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Institute for Telecommunication Sciences
the research laboratory of the National Telecommunications and Information Administration

What We Do

The Institute for Telecommunication Sciences (ITS) performs cutting-edge telecommunications research and engineering with both federal government and private sector partners. As its research and engineering laboratory, ITS supports NTIA by performing the research and engineering that enables the U.S. Government, national and international standards organizations, and many aspects of private industry to manage the radio spectrum and ensure that innovative, new technologies are recognized and effective. ITS also serves as a principal Federal resource for solving the telecommunications concerns of other Federal agencies, state and local Governments, private corporations and associations, and international organizations. The FY 2015 Technical Progress Report describes research performed in the past fiscal year.

ITS at MILCOM November 1-3

ITS hosted an NTIA booth at MILCOM 2016 November 1-3. On November 1, ITS engineer Chriss Hammerschmidt presented a paper on “Extracting Clutter Metrics From Mobile Propagation Measurements in the 1755-1780 MHz Band” that describes spectrum measurements ITS took during 2015 to inform and validate new radio wave propagation prediction models. ITS has been working to better understand how to factor in the effects of clutter (man-made structures and vegetation) when analyzing and predicting the behavior of radio waves—read about that in the NTIA blog "Understanding Spectrum Clutter—It’s Not About Neatness!" ITS and its predecessor labs within the Department of Commerce have been developing and improving propagation models since about 1909. These mathematical algorithms predict the behavior of radio waves, and they are an essential enabler for spectrum sharing. But increased demand for spectrum, advances in technology, and the tremendous increase in the everyday spectrum usage (sometimes referred to as the “noise floor”), mean that there are tremendous potential benefits from more research and testing to improve the accuracy of existing propagation models. The topic is of special interest to military communications professionals because frequency bands where they operate many critical communications systems are now being opened to sharing. ITS Director Keith Gremban moderated a Technical Panel on Spectrum Sharing - Issues and Approaches on November 2nd where some of the challenges of federal/non-federal spectrum sharing were discussed. Keith also chaired a Technical Paper Session on November 1 on MIMO and Directional Networking, techniques that can help to prevent interference among communications services sharing spectrum.

Research Spotlight: Speech Intelligibility

Speech intelligibility is one of the primary requirements the National Public Safety Telecommunications Council (NPTSC) Broadband Working Group defined for mission critical voice services like those to be delivered over the new nation-wide public safety broadband network that the First Responder Network Authority (FirstNet) is charged with deploying. The NPSTC requirements begin with “The listener MUST be able to understand [what is being said] without repetition.”

For years ITS has conducted various types of subjective testing in tightly-controlled laboratory conditions to sort through myriads of emerging telecom options to find those that sound better or work better in some respect. Where this work was directed towards intelligibility, it has been done through ITS’s participation in the Public Safety Communications Research (PSCR) program, a joint effort with the National Institute of Standards and Technology (NIST), and with the involvement of those who are directly affected—the public safety practitioners. A particular focus has been intelligibility in the presence of background noise to provide comparative intelligibility results for new digital speech and audio codecs, but now the work has expanded to include the condition of the communication network itself.

A new report issued this month describes comparative intelligibility results for new digital speech and audio codecs under different conditions of radio access network (RAN) degradation. Characterizing the relationship between the condition of the RAN and intelligibility is particularly important for mission critical voice because the events that stress the RAN may very well be events that also have critical intelligibility requirements.

One public safety related example would be an event that is escalating, requiring additional personnel to report to the scene. As more and more first responders share radio resources on the scene, those resources will be stressed more and more. As they are stressed, the voice data stream can be corrupted and packets or frames of data can be lost. Voice codecs use various mechanisms to compensate for packet loss or frame erasure—the more successfully they do this, the more “robust” they are and the more likely it is that the listener will be able to understand the message.

The test results published in NTIA Technical Report TR-17-522: Intelligibility of Selected Speech Codecs in Frame-Erasure Conditions can inform codec selection for mission critical voice applications, as well as the design, provisioning, and adaptation of these services and the underlying network. Most importantly, these results can allow those engineering activities to be driven by the critical user experience factor—speech intelligibility.

New Publications

This Month in ITS History

January 1949: First Televised Presidential Inauguration

On January 20, 1949, for the first time in history the inauguration of an American president was televised for all the nation to see. Democrat Harry S. Truman had narrowly defeated Republican Thomas Dewey to clinch the presidency, despite widespread predictions that Dewey would win. Supreme Court Justice Fred Vinson presided over the oath of office, and television cameras broadcast the event live to a nation that was quickly adopting the new television technology. Truman's speech laid out an anti-communist agenda that would guide his foreign policy decisions; it was heard and seen instantly by Americans in their living rooms throughout the country. This event, which began an ongoing tradition of televising inaugural addresses, might never have happened without the work of the National Bureau of Standards Radio Division. As the government’s primary scientific agency, the NBS began its engagement in radio research at the beginning of the 20th century and in television research a few decades later. While companies like RCA and NBC focused their energies on using the new medium to its fullest, NBS scientists researched radio wave propagation, transmission, and reception, and coordinated with their regulatory counterparts to manage the use of the airwaves. ITS, a direct descendant of the Radio Division, continues to work to improve telecommunication technology through fundamental and applied research and engineering. ITS researchers also contribute their expertise to the organizations that establish the national and international standards for television transmission and equipment.