Lawrence Woodmere Academy Installs Signify Trulifi 6002 LED Infrared (IR) Transceivers

Lawrence Woodmere Academy

According to a recent article from LEDs Magazine, Lawrence Woodmere Academy recently installed Signify Trulifi 6002 LED infrared (IR) transceivers, but without the luminaires that can come from Signify’s LiFi kits. NY-based June Lite served as the integrator on this LiFi project. June Lite stated that the school is using the LiFi at its new STEM (science, technology, engineering, and math) centre, first in a robotics and gaming area, with the main computing room to follow after.

Woodmere Academy, like other customers, decided on a system that excludes the luminaires but mounts the Infrared transceivers on the ceiling.

Neither June Lite nor Signify revealed how may transceivers Woodmere is using or how much area the LiFi covers.

According to LEDs Magazine, the two vendors also did not state how much the school paid for the system. June Lite plants trees around the world based on the value of a sale. It said that it is planting 60 trees in Ethiopia as a result of the school installation.

June Lite also noted that LiFi can be healthier for students because it does not include any radio waves. A Signify spokesperson stated: “the Wi-Fi will at times be switched off to limit the children’s exposure to radio frequency radiation.” The Signify spokesperson further informed LEDs Magazine that Woodmere decided on a “hybrid” LiFi/Wi-Fi environment. The school added LiFi to the mix “to enhance the speed in which the children are experiencing the varied projects they engage in.”.

Presumably, the Woodmere deployment includes dongles. Neither June Lite nor Signify elaborated on that according to LEDs magazine.

Article source: https://www.ledsmagazine.com/smart-lighting-iot/article/14223828/long-island-school-supplements-wifi-with-infrared-lifi

Signify

Signify is the new brand name of Philips Lighting. The name change occurred in March 2018 to represent the transformation from an analogue lighting company into a 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 luminaries, lamps, electronics, lighting controls, lighting control software, IoT systems and platforms.

Signify has also other brands under its belt such as Philips, Interact, Modular Lighting Instruments, Luceplan, Color Kinetics, ILTI Luce and Philips Hue.

Trulifi system

Signify launched a LiFi system called “Trulifi” back in 2019. Trulifi uses light waves to enable highly reliable, secure two-way wireless communications at speeds far above most conventional workplace wireless technologies.

Trulifi uses optical wireless transceiver technology built, or retrofitted, into Philips luminaires. This means customers do not have to replace their existing lighting infrastructure to receive great quality light and wireless connectivity.

The LiFi system comprises of a USB Network Access adapter, LiFi enabled LED lights and a Trulifi-6002 Plug-In Optical Transceiver. The Trulifi-enabled luminaires can provide wireless connectivity at speeds up to 150 Megabits per second (Mbps) over large spaces, such as meeting rooms and office floors. There is seamless handover between each Trulifi-enabled luminaire enabling users to roam around. The speed is fast enough to stream simultaneously 30 1080p HDTV movies. A USB-access key, plugged into a laptop, is needed to receive the LiFi signal and acts as an emitter to send data back to the luminaire.

The Trulifi range also includes a fixed point-to-point system, up to 250 Mbps speed, which acts like a wireless cable. This is ideal for mobile devices connectivity. This LiFi system can also be useful to connect robots or machines in radio frequency (RF) harsh environments like industrial plants, or hospitals where RF communications may not be permitted, or where there’s a need to send and receive large data files securely and quickly. Currently, Trulifi is aimed at professional markets, including offices, hospitality, retail, industry, construction and healthcare.

Benefits of Trulifi

Signify claimed the following three benefits of their Trulifi system:

RELIABLE

Trulifi is ideal for busy areas, such as multi-tenancy buildings, stations, airports and public areas. Network availability and overload are no longer an issue. Trulifi provides guaranteed bandwidth without interference from other radio communication systems.

What’s more, it works in places where radio frequencies are not permitted, restricted or could cause interference – such as in hospitals, some schools, aircraft and industrial plants. It also works where radio frequencies don’t work well or at all.

Trulifi actively coordinates traffic, ensuring good quality of service for all users, at all times. It uses the ITU G.9991 LiFi standard. 

The new standard, ITU G.9991, describes the system architecture, physical layer and data link layer specification for ‘high-speed indoor VLC transceivers’, the VLC access points within light bulbs.

SECURE

Trulifi uses AES 128-bit encryption. The Advanced Encryption Standard (AES) is a symmetric block cipher chosen by the U.S. government to protect classified information and is implemented in software and hardware throughout the world for the encryption of sensitive data. Information is accessed using a USB access key. What’s more an extra layer of security is built-in, as light waves cannot penetrate walls. This all helps to make Trulifi as secure as wired communication. Perfect for applications where security is paramount:

• Financial institutions

• Government

• Police

• Military

• Data centres

• Corporate organisations

FAST

Trulifi 6002 series has a net data rate up to 150 Mbps for the downlink and the uplink. That’s fast enough to stream simultaneously 30 1080p HDTV movies.

It’s perfect for offices and large spaces as each luminaire transceiver hands off seamlessly to another. And unlike other LiFi systems, it works with the lights on, dimmed or off.

Trulifi 6013 is a fixed point-to-point system. It acts like a wireless cable with a guaranteed net data rate up to 250 Mbps for the downlink and uplink. It can be used in a host of environments – from connecting machines in a factory to sending large image files in a hospital. Trulifi 6013 is available with Blue, Red and Green light.

What is LiFi?

LiFi, 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 LiFi 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 LiFi work?

LiFi is a high speed, bidirectional, and fully networked wireless communication of data using light. LiFi 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 that 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.

LiFi Benefits

The primary benefits of LiFi 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 the small coverage area of LiFi 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.

Credit to Oledcomm

LiFi Applications

LiFi can be used for so many applications and the list is increasing every year. You can read our updated list of Li-Fi applications at the following link:

https://www.lifitn.com/blog/2021/2/13/top-30-li-fi-applications-updated-list-including-potential-applications

Credit to pureLiFi

In conclusion, if you are also interested to hear more information about the OWNII Coin or enquire about LiFi devices such as the LiFiMax and Trulifi, you can contact us through our chatbot or by sending an email through our contact us form. If you enjoyed this post and would like to hear more updates about LiFi technology, subscribe to our newsletter. Don’t forget to subscribe to our social media accounts. You can also join our Telegram group about LiFi technology on this link:

https://t.me/joinchat/FMzOmsEKyJFrU6Af

Trialling Of LiFi Technology At The Museo Barracco De Escultura Antigua (Barracco Museum) In Rome

The Museo Barracco De Escultura Antigua (Barracco Museum)

The Museo Barracco di Scultura Antica is a museum in Rome, Italy, featuring a collection of works acquired by the collector Giovanni Barracco, who donated his collection to the City of Rome in 1902. Among the works are Egyptian, Assyrian, and Phoenician art, as well as Greek sculptures of the classical period.

Since the 6th January 2022, visitors have the opportunity to explore a selection of works displayed at the Museum collection with the use of LiFi technology, , a wireless technology using the light spectrum to transmit data. The LiFi systems were promoted by Roma Culture , Capitoline Superintendence for Cultural Heritage. and presented by the companies To Be Srl , DB Ingegneria dell ' image Srl and Tecno Electric Srl with the support of the European Union .

The LiFi project is one of the 43 winners - out of 126 participants - of the “Business does Culture” call launched by the Lazio Region to promote, through the use of new technologies, the cultural heritage of Lazio.

The Barracco Museum is among the first museums in the world to equip itself with the LiFi system , acronym for Light Fidelity . One of the most modern and innovative communication mechanisms that allows information and images to be transmitted wirelessly, by modulating the light, from special LED spotlights (transmitters) to the mobile devices of visitors equipped with cameras (receivers). To use the in-depth multimedia contents, compared to the ordinary tour route, simply download the appropriate App and place the smartphone or tablet under the light of the LiFi spotlight.

A solution created with attention to 'non-traditional' modes of use: there is in fact a double mode of use, both for the sighted and the blind (or visually impaired), thanks to the use of audio tracks created from textual content.

The technology can be tested at the Barracco Museum until February 20, 2022, with the possibility of an extension.

The project was presented at today's press meeting, held at the Barracco Museum and moderated by Gianni Todini (Director of Askanews). After the welcome greeting by Maria Vittoria Marini Clarelli (Capitoline Superintendent of Cultural Heritage), the following intervened: Claudio Parisi Presicce (Director of Archaeological and Historical - Artistic Museums, Capitoline Superintendency for Cultural Heritage), Roberto Pollari (Head of Cabinet of the Regional Council of the Lazio); Francesco Paolo Russo (Founder & CEO of To Be Srl); Giancarlo Brasini (Project Manager DB Image Engineering); Alfonso Pecoraro Scanio (President of the UniVerde Foundation);Gabriele Ferrieri (President of ANGI - National Association of Young Innovators).

The experimentation will involve a selection of 14 points of interest, of which 9 in the rooms on the ground floor and on the first floor and 5 in the so-called Roman House , dating back to its main structures documented in the 4th century AD and located in the basement of the museum, which reopens at public for the occasion after more than 20 years of closure . The discovery of the remains in the basement of the Barracco Museum is fortuitous and dates back to 1899, during the partial demolition of the Renaissance building, which has housed the Museum since 1948, created for the opening of the new Corso Vittorio Emanuele road axis.

The domus , which has not been accessible to the public since 2000, will be extraordinarily open every day (except Mondays) until 9 January and, subsequently, until the end of February, only on weekends, from Friday to Sunday .

The temporary reopening of the Domus , linked to experimentation, is only the first step in a broader and more complex project to enhance the site that will be developed in the coming months.

The museum services are managed by Zètema Progetto Cultura .

Article sources: https://tobe-srl.it/li-fi-e-musei-linnovazione-sostenibile-arriva-al-museo-barracco/

https://www.teleambiente.it/progetto_lifi_presentato_museo_barracco_roma/

What is LiFi?

LiFi, 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 LiFi 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 LiFi work?

LiFi is a high speed, bidirectional, and fully networked wireless communication of data using light. LiFi 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 that 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.

LiFi Benefits

The primary benefits of LiFi 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 the small coverage area of LiFi 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.

Credit to Oledcomm

LiFi Applications

LiFi can be used for so many applications and the list is increasing every year. You can read our updated list of Li-Fi applications at the following link:

https://www.lifitn.com/blog/2021/2/13/top-30-li-fi-applications-updated-list-including-potential-applications

Credit to pureLiFi

In conclusion, if you are also interested to hear more information about the OWNII Coin or enquire about LiFi devices such as the LiFiMax and Trulifi, you can contact us through our chatbot or by sending an email through our contact us form. If you enjoyed this post and would like to hear more updates about LiFi technology, subscribe to our newsletter. Don’t forget to subscribe to our social media accounts. You can also join our Telegram group about LiFi technology on this link:

https://t.me/joinchat/FMzOmsEKyJFrU6Af

Kyocera SLD Laser Announced The Demonstration Of The World's Fastest LiFi System That Delivers Data Rate Of 90 Gbps At The CES 2022

Kyocera SLD Laser

KYOCERA SLD Laser, Inc. (KSLD), a world leader in commercialisation of laser light sources, has made the announcement of demonstrating LiFi data rate of 90 Gbps from their LiFi system at the CES 2022. The company is demonstrating its DataLight innovation for automotive and consumer applications at the Consumer Electronics Show, Las Vegas, January 5 - 7, 2022.

James Raring, CEO of Kyocera SLD Laser, stated that: “We are thrilled to announce KSLD's achievement of world record LiFi data rate of 90 Gbps and our demonstration of this DataLight innovation at CES 2022 in our exhibition booth. To pioneer the future of lighting and wireless connectivity, our ultra-high speed LiFi technology is eye-safe, impervious to ambient lighting, secure, efficient, and RF-free. KSLD is commercialising LiFi solutions for customers in mobility applications, automotive, and undersea, as well as RF-sensitive environments such as airplane cabins, smart factories, healthcare, secure government facilities, and smart cities.”

KSLD's DataLight LiFi innovation uses dual-emission visible and infrared LaserLight sources. These sources enable customers to commercialise potent intelligent illumination systems including functionality of spatially dynamic lighting, night vision illumination, accurate sensing and 3D LIDAR, as well as optical power transmission. DataLight engines can be configured for customer specific applications and have exciting potential to be performance optimised using artificial intelligence and machine learning.

KYOCERA SLD Laser is pioneering the future of light. As stated on their website, new ideas are being harnessed to realise tomorrow’s product innovations.

The next generation in lighting has arrived, shining brighter and farther than ever before. In the last decade, LED enabled a new generation of lighting that changed everything. Now, LaserLight outshines the limits of LED to deliver safe, high luminance white light from an incredibly small point source. LaserLight doesn’t just offer superior technology, it’s enabling entirely new opportunities.

KYOCERA SLD are commercialising revolutionary semi-polar GaN LaserLight for the next generation of display, automotive, and specialty applications. LaserLight sources are used directly in single color and R-G-B applications, or integrated into laser pumped phosphor architectures.

As an independent spin-off from Soraa Inc, SLD Laser was founded in 2013 by several leading global pioneers in solid state lighting, including Dr. Shuji Nakamura, a 2014 Nobel Laureate in Physics for his groundbreaking work with LEDs, Dr. Steve Denbaars, Dr. James Raring, and Dr. Paul Rudy. Our laser technology incorporates a robust intellectual property portfolio of over 500 patents. SLD Laser was acquired by KYOCERA Corporation and has commenced operations as a Kyocera group company under the name KYOCERA SLD Laser, Inc.

Article source: https://www.kyocera-sldlaser.com/news/kyocera-sld-laser-achieves-world-record-lifi-communications-data-rate-100-times-faster-than-5g

CES 2022

As stated from their website, CES® is the most influential tech event in the world and the proving ground for breakthrough technologies and global innovators. This is where the world's biggest brands do business and meet new partners, and the sharpest innovators hit the stage. Owned and produced by the Consumer Technology Association (CTA)®, CES features every aspect of the tech sector.

CES showcases companies including manufacturers, developers and suppliers of consumer technology hardware, content, technology delivery systems and more. It also includes a conference program where the world's business leaders and pioneering thinkers address the industry's most relevant issues.

CES® 2022 will be held in Las Vegas from the 5th January 2022 providing a global audience access to major brands and startups, as well as the world’s most-influential leaders. Over 1900 companies have committed to exhibiting in Las Vegas and many more are being added each week.

What is LiFi?

LiFi, 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 LiFi 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 LiFi work?

LiFi is a high speed, bidirectional, and fully networked wireless communication of data using light. LiFi 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 that 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.

LiFi Benefits

The primary benefits of LiFi 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 the small coverage area of LiFi 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.

Credit to Oledcomm

LiFi Applications

LiFi can be used for so many applications and the list is increasing every year. You can read our updated list of Li-Fi applications at the following link:

https://www.lifitn.com/blog/2021/2/13/top-30-li-fi-applications-updated-list-including-potential-applications

Credit to pureLiFi

In conclusion, if you are also interested to hear more information about the OWNII Coin or enquire about LiFi devices such as the LiFiMax and Trulifi, you can contact us through our chatbot or by sending an email through our contact us form. If you enjoyed this post and would like to hear more updates about LiFi technology, subscribe to our newsletter. Don’t forget to subscribe to our social media accounts. You can also join our Telegram group about LiFi technology on this link:

https://t.me/joinchat/FMzOmsEKyJFrU6Af

Oledcomm Unveils The LIFIMAXTab, The World First LIFiI Android Tablet

Oledcomm

Oledcomm designs and develops LiFi network interface devices that enable high-speed wireless data communication. It also serves LiFi equipment in the telecom, datacom, personal electronics, and industrial markets. The company’s product portfolio includes hubs, routers, switches, adapters, drivers, power supplies, and more.

Oledcomm was founded in 2012 and is based in Paris, France. Oledcomm's adventure began in 2005 in the research laboratories of the University of Versailles-Saint-Quentin with the first work on communication by visible light.

Following years of research & development and a passion for innovation, Oledcomm became the pioneer of LiFi (Light Fidelity) solutions and innovation on a global scale.

Based in the Paris region, Oledcomm employs around 20 people and designs complete solutions for LiFi operation, including microcontrollers, LiFi photoreceivers and software platforms.

Today, after more than 28 patents, 15 years of R&D, over 500 trusted clients and several awards, Oledcomm is pursuing a strong mission: to transform the 14 billion points of light in the world into a powerful communication network.

LIFIMAXTab

The LiFiMAX Tab will be unveiled at the CES 2022. Oledcomm, the leader in high-speed Internet by invisible light, achieves 3Gbps in point-to-point connections and introduces LiFiMAXTab®, the first Android tablet with built-in LiFi.

The tablet has a 10.1 "screen of 1920 x 1200 pixels with an 8-core MediaTek SoC (up to 2 GHz) with 4 GB of memory and 64 GB of storage. Two sensors of 2 and 5 MP are present, with an 8000 mAh battery, Wi-Fi 5. Nothing very exceptional… like the version of Android which is already showing a certain age: only 10.0, while 12 is available in the final version.

This tablet therefore does not need a dongle to use LiFi, and it can reach up to 150 Mbs for downlink and uplink rates. The LiFiMAXTab will be available for sale from February 2022, at a starting price of around 400 euros (£340).

Benjamin Azoulay, President of Oledcomm explains: “As every year since 2018, Oledcomm further emphasizes its leadership in LiFi by offering the first Android tablet with built-in LiFi, thus making LiFi available to all mobile devices. The tablet allows all family members to connect to the Internet, providing a reliable, stable connection without RF frequencies and a signal that cannot be intercepted outside the room".

CES 2022

As stated from their website, CES® is the most influential tech event in the world and the proving ground for breakthrough technologies and global innovators. This is where the world's biggest brands do business and meet new partners, and the sharpest innovators hit the stage. Owned and produced by the Consumer Technology Association (CTA)®, CES features every aspect of the tech sector.

CES showcases companies including manufacturers, developers and suppliers of consumer technology hardware, content, technology delivery systems and more. It also includes a conference program where the world's business leaders and pioneering thinkers address the industry's most relevant issues.

CES® 2022 will be held in Las Vegas from the 5th January 2022 providing a global audience access to major brands and startups, as well as the world’s most-influential leaders. Over 1900 companies have committed to exhibiting in Las Vegas and many more are being added each week.

What is LiFi?

LiFi, 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 LiFi 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 LiFi work?

LiFi is a high speed, bidirectional, and fully networked wireless communication of data using light. LiFi 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 that 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.

LiFi Benefits

The primary benefits of LiFi 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 the small coverage area of LiFi 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.

Credit to Oledcomm

LiFi Applications

LiFi can be used for so many applications and the list is increasing every year. You can read our updated list of Li-Fi applications at the following link:

https://www.lifitn.com/blog/2021/2/13/top-30-li-fi-applications-updated-list-including-potential-applications

Credit to pureLiFi

In conclusion, if you are also interested to hear more information about the OWNII Coin or enquire about LiFi devices such as the LiFiMax and Trulifi, you can contact us through our chatbot or by sending an email through our contact us form. If you enjoyed this post and would like to hear more updates about LiFi technology, subscribe to our newsletter. Don’t forget to subscribe to our social media accounts. You can also join our Telegram group about LiFi technology on this link:

https://t.me/joinchat/FMzOmsEKyJFrU6Af

LiFi Rewind 2021 - A Look Back of LiFi News And Events That Occurred In 2021

LiFi Rewind 2021

HAPPY NEW YEAR,

As a yearly tradition, we look back at news and events in relation to LiFi technology that occurred in the year 2021. 2021 was once again a year of great developments, achievements and advancements of LiFi technology. The following timeline displays the main events that took place in regards to LiFi.

What is LiFi?

LiFi, 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 LiFi 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 LiFi work?

LiFi is a high speed, bidirectional, and fully networked wireless communication of data using light. LiFi 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 that 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.

LiFi Benefits

The primary benefits of LiFi 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 the small coverage area of LiFi 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.

Credit to Oledcomm

LiFi Applications

LiFi can be used for so many applications and the list is increasing every year. You can read our updated list of Li-Fi applications at the following link:

https://www.lifitn.com/blog/2021/2/13/top-30-li-fi-applications-updated-list-including-potential-applications

Credit to pureLiFi

In conclusion, if you are also interested to hear more information about the OWNII Coin or enquire about LiFi devices such as the LiFiMax and Trulifi, you can contact us through our chatbot or by sending an email through our contact us form. If you enjoyed this post and would like to hear more updates about LiFi technology, subscribe to our newsletter. Don’t forget to subscribe to our social media accounts. You can also join our Telegram group about LiFi technology on this link:

https://t.me/joinchat/FMzOmsEKyJFrU6Af

Researchers at MIT Have 3D printed The World’s Longest Rechargeable Battery As A Fibre 140m Long As Part Of A LiFi System

MIT Research Team

Massachusetts Institute of Technology (MIT) is a private land-grant research university in Cambridge, Massachusetts. Established in 1861, MIT has since played a key role in the development of modern technology and science and has been ranked among the top academic institutions in the world.

Founded in response to the increasing industrialization of the United States, MIT adopted a European polytechnic university model and stressed laboratory instruction in applied science and engineering. The institute has an urban campus that extends more than a mile (1.6 km) alongside the Charles River, and encompasses a number of major off-campus facilities such as the MIT Lincoln Laboratory, the Bates Center, and the Haystack Observatory, as well as affiliated laboratories such as the Broad and Whitehead Institutes.

Researchers at MIT in the US recently developed a rechargeable lithium-ion battery in the form of a fibre that could be woven into fabrics.

As a proof of concept the team produced the world’s longest fibre battery at 140 meters long with a process that could produce a battery as long as 1 km. The 140m fibre has an energy storage capacity of 123 mAh to charge smartwatches or phones and is only a few hundred microns in diameter, making it suitable for weaving into materials for wearable systems.

The fibre battery is made with the use of new electrolyte gels and a standard fibre-drawing system that starts with a larger cylinder containing all the components and then heats it to just below its melting point. The material is drawn through a narrow opening to compress all the parts to a fraction of their original diameter, while maintaining all the original arrangement of parts.

This embeds the lithium and other materials inside the fibre, with a protective outside coating, thus directly making this version stable and waterproof. “There’s no obvious upper limit to the length. We could definitely do a kilometre-scale length,” says researcher Tural Khudiyev, who is now an assistant professor at National University of Singapore.

“This is the first 3D printing of a fibre battery device,” said Khudiyev. “After printing, you do not need to add anything else, because everything is already inside the fibre, all the metals, all the active materials. It’s just a one-step printing. That’s a first.”

“When we embed the active materials inside the fibrer, that means sensitive battery components already have a good sealing and all the active materials are very well-integrated, so they don’t change their position,” he said. The aspect ratio is up to a million, making it practical to use standard weaving equipment to create fabrics that incorporate the batteries as well as electronic systems.

A demonstration device uses the fibre battery to power an LED and receiver in a LiFi light-based communication system. The team has also embedded multiple LEDs into the fibre.

Article source: https://www.eenewseurope.com/news/worlds-longest-fibre-battery-powers-lifi-system

What is LiFi?

LiFi, 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 LiFi 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 LiFi work?

LiFi is a high speed, bidirectional, and fully networked wireless communication of data using light. LiFi 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 that 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.

LiFi Benefits

The primary benefits of LiFi 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 the small coverage area of LiFi 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.

Credit to Oledcomm

LiFi Applications

LiFi can be used for so many applications and the list is increasing every year. You can read our updated list of Li-Fi applications at the following link:

https://www.lifitn.com/blog/2021/2/13/top-30-li-fi-applications-updated-list-including-potential-applications

Credit to pureLiFi

In conclusion, if you are also interested to hear more information about the OWNII Coin or enquire about LiFi devices such as the LiFiMax and Trulifi, you can contact us through our chatbot or by sending an email through our contact us form. If you enjoyed this post and would like to hear more updates about LiFi technology, subscribe to our newsletter. Don’t forget to subscribe to our social media accounts. You can also join our Telegram group about LiFi technology on this link:

https://t.me/joinchat/FMzOmsEKyJFrU6Af

KYOCERA SLD Laser Announces World’s First Laser Light Engines for Dynamic Illumination, Sensing and LiFi Communications for Automotive and Consumer Applications

KYOCERA

KYOCERA SLD Laser, Inc. (KSLD), a world leader in commercialisation of laser light sources, has made the announcement of introducing the world’s first LaserLightTM engines that deliver dynamic white and infrared (IR) night vision illumination along with sensing and LiFi communication functionality for automotive and consumer applications. The company will demonstrate its award winning products, new LaserLight engines, and recent innovations in optical power transfer and lighting disinfection at the Consumer Electronics Show January 5 – 8, 2022.

Following the successful launching of the white LaserLight into automotive headlights in 2019, the company is now introducing LaserLight engines that feature dual white/IR emission to fuse multiple critical functionalities including dynamic white lighting and infrared night vision illumination that can be combined with sensing and LiFi communications. The high brightness collimated white light provides 1 km beam distance while independently delivering IR illumination for night vision cameras to enable maximum machine vision visibility and safety. White/IR dual emission sources are critical for all mobility applications including automotive, avionics, drones, railway, and marine. In the consumer and professional product space, the dual emission sources will find application in portable lighting products, night vision illuminators, and rangefinders for recreation and outdoor, search & rescue, and security applications. Until now, dual emission white/IR sources have not been possible because LEDs and legacy lamp-based light sources are unable to deliver high brightness white and IR emission from the same point source, and they are incapable of being modulated at the high speeds required for accurate sensing and fast data rates.

The illumination pattern of KSLD’s LaserLight engines can be electronically adjusted on-demand for efficient and high precision dynamic beam shaping. In sensing and imaging, the fast temporal response of KSLD’s LaserLight enables high-resolution ranging at distances over 250 meters for automotive ADAS systems as well as consumer rangefinding applications. Beyond single-point depth sensing, the LaserLight engines can be combined with imaging sensors to facilitate full 3D LiDAR systems. To support the future of wireless connectivity, the LaserLight engines deliver high-speed, secure, efficient, RF-free LiFi communication with data rates exceeding 1 gigabit per second for mobility applications including car-to-x exterior, vehicle interiors, airplane cabins, as well as future smart cities, healthcare, secure facilities, and smart factories. By providing both white and IR from the same source and combining dynamic lighting, accurate sensing, and high speed communication, KSLD’s LaserLight engines enable customers to commercialize potent intelligent illumination systems. These LaserLight engines can be configured for customer specific applications and have exciting potential to be performance optimized using artificial intelligence and machine learning.

Beyond lighting, sensing, and communication, KSLD will demonstrate the world’s first optical power transmission over fiber using its innovative, high efficiency GaN laser and photocell semiconductor chip technology at CES 2022. This innovation in the field of power transfer has the potential to replace heavy and sensitive metal wire harnesses in mobility applications with a lightweight, noise-free optical solution, increasing the efficiency and extending the range of electric vehicles and airplanes, while making them more secure and safe. This power-over-light solution can be configured to include optical data communications to deliver data and power to sensors in a distributed system such as a vehicle.

Using the same GaN laser technology, KSLD will be demonstrating the world’s first LaserLight optical disinfection module, which delivers dual white and violet light emission to provide ambient white lighting while neutralizing bacterial growth for applications in ride sharing vehicles, airliners and healthcare facilities. The LaserLight optical disinfection modules are configurable to deliver light through optical fiber in remote lighting applications where optical disinfection is needed, such as in refrigerators, spas, pools, and fountains.

KSLD will demononstrate its existing LaserLight white light products which were first adopted in car headlights on the road in 2019, delivering high brightness, high visibility, eye-safe illumination by generating precise beam patterns with minimum glare from miniature modules that save critical space in the car and provide unmatched styling and design freedom. For the automotive aftermarket, KSLD will display LaserLight sources deployed in off-road applications including in podium finisher vehicles since 2018 at the BFGoodrich SCORE Baja 1000, the world’s most prestigious off-road motorsport race. KSLD’s fiber light sources will be on display delivering white emissive fiber illumination with up to 10,000 cd/m2 for ultra-bright lighting for vehicle exterior grills, logos, and interiors. These sources deliver 10 times the brightness of LED solutions, producing brilliant and efficient illumination from thin, low cost plug-and-play fiber optics and a modular light source.

KYOCERA SLD Laser will host meetings in person at CES 2022 in West Hall Exhibition Booth 3423 and virtually by appointment. You can contact Kristen Hanna at KHanna@SLDlaser.com for scheduling apointment.

KYOCERA SLD Laser is pioneering the future of light. As stated on their website, new ideas are being harnessed to realise tomorrow’s product innovations.

The next generation in lighting has arrived, shining brighter and farther than ever before. In the last decade, LED enabled a new generation of lighting that changed everything. Now, LaserLight outshines the limits of LED to deliver safe, high luminance white light from an incredibly small point source. LaserLight doesn’t just offer superior technology, it’s enabling entirely new opportunities.

KYOCERA SLD are commercialising revolutionary semi-polar GaN LaserLight for the next generation of display, automotive, and specialty applications. LaserLight sources are used directly in single color and R-G-B applications, or integrated into laser pumped phosphor architectures.

As an independent spin-off from Soraa Inc, SLD Laser was founded in 2013 by several leading global pioneers in solid state lighting, including Dr. Shuji Nakamura, a 2014 Nobel Laureate in Physics for his groundbreaking work with LEDs, Dr. Steve Denbaars, Dr. James Raring, and Dr. Paul Rudy. Our laser technology incorporates a robust intellectual property portfolio of over 500 patents. SLD Laser was acquired by KYOCERA Corporation and has commenced operations as a Kyocera group company under the name KYOCERA SLD Laser, Inc.

Article source: https://www.kyocera-sldlaser.com/news/kyocera-sld-laser-introduces-worlds-first-laser-light-engines-for-dynamic-illumination-sensing-and-lifi-communications-for-automotive-and-consumer-applications

What is LiFi?

LiFi, 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 LiFi 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 LiFi work?

LiFi is a high speed, bidirectional, and fully networked wireless communication of data using light. LiFi 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 that 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.

LiFi Benefits

The primary benefits of LiFi 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 the small coverage area of LiFi 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.

Credit to Oledcomm

LiFi Applications

LiFi can be used for so many applications and the list is increasing every year. You can read our updated list of Li-Fi applications at the following link:

https://www.lifitn.com/blog/2021/2/13/top-30-li-fi-applications-updated-list-including-potential-applications

Credit to pureLiFi

In conclusion, if you are also interested to hear more information about the OWNII Coin or enquire about LiFi devices such as the LiFiMax and Trulifi, you can contact us through our chatbot or by sending an email through our contact us form. If you enjoyed this post and would like to hear more updates about LiFi technology, subscribe to our newsletter. Don’t forget to subscribe to our social media accounts. You can also join our Telegram group about LiFi technology on this link:

https://t.me/joinchat/FMzOmsEKyJFrU6Af

Celebration of LiFi Excellence of Professor Harald Haas For His Research And Scientific Leadership

pureLiFi

pureLiFi develops technology for communication networks that integrates data and lighting utility infrastructures. It offers Li-Fi enabled devices that convert the beam of lights into an electrical signal. The signal is then converted back into data. The company was founded in 2012 and is headquartered in Edinburgh.

The “Father of LiFi”, co-founder and Chief Scientific Officer of pureLiFi has been celebrated for his research and scientific leadership in the field of optical wireless communications by two separate prominent organisations as 2021 comes to end.

As part of the annual LpS Digital Conference and Live Stream event on the 2nd of December 2021, Professor Harald Haas was presented with the Scientific Lecture Award for his lecture named “LiFi, The Catalyst for New LED Applications” where he highlighted the need for higher bandwidth to match the continuously growing communication data volume and gave an overview of ongoing experimental research.

A few weeks previous, Professor Haas was also listed by Clarivate Analytics as one of the ‘highly cited’ researchers in LiFi technology research. The list recognises pioneers in their fields over the last decade, demonstrated by the production of multiple highly-cited papers that rank in the top 1% by citations. Clarivate Analytics states that of the world’s scientists and social scientists, Clarivate Analytics, Highly Cited Researchers are truly one in 1,000.

pureLiFi CEO Alistair Banham stated that “We would like to extend a well-deserved congratulations to Harald for this significant recognition which is a testament to the high standard of research and demonstrable scientific leadership. This further cements our leadership position in the field of LiFi and will support the high level of innovation required to revolutionise the way everyone connects through Light”

Professor Harald Haas is also Director of the LiFi Research and Development Centre, and Professor of Engineering at the University of Strathclyde. Haas set up and co-founded pureLiFi with Dr Mostafa Afgani in 2012 who are now global leaders in the development of LiFi systems and components which help solve challenges faced by traditional wireless communications technologies such as WiFi, 4G and 5G which use radio frequencies for communications and are subject to congestion, interference, and security vulnerabilities. LiFi uses light rather than radio frequencies resulting in wireless communications that is faster, more reliable, significantly more secure, and can provide up to 2600 more bandwidth than WiFi and cellular combined.

As stated many times by Sarah Scace, Director of Marketing & Communications, pureLiFi are recognised rising stars in the global technology scene and named one of the “EE Times Silicon 100 start-ups to watch” two years running. Having now secured multiple million-dollar deals with the US Army Europe, pureLiFi have officially made their mark on wireless communications marketplace.

With growing demand for bandwidth hungry technologies, such as augmented and virtual reality, next generation manufacturing and the metaverse, new wireless communications technologies are needed to enable new use cases and technology breakthroughs.

pureLiFi is now offering high-speed components ready for integration into consumer electronics such as mobile phones, laptops and tablets, with a view of taking LiFi mainstream and offering unprecedented bandwidth, ultra-fast speeds and military grade security to the consumer.

Credit to pureLiFi

Article source: https://www.einnews.com/pr_news/558376003/professor-harald-haas-of-purelifi-is-recognised-for-lifi-excellence-as-year-closes

What is LiFi?

LiFi, 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 LiFi 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 LiFi work?

LiFi is a high speed, bidirectional, and fully networked wireless communication of data using light. LiFi 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 that 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.

LiFi Benefits

The primary benefits of LiFi 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 the small coverage area of LiFi 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.

Credit to Oledcomm

LiFi Applications

LiFi can be used for so many applications and the list is increasing every year. You can read our updated list of Li-Fi applications at the following link:

https://www.lifitn.com/blog/2021/2/13/top-30-li-fi-applications-updated-list-including-potential-applications

Credit to pureLiFi

In conclusion, if you are also interested to hear more information about the OWNII Coin or enquire about LiFi devices such as the LiFiMax and Trulifi, you can contact us through our chatbot or by sending an email through our contact us form. If you enjoyed this post and would like to hear more updates about LiFi technology, subscribe to our newsletter. Don’t forget to subscribe to our social media accounts. You can also join our Telegram group about LiFi technology on this link:

https://t.me/joinchat/FMzOmsEKyJFrU6Af