The fifth generation (5G) communication has recently attracted much interest.
Wireless communications in the low terahertz band (0.1 THz-1 THz) is a promising candidate to enable ultra-high-rate vehicular networks beyond 5G.
We study the performance of time-of-arrival (ToA) localization for an indoor office environment.
Equipping base stations (BSs) with very large antenna arrays is a promising way to increase the spectral and energy efficiency of mobile communication systems without the need for new cell sites.
Channel power coupling due to gain ripple and tilt in constant gain controlled erbium doped fiber amplifiers is measured in a transmission line and shown to grow in cascade.
Power excursions resulting from SRS tilt-induced coupling created >3dB excursion in simulations of GMPLS end-to-end restoration on a continental scale network and the impact of wavelength depend
Base station cooperation is envisioned as a key technology in future mobile networks, as it reduces the interference between adjacent cells and promises enhancement of spectral efficiency.
Base station cooperation is a promising technique for next generation cellular systems as it reduces intercell interference.
We propose a technique to measure channel quality in terms of signal to interference plus noise ratio (SINR) for the transmission of signals over fading channels.
Accurate downlink link adaptation is a major challenge for ultra-reliable and low-latency communications (URLLC) as a consequence of the random and unpredictable load variations at the interfering
