As we reach the midpoint of the 10-year cycle following the commercial launch of 5G in 2018/19, attention is increasingly shifting towards 6G.What lessons from 5G can be applied or avoided for 6G? Will this next generation of cellular help the industry finally deliver...
This webinar offers a comprehensive test and measurement perspective on 5G and 6G technologies as enablers of immersive virtual environments. Watch on-demand to explore spectrum utilization challenges and advancements, with a focus on the FR3 spectrum and THz frequencies. We also examine the critical role...
Machine learning (ML) has achieved tremendous success in a wide range of applications, such as image and video recognition, object detection and natural language processing. Over the last few years, researchers and key industry players have been investigating the native support of AI/ML-based models...
Learn about THz technology and new applications leveraging the strengths of electronics and photonics. Photonics can play a vital role in 6G, illustrated by several application examples.
Sub-terahertz and terahertz (THz) waves, ranging from 0.1 THz to 10 THz, fall in the spectral region between microwave and optical waves. The prospect of enabling transfer rates in the terabit/sec range make them a key research area of 6G mobile communication.
Sub-THz technologies require...
The frequency range from 7.125 GHz to 24.25 GHz is attracting attention as possible additional spectrum for 6G, and is already being unofficially referred to as FR3. The wavelength is attractive as compared to FR2 frequencies it is less susceptible to attenuation, simplifying coverage,...
Terahertz (THz) waves occupy spectrum between microwaves and optical waves. The prospect of large contiguous frequency bands to meet demand for extremely high data transfer rates in the Tbit/s range and for revolutionary services like joint communication and sensing is making this region a...
High frequencies completely new to mobile radio mean that researching channel characteristics to determine the effects on transmitted signals of propogation delays resulting from reflection, and losses due to scattering, are a major requirement for 6G research. In this video we demonstrate a test...
5G is a transformational technology designed to provide significant flexibility and support for a variety of use cases. From a network architecture perspective, 5G is defining a service based architecture (SBA) where different network functions (NFs) provide services via service-based interfaces. Download your free...
5G is a transformational technology designed to provide significant flexibility and support for a variety of use cases. In this white paper, we describe the emerging infrastructure trends of wireless networks for 4G, 5G, and beyond 5G. Such trends include:
Spectrum trendsDensification & coverage extension...
5G network development is driven by improved data services, higher mobile data rates, and reduced latency. However, legacy voice and video communication remain key services to maintaining subscriber happiness.
According to analysts, voice subscriptions worldwide will double annually until 2025. Such high demand means voice...
5G is evolving - from an adjunct technology to a solid communications standard that will change how we communicate with each other and the things around us. Although for many, it feels like we just got here, the evolution of 5G has already begun....
5G is evolving - from an adjunct technology to a solid communications standard that will change how we communicate with each other and the things around us. Although for many, it feels like we just got here, the evolution of 5G has already begun....
