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How much FBMC/OQAM is better than FBMC/QAM? A tentative response using the POPS paradigm
A major trend of the current research in 5G is to find well time and frequency localized
waveforms, dedicated to non‐orthogonal wireless multi‐carrier systems. The **‐pong …
waveforms, dedicated to non‐orthogonal wireless multi‐carrier systems. The **‐pong …
A fair sinr performance comparison of FBMC/OQAM and FBMC/QAM multicarrier communication systems in the discrete-time framework
In the last couple of decades, multicarrier modulations have witnessed a considerable
interest in wireless communication networks due to their ability to fight against multipath …
interest in wireless communication networks due to their ability to fight against multipath …
POPS-OFDM: **-pong optimized pulse sha**-OFDM for 5G systems
Recently, Orthogonal Frequency Division Multiplexing (OFDM) has gained more attention as
an effective technique for high data rate future wireless communication systems. In order to …
an effective technique for high data rate future wireless communication systems. In order to …
Bridging the gap between CP-OFDM and ZP-OFDM for the provision of ultra-low latency services in 5G
In this paper, we introduce and characterize a new filter bank multicarrier (FBMC)
architecture, based on flexible zero padding (FZP), suitable for applications obeying …
architecture, based on flexible zero padding (FZP), suitable for applications obeying …
Efficient Offline Waveform Design Using Quincunx/Hexagonal Time‐Frequency Lattices
Conventional orthogonal frequency division multiplexing (OFDM) may turn to be
inappropriate for future wireless cellular systems services, because of extreme natural and …
inappropriate for future wireless cellular systems services, because of extreme natural and …
POPS-OFDM with different Tx/Rx pulse shape durations for 5G systems
An increased user demand for high data rate wireless networks and a growing number of
connected devices with high mobility of terminals lead research activities to investigate how …
connected devices with high mobility of terminals lead research activities to investigate how …
Waveform Optimization in Multi‐Carrier Communications for 5G Technology
With respect to 4G, future 5G radio communication systems and beyond are expected to
bring new applications and services, with challenging requirements in terms of quality of …
bring new applications and services, with challenging requirements in terms of quality of …
Numerical characterization for optimal designed waveform to multicarrier systems in 5G
High mobility of terminals constitutes a hot topic that is commonly envisaged for the next Fifth
Generation (5G) of mobile communication systems. The wireless propagation channel is a …
Generation (5G) of mobile communication systems. The wireless propagation channel is a …
Efficient POPS-OFDM waveform design for future wireless communication systems
Future wireless networks are required to offer new applications and services, which will
experience high dispersions in time and frequency, incurred mainly by coarse …
experience high dispersions in time and frequency, incurred mainly by coarse …
On the Joint Use of Time Reversal and POPS-OFDM for 5G Systems
This paper investigates the efficiency of the combination of the **-pong Optimized Pulse
Sha**-Orthogonal Frequency Division Multiplexing (POPS-OFDM) algorithm with the Time …
Sha**-Orthogonal Frequency Division Multiplexing (POPS-OFDM) algorithm with the Time …