NYU WIRELESS Founder Predicts FCC’s Proposed Rule Will Grow Amateur Radio Hobby and Inspire Future Engineers

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BROOKLYN, NY, April 4, 2019 /PRNewswire/ — In comments filed today with the Federal Communications Commission and members of Congress, the researcher is credited with proving to the wireless communications world that millimeter wave communications should become the backbone cellular 5G backbone and voiced support for a proposed FCC amateur radio rule, predicting it would open up exciting opportunities for the growth of amateur radio and encourage young people to listen and learn to electronics and communications.

Professor Theodore (Ted) Rappaportthe founder of the renowned NYU WIRELESS research center at the NYU Tandon School of Engineering and the world’s most cited author in the field of wireless communications, wrote:

“The FCC recently recognized a major problem that has existed for decades in amateur radio, and over the past few days has taken steps to institute vital new rules that will grow the hobby by reiterating the fundamental requirement that all radio communications are open, so the public can listen in.”

Rappaport was referring to the regulatory proposal RM-11831 by Ron Kolaricka radio amateur Nebraska who identified two key issues that have plagued the hobby for two decades, through the emergence of data communications and the Internet. In the regulatory petition, RM-11831, Kolarik noted that many stations inappropriately use effectively encrypted transmissions, essentially turning public amateur radio airwaves into a point-to-point private messaging system, in violation of many FCC rules. Rappaport had complained earlier to the FCC and Congress about the danger of such obfuscated messages to national security.

“Even in emergency communications, the FCC has made it clear that amateur radio traffic must always be open to public interception, so that anyone, including the public and other radio amateurs, can tune in to listen and learn, and even to help in an emergency,” Rappaport wrote. “Amateur radio is what led me and thousands of others to a career in electronics and communications, and it all started listening to shortwave, which then led me to amateur radio and my call sign N9NB as a teenager.These new regulations will ensure that young computer enthusiasts can use open source software and readily available decoding methods to listen while tinkering and engaging in a exciting hobby that fosters international goodwill and develops the soft skills and electronics know-how needed to succeed in science, technology, engineering, and math (STEM).”

In his recently filed case comments to the FCC, which were also sent to numerous congressional leaders, Rappaport acknowledged the efforts of the American Radio Relay League (ARRL): “I also applaud the ARRL’s recent acknowledgment of the issues of obfuscated data and digital aggression…that exist in the hobby today.”

“I’m proud to be a life member of the ARRL, but the ARRL only represents 20% of the 750,000 hams in the United States and comes out of a dark period. The ARRL’s past disregard for gross violations of FCC rules and numerous spurious petitions has led to stagnation in amateur radio. The current ARRL board realizes that changes to the hobby are needed, and RM-11831 recognizes past issues and sets the hobby on an exciting new path of growth, bringing amateur radio back to its fundamental purpose of opening up and building a pool of technical experts for our country.”

Rappaport said parts of the high frequency (HF) amateur radio service do have encrypted data. He explained the technical history: “In 1995, the FCC approved the use of open source amateur radio data, PACTOR 1, through 95-2106, which achieved the FCC’s goal of prevent the use of codes or ciphers intended to obscure the meaning of communications.

“Over the years, some privacy and data advocates have begun to undermine FCC Part 97 rules with tiny changes and highly nuanced language that allowed for ‘creative interpretation’ leading to frequent interference. with other hams and obfuscated data that a single sender and receiver can understand over public airways.This has been accomplished by compression and Automated Request Transmissions (ARQ) which require instant channel knowledge that only both sender and receiver can experiment. This provides effective encryption over the airwaves, and even other owners of radios equipped to receive ARQ cannot intercept the signals for their ordinary meaning.”

by Rappaport reviews include the Amateur Radio Safety Foundation, Inc. (ARSFI), which operates a global messaging system, Winlink, on the amateur radio shortwave spectrum as well as other frequency bands used by mariners and governments . Winlink uses a network of largely unattended automated relay stations that store and transmit messages around the world using the ionosphere. Hams have complained for decades to the FCC that such messages cannot be listened to live by the public, other ham operators, or even the FCC.

“The FCC has always been very clear that all amateur radio messages must be broadcast in broad daylight, for over-the-air copying by anyone in real time,” Rappaport said, citing numerous FCC rules suggesting that amateur radio spectrum is a gift. , like a national park, available for everyone to share.

“Having openly decodable communication is the only way to engage the public, self-police the amateur spectrum (as required by the FCC), and develop a healthy, open, and inclusive hobby that appeals to young people. The FCC l recognized with RM-11831. With this proposal, there will be no loss of emergency communication capabilities and no loss of legitimate data. The ruling simply reaffirms that all store-and-forward transmissions must be confined to FCC-assigned subbands already available for that type of data to avoid interfering with others, and that all transmissions will be openly decodable by other hams, the public and the FCC. I sincerely hope that by being able to listen, young people will be fascinated by the magic of radio, just as I and thousands of others did before the end of high school.”

The FCC accepts comments on RM-11831 until April 29, 2019.

About NYU WIRELESS
NYU WIRELESS is a multidisciplinary academic research center that offers an unprecedented and unique skill set. Centered at NYU Tandon School of Engineering and involving more than 100 faculty and students across the set NYU community, NYU WIRELESS provides its faculty, students, and industry affiliate sponsors with a world-class research environment that creates the fundamental theories and techniques for next-generation mass-deployable wireless devices in a wide range of applications and of markets. This center combines NYU Tandon, NYU School of Medicine and NYU Courant Institute of Mathematical Sciences, and offers deep expertise with unparalleled capabilities for creating new wireless circuits and systems as well as new healthcare solutions for industry. wireless. For more information, visit www.nyuwireless.com.

About New York University Tandon School of Engineering
The NYU Tandon School of Engineering dates back to 1854 when both the New York University School of Civil Engineering and Architecture and Brooklyn Collegiate and Polytechnic Institute (widely known as Brooklyn Poly). A January 2014 fusion has created a comprehensive school of teaching and research in engineering and applied sciences, rooted in a tradition of invention and entrepreneurship and dedicated to the advancement of technology in the service of society. In addition to its main location at brooklynNYU Tandon collaborates with other schools within NYU, one of the country’s leading private research universities, and is closely linked to the engineering programs of NYU Abu Dhabi and NYU Shanghai. It operates Future Labs focused on startups downtown manhattan and brooklyn and an award-winning online graduate program. For more information, visit http://engineering.nyu.edu.

Facebook: www.facebook.com/nyutandon
Twitter: @NYUTandon

SOURCE NYU Tandon School of Engineering

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