National 6G Roadmap Working Group:  North American 6G Roadmap Priorities

Over the last three years, Next G Alliance (NGA) has been studying the needs for the forthcoming 6G network and evaluating the readiness of potential technologies to be brought to standards and implementations. Ambitions have been high — carried by the momentum of an industry that has seen tremendous growth generation over generation. Hundreds of new use cases can easily be listed fueled by the potential of new technologies such as AI and Joint Communications and Sensing (JCAS). A wide range of vertical industries holds the promise for market expansion, particularly for new devices beyond the smartphone. But everything cannot be a priority if the industry is to form a consensus for development. Therefore, it is necessary to identify “Day 1” priorities to provide effective collaboration throughout the roadmap from research to deployments.

In May 2024, the NGA National 6G Roadmap Working Group (RWG) published a report on North American 6G Roadmap Priorities outlining the region’s perspectives and key priorities for the initial phase of 6G system standardization and development. The group identified nine representative use cases (highlighted in the graphic below) that capture the key North America needs and drivers for the underlying technologies and presented them in the 3GPP SA1 workshop held this May. Following publication of this report, the RWG held a workshop this summer to further discuss 6G priorities and expectations.

The Need for a Versatile Platform

5G and 5G-Advanced mainly focused on Enhanced Mobile Broadband (eMBB) and to some extent on FWA. Considering the wide range of expected use cases, it is clear that 6G should aim to be a versatile platform capable of supporting a broad spectrum of use cases rather than focusing too narrowly on any single use case or vertical industry. 6G could benefit from a more flexible approach that allows for greater customization based on the needs of different industries. This could involve building in a broader set of foundational technologies that can be adapted to a variety of applications, from consumer entertainment to industrial IoT and public safety. As 3GPP is beginning deliberations over the next year, it is imperative that these industries bring their use cases to early discussions so that the foundation of 6G is built with all stakeholders in mind. 

Defense Industries

Defense is one vertical industry that can benefit from increased versatility. While the industry is already well advanced in sensing and XR applications and use cases, an increase in flexibility will allow for custom adaptations to meet defense-specific requirements, such as the integration of alternative waveforms and enhanced security protocols. The flexible architecture that allows the maximum amount of disaggregation is suggested to be the single biggest principle that would benefit defense’s use of 6G technologies.

Future Devices

The 6G era will likely see a proliferation of new types of devices, each serving specific use cases. Augmented reality (AR) and virtual reality (VR) are areas in which 6G could make a substantial impact by providing the necessary bandwidth and low latency to support truly immersive experiences. The integration of AI in network management and service delivery could enable more efficient and personalized user experiences. AI-powered handsets, wearables, XR devices, and drones could be dominant devices in the 6G landscape. These new devices would need to be supported by the network infrastructure, requiring advancements in areas such as spectrum management, energy efficiency, and device interoperability. Also, the defense industry can leverage the ecosystem of these new commercial devices.

Critical Technologies

To enable a versatile platform for a broad range of use cases, 6G’s framework must be capable of supporting critical technologies such as Extreme MIMO, JCAS, and end-to-end AI/ML. While these may not be fully deployed initially, it is foreseen that these capabilities are essential for the longer-term uptake of 6G.  In addition, security, particularly in the context of post-quantum cryptography, is a critical concern for 6G development. As quantum computing advances, current encryption methods may become vulnerable, necessitating the adoption of new cryptographic techniques that can withstand quantum attacks.

Expectations of 6G Rollout in the 2030 Timeframe

The rollout of 6G will likely be an incremental evolution of 5G rather than a groundbreaking shift. This approach is expected because 6G is projected to build on the existing infrastructure of 5G Advanced, improving on its foundation rather than introducing entirely new technology. This will ensure that basic core services such as emergency calling, voice and basic data connectivity are included, which are the most fundamental use cases often taken for granted.  Initial 6G deployment is expected to focus on enhanced capacity, better utilization of available spectrum and new midband spectrum in the 7-15 GHz range and addressing the remaining gaps and unmet promises of 5G. It is also highly desirable to specify only a 6G standalone architecture (SA), allowing for a lean and smooth migration from 5G-SA towards 6G-SA. It will be necessary to improve cost and power efficiencies to motivate the migration from 5G to 6G systems, while enabling support for the NGA’s nine representative use cases listed earlier in this piece.


About the Authors

Amitava Ghosh

Chair at Next G Alliance National 6G Roadmap Working Group

Amitabha (Amitava) Ghosh (F’15) is a Nokia Fellow and works at Nokia Standards and Strategy. He joined Motorola in 1990 after receiving his Ph.D in Electrical Engineering from Southern Methodist University, Dallas. Since joining Motorola he worked on multiple wireless technologies starting from IS-95, cdma-2000, 1xEV-DV/1XTREME, 1xEV-DO, UMTS, HSPA, 802.16e/WiMAX and 3GPP LTE. He has 60 issued patents, has written multiple book chapters and has authored numerous external and internal technical papers. He is currently working on 5G Evolution and 6G technologies. Recently, he was elected chair of the Next G Alliance (an US 6G initiative) National Roadmap Working Group. His research interests are in the area of digital communications, signal processing and wireless communications. He is the recipient of 2016 IEEE Stephen O. Rice and 2017 Neal Shephard prize, member of IEEE Access editorial board and co-author of the book titled “Essentials of LTE and LTE-A”.

Doug Castor

Vice-Chair at Next G Alliance National 6G Roadmap Working Group

Doug Castor is Senior Director of Future Wireless Research and Innovation at InterDigital’s Philadelphia area office, where he leads the incubation and development of emerging technologies for wireless systems. Since joining InterDigital in 2000, he has led teams in both product development and research innovations for 3G through 6G cellular and other wireless technologies. Prior to joining InterDigital, Doug held Communication Engineer positions at General Electric, Lockheed Martin, and General Atronics. He holds over 25 granted U.S. patents. Doug earned a BSEE from the Pennsylvania State University (1992) and MSEE degree from the University of Pennsylvania (1995). Doug is an initiator and leader for the annual 6G Symposium which resulted in over 1000 online active participants in its debut in 2020. He currently holds board positions at NYU Wireless (Industry Board), and Northeastern University’s Wireless Internet of Things (Industry Board). Doug is a Vice Chair of ATIS’s Next G Alliance 6G National Roadmap Working Group, and editor of the first Roadmap Report.

Marc Grant

Vice-Chair at Next G Alliance National 6G Roadmap Working Group

Marc has 30 years’ experience in the mobile telecommunications industry, with the last 25 years at AT&T. His contribution to mobile broadband wireless communications spans emerging technologies, radio system performance aspects, spectrum needs, and overall standards management. Since 2003 he has chaired the Radio Aspects sub working group in ITU-R Working Party 5D (IMT Systems), successfully completing many significant ITU reports that have defined the global requirements and technology trends for 3G (IMT-2000), 4G (IMT-Advanced), 5G (IMT-2020). His group recently completed the Technology Trends Report for IMT-2030 (6G) and is currently working on the minimum technical performance requirements for IMT-2030. Marc has been Board Member of the European Telecommunications Standards Institute (ETSI) since 2008, serving as vice-chair from 2014-2018. He is vice-chair of the NextG Alliance Roadmap Working Group and has served in several leadership positions in 3GPP.