This paper presents an overview of the theory and currently known techniques for multi-cell MIMO (multiple input multiple output) cooperation in wireless networks.
The compressive sensing-based random access may get impacted largely by other cell interference (OCI), which may shatter the sparsity of the received signal model unless the signature space assignm
The fifth-generation (5G) radio networks will support ultra-reliable low-latency communications (URLLC).
Convective instabilities in laterally heated cavities can originate from different sources depending on the relative scales of the controlling parameters.
This document represents one section for a chapter in the book "5G Networks - an European vision".
Lossless modulation based on unitary spectro-temporal transformations allows modulation of independent waveforms onto lines from a frequency comb without any DeMUX/MUX.
A multi-channel data-clock-recovery circuit has been implemented in 3.3 V 0.35 μm CMOS technology capable of terminating up to 24 channels at both 65 MHz and 32 MHz.
We demonstrate nonlinearity compensation of 37.5-GHz-spaced 128-Gb/s PDM-QPSK signals using dispersion-folded digital-back-propagation and a spectrally-spliced receiver that simultaneously receives
We demonstrate nonlinearity compensation of 37.5-GHz-spaced 128-Gb/s PDM-QPSK signals using dispersion-folded digital-backwardpropagation and a spectrally-sliced receiver that simultaneously receiv
We propose a multichannel polarization-mode-dispersion (PMD) mitigation scheme in which forward-error-correction (FEC) is utilized in conjunction with distributed fast polarization scrambling that
