As President Obama approaches the end of his tenure in the White House, his team is launching a wireless networking research project that it hopes could be part of his wider legacy in the world of tech. Today, the Obama administration announced the Advanced Wireless Research Initiative, a group that will work on research aimed to “maintain U.S. leadership and win the next generation of mobile technology” and specifically developing wireless networking tech that will offer speeds 100 times faster than the 4G and LTE networks that are being used today.
Led by the National Science Foundation with participation from other organizations, tech companies like Samsung and carriers, the AWRI will receive $400 million from the government over the next seven years to develop and test new wireless networking technology in four “city-scale” testing platforms.
The AWRI, the administration says, is a direct result of the Federal Communications Commission’s (FCC) Spectrum Frontiers vote, which passed yesterday. Among other things, this will free up high-frequency millimeter wave spectrum for both licensed and unlicensed use. “This spectrum, in combination with other spectrum already available, promises to enable faster speeds, quicker response times (“lower latency”), and increased capacity in future wireless networks,” the AWRI notes.
While AWRI has a heavy government-standards slant to it, it will also include contributions from a long list of tech companies and carriers, which makes some sense: they would like a seat at the table both to have a say in what will form the next set of standards, and an early start in staking out a claim for being the providers of those next-gen services. They include all of the major carriers in the U.S., HTC, Intel, Oracle, Nokia and Samsung. Notably, Apple, Google and Microsoft are absent. We’re running full list of who is contributing what below.
This sounds like an ambitious and wide-ranging effort, and one big question for me is how water-tight all of this will be when Obama leaves office. We’re getting in touch and asking the question. In the meantime, some very rosy commitments are being made public:
Initially there will be around $85 million invested in the project directly from the NSF, with another $350 million coming in the next seven years, which will include academic research and investment in the testing platforms. It’s also expecting “complementary efforts” from other federal agencies, it notes.
The scope of what the AWRI is addressing here goes beyond faster mobile connectivity, although that is a big part of it, considering that today there are now 350 million devices connected to wireless networks in the U.S. It is also attempting to look at (and guess) all the other applications where we might be using wireless tech down the road. These include medical applications, self-driving cars, IoT deployments in factories and elsewhere, fast networks for businesses, virtual reality and more.
On top of the announcement of the AWRI, the NSF is also putting its weight (and money) behind two other notable tech initiatives getting announced today.
It’s working with Intel Labs on a $6 million project to develop wireless edge networks for mega-fast, mega-large processing power.
And it is part of a $4.7 million project with the Academy of Finland (hence Nokia’s involvement in the AWRI?) to work on joint research projects with the European country, which will include “frameworks, architectures, protocols, methodologies, and tools for the design and analysis of robust and highly dependable wireless communication systems and networks, especially as they support and enable the Internet of Things.”
There are about a dozen other projects also part of today’s news, or related to it. Here’s a list of the main contributors to the main one of these, the launch of the AWRI:
- AT&T will provide on-site mobile connectivity in the cities selected as testing grounds for advanced wireless platform research.
- Carlson Wireless Technologies will contribute equipment, technology, and expertise in TV white spaces and dynamic spectrum sharing, allowing researchers to examine a variety of use cases including residential broadband and the Internet of Things.
- CommScope, in support of the testing platforms, will contribute connectivity solutions such as antennas, RF cabling, cabinets, small cells, and fiber optics.
- HTC will support the testing platforms by providing technical expertise, mobile devices, IoT sensors and virtual reality systems.
- Intel will contribute its portable 5G mobile trial platform and server equipment to the testing platforms, to assist in research on mmWave, multi-antenna array, steerable beamforming, novel radio interface techniques, and anchor-booster architecture.
- InterDigital will contribute financial support to the testing platforms and access to tools focused on areas like spectrum and bandwidth management, heterogeneous networks and backhaul.
- Juniper Networks will contribute software, systems, and expertise to help with the design and architecture of multiple research platforms to advance orchestration and authentication of massively-scalable, massively-distributed IoT networks, as well as new approaches to secure these networks.
- Keysight Technologies will support the testing platforms with a range of current and next-generation cellular and WLAN hardware and software products and with wireless experts to deliver consulting and testing assistance.
- National Instruments will provide equipment from its software defined radio platform to support next-generation wireless communications research in areas like mmWave and Massive MIMO.
- Nokia, together with Nokia Bell Labs, will provide financial contributions, research collaborations, governance, and product platform support, and will focus on software-defined radios, the Internet of Things, remote sensing, mmWave, security, new use cases and applications, and dynamic spectrum sharing.
- Oracle will provide core network controls, analytics, and network orchestration to researchers and help them understand the impact of subscriber behaviors, enhance orchestration, and bolster security.
- Qualcomm will contribute financial support as well as engineering equipment and guidance to help enable the testing platforms to explore new and innovative communication systems.
- Samsung will contribute research design and engineering expertise to the testing platforms, with a particular emphasis on technologies for future wireless networks in the 28GHz and other millimeter wave bands, as well as continued enablement for the Internet of Things.
- Shared Spectrum is contributing to the testing platforms technical expertise in dynamic spectrum sharing to support the design and architecture of research platforms.
- Sprint will support research and development to further the progress of advanced technologies slated for 5G and beyond. Sprint will provide technical expertise on network design, use cases, and architecture requirements for core and radio access networks and the devices that will access them.
- T-Mobile USA, Inc. will provide technical expertise to the testing platforms, including staff engineering assistance or advice in the design and deployment of the testing platforms.
- Verizon will contribute technical expertise to the testing platforms, such as staff engineering assistance in the design and deployment of the testing platforms, and in fixed and mobile systems, indoor and outdoor environments, and residential and commercial buildings.
- Viavi Solutions will provide test, measurement, assurance, and optimization solutions for lab and field trials for network and services to enable next-generation technologies for the always-connected society and Internet of Things.
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