Nokia and Intel Collaborate on 6G Open RAN AI Chipset
Nokia partners with Intel to develop a purpose-built AI chipset for Open RAN architectures targeting 6G deployment timelines.
Latest 6G and AI news, analysis, and industry updates.
Nokia partners with Intel to develop a purpose-built AI chipset for Open RAN architectures targeting 6G deployment timelines.
How 6G will extend coverage globally using low Earth orbit satellites and high-altitude platform stations connected through AI-managed handoffs.
Samsung showcases a working 6G prototype achieving 50 Gbps speeds in a controlled environment, hinting at the next generation of mobile connectivity.
Nokia Bell Labs demonstrates zero-energy device communication for 6G IoT, enabling sensors that operate without batteries by harvesting ambient radio energy.
Researchers propose AI-designed waveforms that go beyond traditional OFDM, using deep learning to optimize air interface parameters in real time.
India's Department of Telecommunications announces a $500M initiative to develop indigenous 6G technologies with AI-driven network management.
NVIDIA introduces Omniverse-based simulation tools that allow telecom operators to model and test 6G network deployments in virtual environments.
Nokia and Samsung publish joint research showing 6G networks can simultaneously provide communication and high-resolution sensing capabilities.
An in-depth exploration of 6G — the sixth generation of mobile communication technology expected to launch commercially around 2030, delivering terabit-per-second speeds, sub-millisecond latency, and AI-native network intelligence.
A detailed comparison of 6G and 5G across spectrum, speed, latency, architecture, and use cases, revealing how the next generation will fundamentally surpass its predecessor in every dimension.
Terahertz frequencies between 0.1 and 10 THz hold the key to 6G's ultra-high data rates. This article explores THz physics, engineering challenges, recent breakthroughs, and the path to commercialization.
6G networks will be designed from the ground up with AI embedded at every layer. This article examines the concept of AI-native architecture, its components, and why it marks a departure from AI-augmented 5G networks.