Time synchronization and signal detection in non-orthogonal unicast and broadcast networks
The next generation digital TV (DTV) broadcast, namely Advanced Television System
Committee (ATSC) 3.0, relies on substantial single frequency networks (SFN), each of which …
Committee (ATSC) 3.0, relies on substantial single frequency networks (SFN), each of which …
Broadcast Core Network (BCN): Paving the future path of DTT
Terrestrial broadcasting has been considered outdated for decades because of its lack of
flexibility in embracing emerging use cases on the IP media delivery landscape. Recent …
flexibility in embracing emerging use cases on the IP media delivery landscape. Recent …
Inter-tower communications network signal structure, and interference analysis for terrestrial broadcasting and datacasting
This paper presents the Inter-Tower Communications Network (ITCN) signal structure using
different combinations of multiplexing schemes, namely time-division multiplexing …
different combinations of multiplexing schemes, namely time-division multiplexing …
Broadcast core-network: Converging broadcasting with the connected world
The new ways to consume and deliver media content in a wireless environment have led to
a significant increase in the demand for spectrum resources. In addition, the arrival of next …
a significant increase in the demand for spectrum resources. In addition, the arrival of next …
In-band full-duplex communications in ATSC 3.0 single frequency network
Wireless in-band backhaul, aka in-band distribution links (IDL), is a spectrum-efficient and
cost-effective enabling technology to the realization of Advanced Television Systems …
cost-effective enabling technology to the realization of Advanced Television Systems …
Implementation of wireless backhaul and inter-tower communications with MIMO in ATSC 3.0
Wireless backhaul, ie, in-band distribution links (IDL) and inter-tower communications
networks (ITCN) were previously proposed as key enabling technologies for the next …
networks (ITCN) were previously proposed as key enabling technologies for the next …
Advanced NOMA-based RRM schemes for broadcasting in 5G mmWave frequency bands
A relevant solution for the high demand for new multimedia applications and services is
millimeter wave (mmWave) frequency band in 5G. However, in order to face the …
millimeter wave (mmWave) frequency band in 5G. However, in order to face the …
Signal isolation in full-duplex inter-tower communication networks: Field trials
Future digital terrestrial television (DTT) systems, such as ATSC 3.0, are evolving to offer
users new applications and services. These new applications (eg, target advertisement …
users new applications and services. These new applications (eg, target advertisement …
Implementation and test results of on‐channel repeater for ATSC 3.0 systems
Despite the successful launch of Advanced Television Systems Committee (ATSC) 3.0
broadcasting worldwide, broadcasters are facing obstacles in constructing void‐less large …
broadcasting worldwide, broadcasters are facing obstacles in constructing void‐less large …
In-band distribution link signal detection in ATSC 3.0
In-Band Distribution Link (IDL) was previously proposed to deliver backhaul signals to
Single Frequency Networks (SFN) transmitter as a low cost and spectrally efficient …
Single Frequency Networks (SFN) transmitter as a low cost and spectrally efficient …