5G Meets Media and Entertainment: Opportunities and Challenges - $15
Date: April 26, 2020Topics: 2020 BEITC Proceedings, Using 5G Broadcasting for Content DeliveryIt is forecast that video traffic is going to account for 74% of all mobile data traffic by 2024 when 5G ecosystem has been massively deployed around the world. This paper will discuss how 5G is going to shape media and entertainment consumption landscape in the next 10 years, as well as opportunities and challenges for the 5G network to serve the media and entertainment verticals.
The paper first reviews new business and service opportunities that could be enabled by 5G network with high throughput and low latency characteristics. We will then discuss the challenges from several aspects of 5G network and media technologies, including end-2-end wireless network optimization, enabling technologies in video encoding, packaging, and delivery. At last, a set of guiding principles is proposed to address these challenges.
Peng Tan | TELUS Communications Inc. | Toronto, ON, Canada
Jia Liu | TELUS Communications Inc. | Toronto, ON, Canada
5G-MAG Reference Tools: Putting 5G in Action for Media - $15
Date: April 23, 2022Topics: 2022 BEITC Proceedings, 5G Opportunities for BroadcastIn this paper, we present the 5G-MAG Reference Tools implementing features of 3GPP Rel. 16 5G Media Streaming and 5G Broadcast and demonstrate the use case “broadband-broadcast seamless switching.”
Daniel Silhavy | Fraunhofer FOKUS | Berlin, Germany
Klaus Kühnhammer | Bitstem GmbH | Hausleiten, Austria
Johann Mika | Austrian Broadcasting Services | Vienna, Austria
Thomas Stockhammer | Qualcomm | Munich, Germany
Jordi J. Gimenez | 5G-MAG | Geneve, Switzerland
8K JPEG XS Codec Adapted to SMPTE ST 2110 - $15
Date: October 9, 2021Topics: 2021 BEITC Proceedings, SMPTE ST2110 / IP-based FacilitiesNHK developed an 8K JPEG XS codec that can simplify our 8K production systems. The codec algorithm and the IP capsulator could be implemented on an FPGA owing to its light-weight processing feature.
Kota Itakura | Japan Broadcasting Corporation (NHK) | Tokyo, Japan
Masayuki Miyazaki | Japan Broadcasting Corporation (NHK) | Tokyo, Japan
Michael Van Dorpe | Village Island Co., Ltd. | Tokyo, Japan
A Case Study in All-Digital HD AM Broadcasting: Refinements, Performance Tests, and Lessons Learned - $15
Date: April 26, 2020Topics: 2020 BEITC Proceedings, Emerging Radio Technologies -- On-air and OnlineWWFD (820 kHz, Frederick MD), owned by Hubbard Radio and having engaged in a cooperative effort with Xperi Corporation to become the first AM broadcast station to transmit using the HD Radio MA3 mode full-time, commenced operations as such on July 16th, 2018. While initial performance met expectations in terms of coverage, a transmission problem occurred: the secondary and tertiary carriers, containing the stereo information and ancillary data services, were not being formed correctly and therefore suffering from excessive bit-error losses. Inadequate sampling of the baseband digital signal by the transmitter?s Pulse Duration Modulator (PDM) had led to excessive noise in the carriers and increased spectral regrowth in the transmitted RF signal. A second transmitter having a higher-phase PDM was installed, solving this issue. A further refinement was made by adding a phase rotation network to the day antenna, achieving Hermetian symmetry (already present on the night antenna), which presented a constant-conductance load to the transmitter. With the antenna system optimized, adaptive precorrection techniques were employed in the transmitter to minimize spectral regrowth, and improve signal robustness and receiver acquisition time. Day and night drive tests were conducted in the summer of 2019. Nighttime tests were repeated in the winter of 2019, to compare coverage with the reduced co-channel skywave interference conditions encountered earlier in the year.
With all-digital operation, the monitoring of licensed parameters must be revisited. Power measurement with regards to MA3 transmissions must be performed in a different manner than with standard analog AM transmissions, as pin-diode base current meters designed for AM do not accurately measure currents using the all-digital mode of operation. Procedures for performing power measurements with spectrum analyzers, power meters, and thermocouple RF ammeters are discussed.
Finally, some operational ?lessons learned? are presented. Techniques for optimal audio processing in conjunction with the high audio compression rate in the MA3 mode are discussed. A battery-protected power supply which keeps critical parts of the digital transmitter online during power interruptions was installed, thereby reducing system downtime during utility interruptions. It is hoped that the knowledge gained from WWFD?s experience will facilitate the conversion of other stations who are contemplating using the MA3 transmission mode.
Dave Kolesar | Hubbard Radio | Washington, DC USA
Mike Raide | Xperi Corporation | Columbia, MD USA
A Cloud-Capable Synchronized Transport Architecture for FM and HD Radio Broadcasting - $15
Date: April 23, 2022Topics: 2022 BEITC Proceedings, AM and FM HD RadioProcessed FM MPX, all HD audio and data can now be delivered directly to an FM transmitter with aligned FM and HD audio from global on-premise or cloud datacenters simplifying HD Radio transmission.
Philipp Schmid | Nautel Limited | Halifax, Nova Scotia, Canada
A Comparison of Video Encoders across H.264, HEVC and VVC - $15
Date: April 3, 2024Topics: 2024 BEITC Proceedings, Video Encoding and CodecsThere are a seemingly ever-increasing number of codecs available to be used, but the codec itself only sets the permitted methods that an encoder can use. Real-world encoders are specific implementations of codecs, and the way they are implemented makes a significant difference to the bitrate efficiency. So, comparing encoder implementations is more revealing than comparing theoretical encoders and this paper focuses on real-time live encoding, using encoders that are configured to evaluate this operating point. This paper examines the performance of actual implementations of codecs in real encoders, highlighting how they compare and how they may develop over future years, covering AVC (H.264), HEVC (H.265), VVC (H.266) and AV1. The specific encoders compared in this study are: x264, x265, SVT-AV1, VVenC, AVC and HEVC using SG1 and MediaKind’s current implementations of AVC, HEVC and VVC, as examples of commercial encoders with performance optimizations.
Tony Jones | MediaKind | Southampton, Hampshire, United Kingdom
Remi Houdaille | MediaKind | Southampton, Hampshire, United Kingdom
Matthieu Muller | MediaKind | Southampton, Hampshire, United Kingdom
