Spectrum

The first 100 days of a new Administration and new Congress are critical to charting a clear, bipartisan course for our nation’s policy agenda. From COVID relief to budget decisions, take bold and decisive action to finish the job of connecting every American home, business and anchor institution to U.S. broadband infrastructure. Particularly amid a global pandemic, the fact that an estimated 18 million American homes do not have broadband access is unacceptable.

Technological innovation has long been and will continue to be critically important to per-capita income growth, economic competitiveness, and national security. So it is important to examine President-elect Joe Biden’s policy agenda through that lens. This report compiles information from the president-elect’s campaign website and policy documents, from the Democratic Party platform, and from media accounts of statements he has made.

Today, more than 9 million students lack proper access to reliable broadband internet at home, which creates obstacles for both the students and teachers.

Broadband expansion is at the top of Biden’s telecom to-do list.

Players large and small are now building specially designed private 5G networks. In contrast with the 5G networks celebrated during the launch of the latest iPhone, these are intended as much for machines as people. Private networks are geographically constrained areas of coverage, intended to keep a local set of sensors, machines and computers in sync, and allow communications with the rest of the world as needed.

When we talk about spectrum policy innovation in 2020, dynamic spectrum sharing rests at the cutting edge. It’s become a powerful tool for squeezing the most value out of high-quality spectrum and meeting the growing demand for wireless services. Citizens Broadband Radio Service (CBRS)  may have been the Federal Communications Commission’s first major foray into dynamic sharing, but it was hardly our last.

The National Telecommunications and Information Administration's Institute for Telecommunication Sciences (ITS), the nation’s spectrum and communications lab, released a new official code base for the Irregular Terrain Model (ITM) for use by experts and non-experts alike. ITM is the fifth propagation model code base that ITS has released on GitHub. In addition to the C++ propagation model source code, ITS published packages that target the .NET development environment. ITS also code signs its propagation software.

The telecom industry turned out in force to oppose a recent Pentagon proposal to build a shared fifth-generation wireless network, with a familiar pot-stirrer making an exception: Dish Network. The satellite-TV company submitted a list of suggestions for the Department of Defense, which is exploring 5G technology for its own operations.

Back in 2017, 5G was a big focus of my remarks. But back then, 5G was largely hypothetical and aspirational. This year, I’m speaking to you just a few days after the release of the first 5G iPhone. Over the past three-plus years, 5G has gotten real—very real. How did we get from there to here? Obviously, many of you in the audience led the way. But I’d like to think the Federal Communications Commission put a tailwind at your back. I’d like to walk through the actions we’ve taken at the FCC to accelerate the arrival of the 5G revolution.