Colocating AM Transmitter Facilities with Cellular Monopole Towers - $15
Date: April 26, 2020Topics: 2020 BEITC Proceedings, Broadcast Facility DesignCellular monopole towers can be efficiently used for AM transmitter facilities. Slant or shunt-fed antennas have been used for years, but recently the technique has become an efficient way use the ubiquitous cellular monopole as an AM antenna.
Co-locating the AM transmission facility with the cellular monopole is somewhat ironic. In the early days of cellular phone service development, AM broadcasters often leased space at the top of their AM towers for cellular carriers that were anxious to accommodate the rapidly developing cell phone market. Broadcasters modified their common series fed towers with skirt fed modifications to allow the installation of coaxial and power feeds across the antenna base to the cellular antennas mounted at the top of the AM tower.
Meanwhile, AM broadcasting has been in survival mode. Long-established AM transmitting sites are being displaced as a result of increasing real estate values and environmental restrictions. The AM broadcaster is also dealing with competition from online streaming and higher quality FM broadcasting. In the last decade, the number of licensed AM stations has declined by 188, while FM stations have increased by 1,242 according to FCC statistics.
Various means of relocation of AM antenna facilities have been developed with the most popular to co-locate with existing AM stations, with two or more stations sharing the same transmitter site where the common location will provide adequate service.
The technique of using a slant-fed or shunt-excited antenna was developed decades ago in the early development of AM radio. Today, with several thousand cellular monopole installations, many of them ranging from 100 to 200 feet high, many have the potential to serve as AM antennas.Several years ago, Ben Dawson of Hatfield and Dawson Engineers in Seattle, published a paper titled ?The Slant Wire Shunt Fed Monopole: A Neglected but Invaluable Technique?. In his paper, Dawson concludes that the slant wire feeds are simpler electrically than other ways of feeding grounded-based structures. The slant wire technique also imposes far less structural load and is less susceptible to weather-related damage in hostile climate conditions. Dawson also concludes the shunt-fed monopole provides convenient impedance matching, good bandwidth, and efficient radiation patterns.
James Dalke (the author) is implementing the Hatfield and Dawson designed slant-wire-fed cellular monopole for station KARR-AM, 1460 kHz, in Kirkland, WA. The new transmitter facilities are installed with a slant feed on a 125-foot cell tower. The station is licensed to operate with 740 Watts daytime and provides good coverage for the Kirkland area.
While the AM coverage from the new site is significantly less than the original site abandoned in 2011, KARR has an FM translator associated with the AM license under the FCC?s AM revitalization rules. The translator operates on 98.5 MHz with 250 Watts and provides a good signal for much of the Seattle market area that was covered by the original AM facility operating at 5 kW.
James A. Dalke | Dalke Broadcast Services, Inc. | Bellevue, WA
Stephen S. Lockwood | Hatfield and Dawson Consulting | Seattle, WA
ColorNet 1.5: Improving Machine Learning Color Correction for Video - $15
Date: October 9, 2021Topics: 2021 BEITC Proceedings, AI and Cloud Technologies for BroadcastingThis presentation will share the results of the expanded ColorNet algorithm and the compression format tests.
Michelle Mayer | Clemson University | Clemson, South Carolina, United States
Erica Walker | Clemson University | Clemson, South Carolina, United States
D. Hudson Smith | Clemson University | Clemson, South Carolina, United States
Comprehensive Study Of FM Multipath With Repeatable Results - $15
Date: April 26, 2020Topics: 2020 BEITC Proceedings, Refining Radio DeliveryMultipath is an unknown variable in FM broadcasting, and quite possibly the largest annoyance for listeners. Due to momentary changes in FM signal propagation, multipath is extremely difficult to measure in a repeatable manner. On account of this, it becomes difficult to rely on captured measurements to confirm or deny the effects of multipath, when evaluating FM coverage. Additionally, signal processing can affect, or aggravate multipath in a negative manner.
Today, there are software tools available which are capable to simulating the FM signal path, as well as generating multipath. Due to the controlled environment the software system provides, creating repetitive propagation profiles, as well as synchronized signal content profiles, enables the ability to generate, transmit, and measure FM multipath situations. The testbed provides results which are repeatable, as well as confidence in the data that was acquired.
This paper will detail and illustrate work that was done using MatLab as a testbed, in this study of multipath. Employing good engineering practice, it will also provide audible examples of the effects on multipath as caused by various signal processing methods such Single Sideband Suppressed Carrier (SSBSC), and dynamic limiter functions of the FM-Stereo system. This is no ad-hoc drive up a coastal highway!
Frank Foti | Telos Alliance | Cleveland, Ohio USA
Configuring Versatile Video Coding: Technical Guidelines for Broadcast and Streaming Applications - $15
Date: April 14, 2023Topics: 2023 BEITC Proceedings, Video Coding TechniquesVersatile Video Coding (VVC or H.266) is the latest video coding standard jointly developed by ISO/IEC MPEG and ITU-T VCEG. With best-in-class compression performance, VVC can enhance existing applications and enable new services. As the first VVC implementations enter the market, several application-oriented standards developing organizations and industry fora are defining VVC-based profiles and corresponding receiver capabilities. However, these specifications don’t typically prescribe how a service is realized and the impact of the codec’s operational parameters on delivered compression performance. To this end, the Media Coding Industry Forum has initiated the development of VVC technical guidelines. These guidelines will serve as a reference for VVC configuration choices to address operational, interoperability, and regulatory needs while achieving optimal compression performance. This paper presents an overview of the guidelines’ scope and development process, followed by a discussion of VVC configuration aspects, with focus on new features which are of utmost relevance to broadcast and streaming applications and concludes with analysis of performance for the presented scenarios.
Łukasz Litwic | Ericsson | Gdańsk, Poland
Dmytro Rusanovskyy | Qualcomm Technologies Inc | San Diego, California, United States
Sean McCarthy | Dolby Laboratories, Inc. | San Francisco, California, United States
Alan Stein | InterDigital Communications, Inc. | Princeton, New Jersey, United States
Convergence of Artificial Intelligence, Cybersecurity, and Broadcasting: Understanding a New Way of Looking at a Legacy Service - $15
Date: April 3, 2024Topics: 2024 BEITC Proceedings, Cybersecurity for BroadcastersThe convergence of Artificial Intelligence (AI), Cybersecurity, and Broadcasting represents a transformative juncture in multimedia. The forces driving this multidisciplinary synergy are technological advancements reshaping content creation, delivery, and protection. The author will discuss the implications of convergence, analyzing its impact on content production, distribution, and the evolving threat landscape, including customer premises, broadcaster networks, and vendor networks. As broadcasters increasingly rely on AI-driven content production, they must bolster cybersecurity to protect their media and business assets. In addition, customers must be aware of utilizing the existing protection provided by their intelligent televisions. Broadcasters may leverage AI and associated technologies to analyze viewer preferences and behavior, optimizing content curation and delivery. Strong cybersecurity measures are necessary to protect broadcast infrastructure (classified as critical infrastructure by DHS), safeguard viewers’ personal information, and maintain trust in the broadcasting industry. The evolving threat agent landscape further complicates the cybersecurity presence in broadcasting. As AI-driven technologies become integral to media operations, they become attractive targets for malicious actors. Cyberattacks on media organizations, including ransomware, data breaches, and content manipulation, have surged recently. In conclusion, the convergence of AI, Cybersecurity, and Broadcasting is reshaping the media ecosystem. AI-powered content creation and distribution offer new creative possibilities and business models, while cybersecurity becomes paramount to protect against emerging threats.
Henry McKelvey | One Media Technologies | Hunt Valley, Md., United States
