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A team of researchers at Korea’s LG Electronics, working with a group at Fraunhofer-Gesellschaft, has successfully sent data 100 meters over a 6G signal. Officials at LG have posted details of their test of the next step wireless transmission technology on their company news page.

As 5G networks for cellular service have slowly made their way around the globe, engineers at multiple have been hard at work on next-generation 6G . Moving to the new technology is expected to push data transmission speeds to 50 times faster than 5G. It is also expected to cut latency to just 10% that of 5G, making conversations sound more natural. And the new standard is also expected to improve the accuracy of the data sent. Together, these improvements could drive a wave of new “Internet of Everything” development, with new devices aimed at both the home and workplace.

Scientists have long recognized that achieving the next step in transmission technology will be more difficult than those that came before due to a major problem with 6G signaling; it is short-range due to loss of power as it is transmitted. For this reason, the global standards body for data communications has set its commercialization date for 2,025 while most in the field do not expect actual sales to begin until2029or later.

Can this be true?


Elon Musk has criticized fellow centibillionaire and space cowboy Jeff Bezos for filing lawsuits against the former’s aerospace company SpaceX.

Earlier this month, Bezos’ space firm Blue Origin sued NASA after it lost a critical government contract to put astronauts on the Moon to SpaceX. This has had the effect of delaying SpaceX’s own work on the project. And now, this week, Amazon has urged the Federal Communications Commission (FCC) to dismiss newly-submitted plans by SpaceX to launch another cluster of satellites to power its satellite internet service Starlink.

Replying to a story about the latter complaint, Musk tweeted: “Turns out Besos [sic] retired in order to pursue a full-time job filing lawsuits against SpaceX …”

Long distance quantum communication over 600 km of fiber unlocked!


Toshiba in partnership with the Japanese Tohoku University Hospital have achieved a new milestone on the road towards the quantum internet — the research team encrypted the human genome and sent it over a quantum-secure connection over 600 km of fiber.

What we’ll soon see is the ultimate self-directed evolution fueled forward by gene editing, genetic engineering, reproduction assisted technology, neuro-engineering, mind uploading and creation of artificial life. Our success as a technological species essentially created what might be called our species-specific “success formula.” We devised tools and instruments, created new methodologies and processes, and readjusted ecological niches to suit our needs. And our technology shaped us back by shaping our minds. In a very real sense, we have co-evolved with our technology. As an animal species among many other species competing for survival, this was our unique passage to success.

#TECHNOCULTURE : #TheRiseofMan #CyberneticTheoryofMind


Technology has always been a “double-edged sword” since fire, which has kept us warm and cooked our food but also burned down our huts. Today, we surely enjoy the fruits of modern civilization when we fly halfway around the globe on an airbus, when we extend our mental functionality with a whole array of Internet-enabled devices, when our cities and dwellings become icons of technological sophistication.

THE personal records of 38million people were accidentally leaked on the open internet due to a flaw in more than a thousand Microsoft web apps, according to reports.

American Airlines, Ford, J.B. Hunt, the Maryland Department of Health, the New York City Municipal Transportation Authority, and New York City public schools were among the companies and organizations affected by the mistake.

The data mistakenly shared online included information from a number of Covid-19 contact tracing platforms, vaccination sign-ups, job application portals, and employee databases, according to Wired.

South Korean company LG Electronics, working with German research organisation The Fraunhofer Society, has successfully transmitted data a distance of 100 metres with a 6G signal.

6G is the next generation of wireless communication technology, following the current 5G standard. It operates at much higher frequencies than the latter and is expected to offer a ten-fold boost in data rates when eventually commercialised.

Still in the early stages of research and development, 6G is currently limited to short ranges and has the problem of power loss during transmission and reception between antennas. A major technical challenge to date has been the need for power amplification to generate a stable signal across ultra-wideband frequencies. The power amplifier developed by LG and its German partners was crucial to the success of this latest test. It generated a stable signal output up to 15 dBm in the frequency range between 155 to 175 GHz.

Researchers from the National Institute of Information and Communications Technology (NICT, President: TOKUDA Hideyuki, Ph.D.), Network Research Institute, succeeded the first S, C and L-bands transmission over long-haul distances in a 4-core optical fiber with standard outer diameter (0.125 mm). The researchers, lead by Benjamin J. Puttnam, constructed a transmission system that makes full use of wavelength division multiplexing technology by combining different amplifier technologies, to achieve a transmission demonstration with date-rate of 319 terabits per second, over a distance of 3,001 km. Using a common comparison metric of optical fiber transmission the data-rate and distance produce of 957 petabits per second x km, is a world record for optical fibers with standard outer diameter.

In this demonstration, in addition to the C and L-bands, typically used for high-data-rate, long-haul transmission, we utilize the transmission bandwidth of the S-band, which has not yet been used for further than single span transmission. The combined 120nm transmission bandwidth allowed 552 wavelength-division multiplexed channels by adopting 2 kinds of doped-fiber amplifier together with distributed Raman amplification, to enable recirculating transmission of the wideband signal. The standard cladding diameter, 4-core optical fiber can be cabled with existing equipment, and it is hoped that such fibers can enable practical high data-rate transmission in the near-term, contributing to the realization of the backbone communications system, necessary for the spread of new communication services Beyond 5G.

The results of this experiment were accepted as a post-deadline paper presentation at the International Conference on Optical Fiber Communications (OFC 2021).

She has also published two children’s books for geeky kids, “The Internet of Mysterious Things” and “A Robot Story.”

VentureBeat: First off, how would you define digital twins, and why is it essential to think about as a thing as distinct from other tools for organizing data like APIs, data fabrics, data warehouses, and enterprise software tools?

Lisa Seacat DeLuca: We define digital twins broadly as a digital representation of any physical object. You might picture certain use cases like manufacturing equipment or a generator, but really, anything can be a digital twin if it has a digital counterpart, which opens the door for a number of possibilities of what we can do with them.

TAMPA, Fla. — SpaceX is proposing to use Starship to rapidly deploy its second-generation Starlink constellation, providing denser rural coverage without needing more than the 30,000 satellites it previously envisioned for the follow-on network.

The proposal is one of two revised configurations that SpaceX filed Aug. 18 with the Federal Communications Commission for Starlink Gen2, updating a plan submitted in 2020.

The other configuration envisages continuing to use Falcon 9 rockets for launching Starlink satellites, and also does not involve a larger constellation or require more spectrum than what SpaceX outlined last year.

SpaceX’s Starlink satellites are involved in about 1,600 close encounters between two spacecraft in low Earth orbit every week. That’s about 50% of all such incidents. As the constellation grows, that proportion is expected to rise up to 90%, experts say.