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LG Uplus Leads 6G Innovation with Energy-Efficient Networks

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In the continuous race towards advanced technology, LG Uplus, a forefront telco in Korea, has demonstrated a leap in energy-efficient innovations for future 6G networks. They tested an All-Photonic Transport Network, collaborating with Infinera and Juniper Networks. The primary objective was to minimize the power requirement by reducing conversions between electrical and optical signals, potentially curbing extensive energy use.

This initiative points to a significant move in efficiently managing predicted network traffic surges in 6G. The use of all-photonic device components marks a shift towards sustainable network architectures for the future. With this, LG Uplus reiterates its commitment to developing sustainable solutions in the telecom sector.

Apart from the photonic technology venture, LG Uplus is also pursuing advanced 6G technologies. These include harnessing AI for open networks, RAN, and developing API structures. The creation of a “6G White Paper: Non-Terrestrial Networks” further explores the potential for 6G communications via satellite systems like LEO, MEO, and GEO. Such non-terrestrial strategies emphasize their forward-thinking approach to global connectivity through satellite data centers and edge computing integration.

Beyond corporate initiatives, the South Korean government has launched the ‘6G Society’. This aims to bring together mobile and satellite communications, encouraging technological exchanges crucial for 6G development. The government is keen on fostering a blend between terrestrial and satellite networks to provide seamless service across various spheres like land, sea, and air.

Ministerial statements highlight the vision of creating hyper-connectivity through ultra-low latency and widespread communication services. The government plans to synchronize domestically developed 6G technologies with international standardization, striving to showcase early results by 2026. The focus on the upper-mid band (7 GHz to 24 GHz) reflects the effort to bridge current 5G services and future developments.

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