This work addresses the issue of interference generated by co-channel users in downlink multi-antenna multicarrier systems with frequency-packed faster-than-Nyquist (FTN) signaling. The resulting interference stems from an aggressive strategy for enhancing the throughput via frequency reuse across different users and the squeezing of signals in the time-frequency plane beyond the Nyquist limit. The spectral efficiency is proved to be increasing with the frequency packing and FTN acceleration factors. The lower bound for the FTN sampling period that guarantees information losslesness is derived as a function of the transmitting-filter roll-off factor, the frequency-packing factor, and the number of subcarriers. Space-time-frequency symbol-le...
Monumental growth of traffic load in the communication networks has heavily strained the existing fi...
Fast and reliable data transmission together with high bandwidth efficiency are important design asp...
Cognitive radio applications require flexible waveforms to overcome several challenges such as oppor...
peer reviewedThis work addresses the issue of interference generated by co-channel users in downlink...
This paper tackles the problem of both multi-user and intersymbol interference stemming from co-chan...
This paper deals with the problem of the interference between multiple co-channel transmissions in t...
This paper addresses the problem of the interference between multiple co-channel transmissions in th...
We discuss a few promising applications of the faster-than-Nyquist (FTN) signaling technique. Althou...
peer reviewedThis paper investigates the problem of the interference among multiple simultaneous tra...
Faster-than-Nyquist signaling (FTNS) has emerged as a promising technique to increase communication ...
The fifty-year progress of faster-than-Nyquist (FTN) signaling is surveyed. FTN signaling exploits n...
The fifty-year progress of faster-than-Nyquist (FTN) signaling is surveyed. FTN signaling exploits n...
The utilization of multi-antenna transmitters relying on full frequency reuse has proven to be an ef...
The future demand of increased transmission rate and bandwidth efficiency is of prime concern in the...
Faster-than-Nyquist (FTN) signaling is a non-orthogonal transmission technique, which has the potent...
Monumental growth of traffic load in the communication networks has heavily strained the existing fi...
Fast and reliable data transmission together with high bandwidth efficiency are important design asp...
Cognitive radio applications require flexible waveforms to overcome several challenges such as oppor...
peer reviewedThis work addresses the issue of interference generated by co-channel users in downlink...
This paper tackles the problem of both multi-user and intersymbol interference stemming from co-chan...
This paper deals with the problem of the interference between multiple co-channel transmissions in t...
This paper addresses the problem of the interference between multiple co-channel transmissions in th...
We discuss a few promising applications of the faster-than-Nyquist (FTN) signaling technique. Althou...
peer reviewedThis paper investigates the problem of the interference among multiple simultaneous tra...
Faster-than-Nyquist signaling (FTNS) has emerged as a promising technique to increase communication ...
The fifty-year progress of faster-than-Nyquist (FTN) signaling is surveyed. FTN signaling exploits n...
The fifty-year progress of faster-than-Nyquist (FTN) signaling is surveyed. FTN signaling exploits n...
The utilization of multi-antenna transmitters relying on full frequency reuse has proven to be an ef...
The future demand of increased transmission rate and bandwidth efficiency is of prime concern in the...
Faster-than-Nyquist (FTN) signaling is a non-orthogonal transmission technique, which has the potent...
Monumental growth of traffic load in the communication networks has heavily strained the existing fi...
Fast and reliable data transmission together with high bandwidth efficiency are important design asp...
Cognitive radio applications require flexible waveforms to overcome several challenges such as oppor...