Rohde & Schwarz

NVIDIA introduces a 6G Research Cloud Platform, integrating AI to transform future wireless communications. With partners like Ansys, Arm, ETH Zurich, Fujitsu, Keysight, Nokia, Samsung, and Northeastern University, this initiative aims to redefine connectivity.
In this session, we delved into the ongoing debate surrounding the rollout of Open RAN technology and its relation to the future of 6G. Industry participants have raised concerns about rushing the deployment of Open RAN and argue that waiting for 6G could provide a more organic implementation. Our panelists critically examined these viewpoints, exploring whether they hold merit and considering the potential implications for the industry. We discussed real-world deployment examples that challenge this perspective, highlighting successful implementations of Open RAN in existing networks.
The world of telecoms is gearing up for 6G, the next generation of mobile networks expected by 2030. Promising more than just telecommunications, 6G aims to incorporate features like sensing and massive IoT, ushering in Smart Networks and Services (SNS). This raises questions about the actual need for 6G – is it solving a real market gap, or is it a solution in search of a problem?
In this session, our panel of experts delved into the critical actions that need to be taken to ensure networks can maintain their functionality and performance in the wake of unforeseen events or disruptions. From physical infrastructure attacks to cyber threats at the application level, they explored the potential threats that can jeopardize network operations. Moreover, our panelists discussed a range of solutions including backup infrastructure, dynamic resource allocation, disaster recovery plans, drills, as well as strategies for enhancing network resilience, minimizing downtime, and effectively responding to and recovering from unexpected events.
While the worldwide deployment of 5G networks is ongoing, the discussion on the next generation of mobile networks, i.e., 6G, has already begun. But what is this next-generation network, and why do we need it? Is it simply an evolution of 5G, or is it a revolutionary technology delivering new advanced services or added value?
2022 was another year where mission-critical networks have been tested throughout various calamities in the region. Countries and services involved in critical communications are considering switching to mobile communications, but, is a time of crisis the right time for such a change? In this session, our experts will be discussing the 3GPP technology standards that enable mission-critical mobile networks, the vulnerabilities of existing legacy systems, the challenges of changing networks, and more.
MediaTek powered a smartphone with a 5G Non-Terrestrial Network (NTN) connection in a lab environment for the first time in collaboration with Rohde & Schwarz. 5G NTN technology will help boost service reliability across the globe by harnessing existing terrestrial networks and economies of scale in the cellular sector, making fast and reliable 5G connectivity much more accessible in unserved and underserved areas.

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Whitepaper
Explore how Generative AI is transforming telecom infrastructure by solving critical industry challenges like massive data management, network optimization, and personalized customer experiences. This whitepaper offers in-depth insights into AI and Gen AI's role in boosting operational efficiency while ensuring security and regulatory compliance. Telecom operators can harness these AI-driven...
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Whitepaper
The whitepaper, "How Is Generative AI Optimizing Operational Efficiency and Assurance," provides an in-depth exploration of how Generative AI is transforming the telecom industry. It highlights how AI-driven solutions enhance customer support, optimize network performance, and drive personalized marketing strategies. Additionally, the whitepaper addresses the challenges of integrating AI into...
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Article & Insights
This article explores the deployment of 5G NR Transparent Non-Terrestrial Networks (NTNs), detailing the architecture's advantages and challenges. It highlights how this "bent-pipe" NTN approach integrates ground-based gNodeB components with NGSO satellite constellations to expand global connectivity. Key challenges like moving beam management, interference mitigation, and latency are discussed, underscoring...

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