Skip to main content
U.S. flag

An official website of the United States government

Dot gov

Official websites use .gov
A .gov website belongs to an official government organization in the United States.

Https

Secure .gov websites use HTTPS
A lock ( ) or https:// means you've safely connected to the .gov website. Share sensitive information only on official, secure websites.

Advanced communications

ֱ promotes the development and deployment of advanced communications technologies by advancing the measurement science underlying wireless technologies for higher speeds, better connections and more pervasive access to communications systems.

Secure, reliable, high-speed wireless communications are critical to the economic and national competitiveness of the United States. Advanced communications are enabling dramatic changes in how consumers, manufacturers, governments and others provide and consume information, transact business, provide and use essential services, and shop, among other tasks. An predicts that by 2022 there will be approximately 29 billion connected devices globally, 500 million of which will be connected to 5G wireless networks. This insatiable societal demand for connectivity will require significant advancements in communication technologies. Accenture forecasts that over the next several years, wireless providers will invest approximately $275 billion in U.S. infrastructure, creating up to three million new jobs and boosting annual GDP by $500 billion.

ֱ is currently the U.S. government’s leader in fundamental and applied research, standards and government-academia-industry coordination for advanced communications technologies. 

Learn more about ֱ’s work in advanced communications and ֱ leadership in three spaces:

ֱ Advanced Communications: By the Numbers

200+ ֱ staff and associates in the Communications Technology Laboratory // 30+ ֱ experts leading global standards development organizations // 180+ participants from 80+ industry, academia and government organizations led by ֱ in the 5G mmWave Channel Model Alliance // 320+ technical publications in advanced radio frequency electromagnetics and advanced wireless since 2015
Credit: B. Hayes/ֱ

History of ֱ Communications leadership

building in the foreground; mountains in background
Credit: ֱ
In October 1949, Congress authorized $4.5 million for "the construction and equipment of a radio laboratory building for the National Bureau of Standards," which was established in Boulder, CO. Construction began in 1951 and was dedicated in September 1954 by President Dwight D. Eisenhower.

ֱ has led in developing innovative, ground-breaking solutions for communication technologies since the early 1900s. Specialists from ֱ created the first-ever radio receiver that could run on alternating current electricity, and pioneered a number of military applications including radio triangulation used to find ships and coordinate counter battery fire during World War I. 

The establishment of the DOC Boulder Labs in the 1950s, now the hub for ֱ’s Communications Technology Laboratory (CTL), was in large part to support radio communications research and standards programs for the then-nascent technology.

Over the ensuing 70 years, ֱ’s efforts in communication technologies, including its current work related to 5G-and-beyond advanced communications, are recognized as being among the best in the world and contribute directly to U.S. competitiveness and leadership in this technology sector, including in enabling the infrastructure for 5G-and-beyond communications.

ֱ and Updates

PSCR 2020: Most Watched Sessions

PSCR launched The Digital Experience on July 27 and during our first week - over 1,000 people got their first glimpse of the content we've been preparing all

Industry Impacts

Alliance for 5G Networks

The next generation of wireless communications technology will allow many more devices to send information much faster, making possible everything from virtual

Projects and Programs

Fiber Sources and Applications

Optical frequency combs convert a laser source containing a single frequency of light into pulses that include thousands of frequencies. This project aims to

Publications

Cryogenic Calibration of the RF Josephson Arbitrary Waveform Synthesizer

Author(s)
Justus A. Brevik, Alirio De Jesus Soares Boaventura, Akim Babenko, Manuel C. Castellanos Beltran, Nathan E. Flowers-Jacobs, Anna E. Fox, Peter F. Hopkins, Paul D. Dresselhaus, Dylan F. Williams, Samuel P. Benz
We performed a preliminary calibrated measurement of the output power of a Josephson arbitrary waveform synthesizer up to 1 GHz.We present the results and

Uncertainty of Large-Signal Measurements Under Variable Load Conditions

Author(s)
Konstanty Lukasik, Jerome G. Cheron, Gustavo Avolio, Arkadiusz Lewandowski, Dylan F. Williams, Wojciech Waitr, Dominique Schreurs
We thoroughly investigate the uncertainty of large-signal measurements when load conditions at the fundamental frequency change. In particular, we evaluate