, also known as "Light Fidelity" is a wireless optical networking technology, which uses light-emitting diodes (LEDs) to transmit data. In 2011, professor Harald Haas made a Li-Fi demonstration at the TED (Technology, Entertainment, Design) Global Talk on Visible Light Communication (VLC):

VLC uses light as a medium to deliver high-speed communication like Wi-Fi and complies with the IEEE standard IEEE 802.15.7. The IEEE 802.15.7 is a high-speed, bidirectional, and fully networked wireless communication technology-based standard similar to Wi-Fi's IEEE 802.11.

How does Li-Fi work?

Li-Fi is a high speed, bidirectional, and fully networked wireless communication of data using light. Li-Fi constitutes of several light bulbs that form a wireless network.

When an electrical current goes through to a LED light bulb, a stream of light (photons) emits from the lamp. LED bulbs are semiconductor devices, which means that the brightness of the light flowing through them can change at extremely high speeds. The signal is sent by modulating the light at different rates. The signal can then be received by a detector which interprets the changes in light intensity (the signal) as data. Also when the LED is ON, you transmit a digital 1, and when it is OFF, you transmit a 0.

In conclusion, if you are also interested to hear more information about the OWNII Coin, investing in it or to enquire about Li Fi devices, you can contact our chatbot or send an email through our contact us form. If you enjoyed this post and would like to hear more updates about Li-Fi technology, subscribe to our newsletter. Don’t forget to subscribe to our social media accounts. You can also join on our Telegram group about Li-Fi technology on this link:

https://t.me/joinchat/DcGyJRTMzpodEuCZa1OgHw

Signify announces Li-Fi Partnership with Edzcom for quickening the adoption of Li-Fi Technology

Signify

Signify made the announcement on their website that they have partnered with Edzcom for spreading Li-Fi adoption in the manufacturing industry.

Signify is the new brand name of Philips Lighting. The name change occurred in March 2018 to represent the transformation from an analog lighting company into digital lighting and Internet of Things (IoT) company. Signify is the world leader in lighting for professionals, consumers, and lighting for the Internet of Things. The company provides lighting solutions for professional segments such as automotive, healthcare, horticulture, office, outdoor, phototherapy, petrol stations, solar, purification, schools, fashion, cinema, and more. These lighting solutions include indoor and outdoor luminaires, lamps, electronics, lighting controls, lighting control software, IoT systems, and platforms.

Signify that it has partnered with EDZCOM, a Finnish 4G and 5G networking company that will use Signify’s LED-based Trulifi system as part of wireless connectivity schemes in industrial settings.

“Combining Trulifi and EDZCOM’s strengths and capabilities will benefit industries that heavily rely on the cluttered radio spectrum for data communications,” said Signify chief innovation officer Olivia Qiu. “Trulifi can help to offload conventional radio technologies and offers reliable, secure, and high-speed network connectivity where it’s needed.”

Edzcom

Edzcom is a Finnish-based provider of private 4G LTE and 5G NR mobile data networks for the industrial and governmental sectors. It was founded in 2014 as a spiritual successor to the bankrupt company Datame (fi), formerly a CDMA2000 wireless broadband operator owned by 11 companies under the Finnet group of telephone cooperatives. Since summer 2016, Edzcom also provides coverage in the self-governing Åland Islands in partnership with Ålcom, which took a minority stake.

EDZCOM designs, builds, and operates Edge Connectivity solutions. Edge Connectivity is a private wireless solution, seamlessly connecting assets, equipment, and people in the field to enable efficient management of critical operations.

EDZCOM CEO Mikko Uusitalo said: “Signify’s Trulifi is an innovative form of wireless communication that will broaden the scope of business-critical operations solutions we offer to our global customer base”. “Trulifi complements EDZCOM’s offering by providing fast and secure fixed hot-spot communication links.”

What is Li-Fi?

Li-Fi, also known as "Light Fidelity" is a wireless optical networking technology, which uses light-emitting diodes (LEDs) to transmit data. In 2011, professor Harald Haas made a Li-Fi demonstration at the TED (Technology, Entertainment, Design) Global Talk on Visible Light Communication (VLC):

VLC uses light as a medium to deliver high-speed communication like Wi-Fi and complies with the IEEE standard IEEE 802.15.7. The IEEE 802.15.7 is a high-speed, bidirectional, and fully networked wireless communication technology-based standard similar to Wi-Fi's IEEE 802.11.

How does Li-Fi work?

Li-Fi is a high speed, bidirectional, and fully networked wireless communication of data using light. Li-Fi constitutes of several light bulbs that form a wireless network.

When an electrical current goes through to a LED light bulb, a stream of light (photons) emits from the lamp. LED bulbs are semiconductor devices, which means that the brightness of the light flowing through them can change at extremely high speeds. The signal is sent by modulating the light at different rates. The signal can then be received by a detector which interprets the changes in light intensity (the signal) as data. Also when the LED is ON, you transmit a digital 1, and when it is OFF, you transmit a 0.

In conclusion, if you are also interested to hear more information about the OWNII Coin or investing in it, you can contact our chatbot or send an email through our contact us form. If you enjoyed this post and would like to hear more updates about Li-Fi technology, subscribe to our newsletter. Don’t forget to subscribe to our social media accounts. You can also join on our Telegram group about Li-Fi technology on this link:

https://t.me/joinchat/DcGyJRTMzpodEuCZa1OgHw