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Abstract: We propose a novel band-divided receiver structure that alleviates the required sampling rate of an A/D converter without a guard band.
In the receiver, received wideband signals are divided into a number of narrow band signals without any guard band. We develop a band-divided receiver prototype ...
the band-divided receiver prototype. We confirmed that the prototype divided wide-band signals into eight narrow-band signals as we had designed it to do.
It is demonstrated that the band-divided receiver prototype with its real-time OFDM demodulator and 1.5GS/s ADC can demodulate single polarization 12Gbit/s ...
In the receiver, received wideband signals are divided into a number of narrow band signals without any guard band. We develop a band-divided receiver prototype ...
SUMMARY. Over 100 Gbit/s/ch high-speed optical transmission is re- quired to achieve the high capacity networks that can meet future demands.
A prototype of the band-divided receiver, which processes a 6 GHz-bandwidth received signal, is developed and experimentally evaluated in a real-time OFDM ...
In the receiver, received wideband signals are divided into a number of narrow band signals without any guard band. We develop a band-divided receiver prototype ...
Therefore we propose using a band-divided receiver for optical wideband signals. The receiver is based on a heterodyne receiver structure, which enables it to ...
Bibliographic details on A Band-Divided Receiver Prototype for Wideband Optical Signals.