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From electricity to light, NTT is tirelessly pursuing R&D of photonics-electronics convergence technology. This development enables new information infrastructure that transcends the limitations of conventional technologies, and is essential to IOWN – our Innovative Optical and Wireless Network – which is a platform for the future of communications and the realization of a smart society. How will light illuminate the society of tomorrow?
By NTT
From electricity to light, NTT is tirelessly pursuing R&D of photonics-electronics convergence technology. This development enables new information infrastructure that transcends the limitations of conventional technologies, and is essential to IOWN – our Innovative Optical and Wireless Network – which is a platform for the future of communications and the realization of a smart society. How will light illuminate the society of tomorrow?
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To meet the twin goals of increasing computing power and decreasing the environmental impact, NTT has created an Innovative Optical Wireless Network, or IOWN. Based on the core components of green infrastructure (an all-photonics network), a cognitive computing layer which connects everything, and digital twin technology to enable predictions, the IOWN initiative aims to actualize the new infrastructure that will allow for a green internet, and a sustainable future.
By Foresight Studios Magazine Team
To meet the twin goals of increasing computing power and decreasing the environmental impact, NTT has created an Innovative Optical Wireless Network, or IOWN. Based on the core components of green infrastructure (an all-photonics network), a cognitive computing layer which connects everything, and digital twin technology to enable predictions, the IOWN initiative aims to actualize the new infrastructure that will allow for a green internet, and a sustainable future.
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The Covid-19 pandemic has changed everything about how we communicate and congregate in social spaces. Relying heavily on remote connection makes high-speed and broad bandwidth, with low costs and immediate use, high in demand. NTT is collaborating with partners and using All-Photonics Network (APN) technology to research and develop on-demand photonic multipoint connection technology. Hirotaka Yoshioka and his colleagues from NTT’s Network Service Systems Laboratories set out how this new technology is transcending geographical boundaries to connect the world.
By Hirotaka Yoshioka, NTT Network Service Systems Laboratories // Takamitsu Narumi, NTT Network Service Systems Laboratories // Masahiro Nakagawa, NTT Network Service Systems Laboratories // Kenichiro Matsumoto, NTT Network Service Systems Laboratories
The Covid-19 pandemic has changed everything about how we communicate and congregate in social spaces. Relying heavily on remote connection makes high-speed and broad bandwidth, with low costs and immediate use, high in demand. NTT is collaborating with partners and using All-Photonics Network (APN) technology to research and develop on-demand photonic multipoint connection technology. Hirotaka Yoshioka and his colleagues from NTT’s Network Service Systems Laboratories set out how this new technology is transcending geographical boundaries to connect the world.