LDM Core Services Performance in ATSC 3.0

“…More comparisons between LDM and TDM can be found in [17]. Reference [19] provides performance evaluation results of the LDM core layer in mobile channels.…”

An Overview of the ATSC 3.0 Physical Layer Specification

“…More comparisons between LDM and TDM can be found in [17]. Reference [19] provides performance evaluation results of the LDM core layer in mobile channels.…”

An Overview of the ATSC 3.0 Physical Layer Specification

“…The seventh [7], eighth [8] and ninth [9] papers cover one of the main new technologies of ATSC 3.0: Layered Division Multiplexing (LDM), a form of non-orthogonal multiplexing access for simultaneously offering stationary and mobile/indoor services in the same radio frequency (RF) channel. LDM can also be used to provide local content insertion for each SFN transmitter with seamless local coverage.…”

ATSC 3.0 Next Generation Digital TV Standard—An Overview and Preview of the Issue

“…With this, a robust layer carries service to mobile receivers while a high capacity layer is intended to transmit services to fixed users. LDM can outperform traditional solutions for the delivery of fixed and mobile services based on Time Division Multiplexing (TDM) [5], [6], such as the use of physical layer pipes (PLPs) or future extension frames (FEFs) in the T2-Lite profile in DVB-T2 [7], or Frequency Division Multiplexing (FDM), as implemented in Integrated Services Digital Broadcasting -Terrestrial (ISDB-T) [8]. With LDM, each layer uses the full radio-frequency (RF) bandwidth and transmission time, leading to a higher spectral efficiency.…”

Layered Division Multiplexing With Multi-Radio-Frequency Channel Technologies