RT Journal Article
T1 Aligning the light without channel state information for visible light communications
A1 Morales Céspedes, Máximo
A1 Paredes Paredes, Martha Cecilia
A1 García-Armada, Ana
A1 Vanderdorpe, Luc
AB The use of light-emitting diodes (LEDs) for ambient illumination leads to visible light communications (VLC) as a promising technology for providing both constant lighting and high-speed wireless services in indoor environments. Since multiple LED sources can be transmitted to several users, this scenario naturally forms a multiple-user multiple-input single-output system. In this sense, transmit precoding (TPC) schemes based on channel state information at the transmitter (CSIT) originally devised for radio-frequency (RF) systems have been proposed for their implementation in VLC. However, beyond providing CSIT or the need for cooperation among transmitters, which also result challenging in RF systems, there are several constraints such as the non-negativity of the transmitted signal or providing constant illumination that hamper the performance of TPC schemes in VLC. Considering these constraints, this paper explores the use of blind interference alignment (BIA) for achieving multiplexing gain without CSIT or cooperation among LED lights. To do that, we devise the concept of reconfigurable photodetector that allows switching among distinct and linearly independent channel responses. Simulation results show that the use of BIA in VLC systems schemes based on the proposed reconfigurable photodetector results suitable for VLC systems.
PB IEEE
SN 0733-8716
YR 2018
FD 2018-01-01
LK https://hdl.handle.net/10016/30847
UL https://hdl.handle.net/10016/30847
LA eng
NO This work was supported in part by the ELISA Project under Grant TEC2014-59255-C3-3-R, in part by the Belgian Programme on Interuniversity Attractive Poles Programme initiated by the Belgian Science Policy Office: IUAP P7/23 “Belgian network on stochasticmodeling analysis design and optimization of communication systems” 2012–2017, in part by the Escuela Politécnica Nacional through the PIJ-16-01 Project, and in part by CEDIA through the CECIRA-IV-2016, 5G MIMO Project.
DS e-Archivo
RD 1 sept. 2024