ISART 2017

Online advance registration for ISART 2017: Spectrum Mining at Millimeter Waves August 15-17 in Broomfield, Colorado is now closed, but on site registration will be available.

Digging for Capacity: As more spectrum users squeeze into the lower frequency bands, more are also exploring the higher frequencies to meet their capacity needs. Millimeter wave frequencies, approximately 20 GHz and above, are able to meet some needs. ISART 2017, the 16^th in this series of high quality symposia will explore millimeter waves, the technical challenges they present, and applications that use them. This year’s tutorial and four panels will approach this topic from five different perspectives: regulation, industry, standards, measurement and modeling, and systems. Industry demonstrations and poster sessions from academia will round out the conference. The goal of ISART 2017 is to get us all talking, exploring new ideas, brainstorming, and perhaps even solve a couple of millimeter wave obstacles. To take advantage of potential synergies, a CSMAC meeting and a WSRD meeting are scheduled during the same week. Read more here, or check out the Draft Agenda and the Panel Descriptions.

Research Spotlight: A Promising Crowdsourcing Research Experiment

The results are in—when it comes to speech intelligibility testing, the crowd and human subjects in a lab have a lot in common. Initial results from a crowdsourced speech intelligibility test designed by ITS align closely with similar testing done in the lab. Since crowdsourced testing requires significantly less time and money than laboratory testing, this could help ITS quickly gather large amounts of high-quality speech intelligibility data as part of a more efficient overall test plan.

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ITS Open Sources the Extended-Hata Urban Propagation Model

Evolving and improving the science behind spectrum sharing is essential to NTIA’s commitment to meeting the demand for spectrum among federal and commercial users. Just as collaboration between spectrum users can unlock sharing opportunities, researchers can work together to advance spectrum efficiencies and mitigate interference.

ITS has taken a major step toward better collaboration by publishing a reference implementation of the Extended-Hata Urban Propagation Model (eHata) in the NTIA/ITS GitHub at https://github.com/NTIA/ehata. ITS created eHata to predict propagation of new commercial broadband services in the 3.5 GHz band. An analysis of those predictions enabled regulators to significantly expand commercial access to the 3.5 GHz band through the establishment of the Citizens Broadband Radio Service (CBRS). The analysis was presented in Technical Report TR-15-517: 3.5 GHz Exclusion Zone Analyses and Methodology. The analysis was based on propagation predictions performed by extending the Hata model, a radio propagation model for outdoor cellular transmissions at 150-1500 MHz that considers the effects of diffraction, reflection, and scattering caused by city structures. To predict propagation of new commercial broadband services in the 3.5 GHz band, NTIA engineers extended the Hata model in both frequency and distance, creating the Extended-Hata Urban Propagation Model (eHata).

The Hata propagation model considers the effects of diffraction, reflection, and scattering caused by city structures for outdoor cellular transmissions at 150-1500 MHz. NTIA engineers created eHata by extending the Hata model in both frequency and distance. By providing an open source implementation that is freely available for use and re-use, ITS hopes to advance development of widely accepted propagation models. Rather than duplicating efforts with competing versions of eHata, researchers can focus on enhancing and improving the open source implementation.

The Wireless Innovation Forum’s Spectrum Sharing Committee, which is developing the technical standards for the Spectrum Access System (SAS) that will enable commercial operations in the 3.5 GHz band, has proposed using eHata to calculate coverage and protection areas. WInnForum can now use or adapt the ITS source code for propagation prediction and focus their efforts on developing other aspects of the SAS functional architecture. The code can also allow other organizations and researchers that are interested in urban propagation modeling to engage with ITS to explore how best to model urban environments.

Whereas papers and reports disseminate knowledge unidirectionally, open source code repositories allow for two-way collaboration between ITS and the research community. ITS plans to continue to release open source reference implementations as it adds to the body of basic research on radio propagation modeling. These releases transfer the results of federally funded research and technology development to other researchers in this area, allowing other federal agencies as well as industry to leverage 100 years of ITS research expertise to address current and future spectrum issues.

New Publications

• NTIA Technical Report TR-17-525: Non-Linear Effects Testing of High Power Radar Pulses on 3.5 GHz Low-Noise Amplifiers June 2017, John E. Carroll; Geoffrey A. Sanders; Frank H. Sanders; Robert L. Sole; Jeffery S. Devereux; Edward F. Drocella Jr.. Future spectrum sharing between high-power radars and Citizens Broadband Radio Service Device CBSD in the 3550–3650 MHz (3.5 GHz) band could expose radio frequency (RF) receiver front-end low noise am...

• NTIA Technical Memo TM-17-524: Technology Gaps in First Responder Cameras May 2017, Margaret H. Pinson. This report identifies camera technology gaps that impact first responders. These technology gaps were identified by interviewing first responders about images, video, and camera systems in general. T...

This Month in ITS History

August 1912: Federal Regulation of U.S. Airwaves Begins

On August 13,1912, Congress passed the Radio Act of 1912 (Public Law 264), the first federal regulation on all radio transmissions in the United States. Prompted by the Titanic disaster earlier in the year this bill mandated trained radio users to monitor distress signals for any passenger ship in American waters. The Radio Act also required all broadcasters to receive a license. The provision was intended to reduce interference on emergency stations but it shaped broadcast radio, which was still in its infancy. The act gave the power of licensing and enforcement to the Department of Commerce and Labor (the Department of Labor was spun off in 1913). Commerce and Labor could impose fines of up to $2,500, seize broadcasting equipment, or revoke the license of broadcasters who failed to comply with the law. The Radio Act of 1912 was the first law to regulate land based radio operators and is considered to be the precedent for all regulation that came after it. Later laws created the Federal Communications Commission (FCC), and removed the burden of licensing and enforcement from the Department of Commerce. But the Department continued its radio work, advising the FCC and researching improvements in radio communication. Today, NTIA's Office of spectrum management regulates federal use of the spectrum, informed by the results of ITS research. ITS also helps solve the telecommunications problems of other federal agencies with expertise acquired over a century of research on behalf of the Department of Commerce.