Faster than Nyquist signaling increases the spectral efficiency of pulse amplitude modulation by accepting inter-symbol interference, where an equalizer is needed at the receiver. Since the complexity of an optimal equalizer increases exponentially with the number of the interfering symbols, practical truncated equalizers assume shorter memory. The power of the resulting residual interference depends on the transmit filter and limits the performance of truncated equalizers. In this paper, we use numerical optimizations and the prolate spheroidal wave functions to find optimal time-limited pulses that achieve minimum residual interference. Compared to root raised cosine pulses, the new pulses decrease the residual interference by an order of...
Bandwidth efficiency is a key objective in the design of a digital communication system. Traditional...
Within the context of faster-than-Nyquist signaling, a low-complexity multicarrier system based on s...
This paper proposes and experimentally demonstrates, for the first time, two new candidate pulse sha...
Faster than Nyquist signaling increases the spectral efficiency of pulse amplitude modulation by acc...
Indoor diffuse optical intensity channels are bandwidth constrained due to the multiple reflected pa...
Faster-than-Nyquist signalization enables a better spectral efficiency at the expense of an increase...
The future demand of increased transmission rate and bandwidth efficiency is of prime concern in the...
Mobile communication has become one of the most important and fast developing technology in the past...
Fast and reliable data transmission together with high bandwidth efficiency are important design asp...
We discuss a few promising applications of the faster-than-Nyquist (FTN) signaling technique. Althou...
peer reviewedThis work addresses the issue of interference generated by co-channel users in downlink...
In this paper, the design and analysis of a new bandwidth-efficient signaling method over the bandli...
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...
International audienceMulticarrier transmissions are classically based on undercomplete or exact Wey...
Bandwidth efficiency is a key objective in the design of a digital communication system. Traditional...
Within the context of faster-than-Nyquist signaling, a low-complexity multicarrier system based on s...
This paper proposes and experimentally demonstrates, for the first time, two new candidate pulse sha...
Faster than Nyquist signaling increases the spectral efficiency of pulse amplitude modulation by acc...
Indoor diffuse optical intensity channels are bandwidth constrained due to the multiple reflected pa...
Faster-than-Nyquist signalization enables a better spectral efficiency at the expense of an increase...
The future demand of increased transmission rate and bandwidth efficiency is of prime concern in the...
Mobile communication has become one of the most important and fast developing technology in the past...
Fast and reliable data transmission together with high bandwidth efficiency are important design asp...
We discuss a few promising applications of the faster-than-Nyquist (FTN) signaling technique. Althou...
peer reviewedThis work addresses the issue of interference generated by co-channel users in downlink...
In this paper, the design and analysis of a new bandwidth-efficient signaling method over the bandli...
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...
International audienceMulticarrier transmissions are classically based on undercomplete or exact Wey...
Bandwidth efficiency is a key objective in the design of a digital communication system. Traditional...
Within the context of faster-than-Nyquist signaling, a low-complexity multicarrier system based on s...
This paper proposes and experimentally demonstrates, for the first time, two new candidate pulse sha...