Add to ORKGAn optimized channel shortening method for reduced complexity MLSE detection enables the compensation of severe inter-symbol interference. Experimental investigations demonstrate the benefit on the performance for a severely bandwidth limited 112-Gbit/s PAM-4 transmission system with residual chromatic dispersion
We experimentally demonstrated 140-Gb/s transmission over 20-km standard single-mode fiber employing...
The performance of an 11 Gbit/s NRZ transmission system over 1600km utilizing electronic pre-distort...
We investigate experimentally the effectiveness of MLSE-EDC for application with signals distorted b...
An optimized channel shortening method for reduced complexity MLSE detection enables the compensatio...
We experimentally demonstrate 112-Gbit/s PAM-4 over 80 km SSMF at 1550 nm. It is shown, that a chann...
Recent experiments have proved MLSE receivers to be capable of supporting uncompensated transmission...
We analyze the performance of fractionally spaced maximum likelihood sequence estimation (MLSE) equa...
We present a concept of improving MLSE by diverse reception. Simulation results show CD tolerance of...
We experimentally apply different MLSE schemes to 21.4-Gb/s NRZ-DQPSK. Joint- Symbol MLSE (JS-MLSE) ...
We demonstrate 84-Gb/s four-level pulse amplitude modulation (PAM-4) over up to 1.6-km standard sing...
In order to achieve high speed on electrical interconnects, channel attenuation at high frequencies ...
International audience—In this paper, we propose an efficient channel shortening algorithm, applied ...
The concept of Channel Shortening (CS) is a well-known technique that has a rich history over 40 yea...
The tolerance to narrow spectral filtering in presence of chromatic dispersion is investigated for 1...
In this paper, we experimentally demonstrate single channel 128Gbit/s and four lanes transmission wi...
We experimentally demonstrated 140-Gb/s transmission over 20-km standard single-mode fiber employing...
The performance of an 11 Gbit/s NRZ transmission system over 1600km utilizing electronic pre-distort...
We investigate experimentally the effectiveness of MLSE-EDC for application with signals distorted b...
An optimized channel shortening method for reduced complexity MLSE detection enables the compensatio...
We experimentally demonstrate 112-Gbit/s PAM-4 over 80 km SSMF at 1550 nm. It is shown, that a chann...
Recent experiments have proved MLSE receivers to be capable of supporting uncompensated transmission...
We analyze the performance of fractionally spaced maximum likelihood sequence estimation (MLSE) equa...
We present a concept of improving MLSE by diverse reception. Simulation results show CD tolerance of...
We experimentally apply different MLSE schemes to 21.4-Gb/s NRZ-DQPSK. Joint- Symbol MLSE (JS-MLSE) ...
We demonstrate 84-Gb/s four-level pulse amplitude modulation (PAM-4) over up to 1.6-km standard sing...
In order to achieve high speed on electrical interconnects, channel attenuation at high frequencies ...
International audience—In this paper, we propose an efficient channel shortening algorithm, applied ...
The concept of Channel Shortening (CS) is a well-known technique that has a rich history over 40 yea...
The tolerance to narrow spectral filtering in presence of chromatic dispersion is investigated for 1...
In this paper, we experimentally demonstrate single channel 128Gbit/s and four lanes transmission wi...
We experimentally demonstrated 140-Gb/s transmission over 20-km standard single-mode fiber employing...
The performance of an 11 Gbit/s NRZ transmission system over 1600km utilizing electronic pre-distort...
We investigate experimentally the effectiveness of MLSE-EDC for application with signals distorted b...