6G Communications
Learn the essentials of 6G
Next-Generation Wireless: A Guide to the Fundamentals of 6G
This 6G eBook breaks down the new technologies and use cases for the evolution of wireless communication technology and gives you everything you need to build a foundation of 6G knowledge.
Top Five Questions About 6G Technology
Discover the most common questions surrounding 6G and gain more insight into the vision for 6G and how it will achieve critical goals.
Wireless Technology Insights: Navigating the Evolution from 5G to 6G
Learn about design and development principles essential for today's RF engineers from Keysight's Wireless Tech Days virtual event.
All Things 5G: The 6G Vision for Verticals
Learn from a 6G-themed Wireless Communications and Networking Conference report featuring interviews that dive into why 6G technology will benefit both consumers and industry verticals.
How Advanced Technology is Driving the Next Evolution of Humankind
Discover how emerging technologies mature as life-altering advances continue and how 5G and 6G technology will impact the future of humankind.
Featured courses
Discover 6G research areas
New Sub-Terahertz Test Bed for 6G Research Demo
This demo walks you through the Keysight R&D sub-terahertz test bed for 6G research.
Explore 6G resources
Learn how 6G is shaping the future from Keysight experts
6G: Go deeper
Explore 6G and its role in accelerating innovation across industries with these resources and insights from Keysight
Related use cases
How To Characterize 6G Components
Characterizing sub-THz components for 6G requires more than S-parameters to be comprehensive. Noise figure, gain compression, and error vector magnitude as well as a number of other modulated measurements are needed to create a complete picture to predict component performance in a system.
How to Characterize 6G Sub-THz Wideband Signals
Engineers researching 6G require a wideband modulated signal generator with a high carrier frequency signal to evaluate the behavior of 6G modulated signals. Conducting tests in the sub-THz H-band requires an arbitrary waveform generator in place of a standalone vector signal generator, to overcome limitations in intermediate frequency (IF) bandwidth and modulation bandwidth.
How to Perform 6G FR3 System Test
6G frequency range three (FR3) system test requires phase and time-coherent multichannel emulation using semi-deterministic and deterministic channel models. Key performance metrics for 6G FR3 testing include beamforming gain, beam width, and sidelobe levels from the physical layer (PHY) to the application layer.
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