Add to ORKGRecent experiments have proved MLSE receivers to be capable of supporting uncompensated transmission over standard fiber exceeding 1,000 km at 10 Gb/s, using only one sample per bit. In addition, both theoretical and experimental results show that MLSE can quite effectively mitigate dispersion and intra-channel non-linearity (such as SPM) together. Finally, reduced-state techniques are being proposed potentially allowing a quite substantial reduction of the MLSE processor complexity. In this talk, these aspects are going to be reviewed and MLSE limitations discussed. In addition, system scenarios where MLSE appears to be advantageous will be outlined. © 2007 IEEE
We examine the use of maximum likelihood sequence estimators (MLSE) in realising robust optical tran...
An optimized channel shortening method for reduced complexity MLSE detection enables the compensatio...
We analyze the performance of fractionally spaced maximum likelihood sequence estimation (MLSE) equa...
We present numerical evidence that maximum-likelihood sequence estimation (MLSE)-based receivers, as...
We experimentally demonstrated Intensity-Modulated Direct-Detection (IMDD) single-channel 1,040 km l...
We investigate experimentally the effectiveness of MLSE-EDC for application with signals distorted b...
We experimentally demonstrated Intensity-Modulated Direct-Detection (IMDD) single-channel 1,040 km l...
We experimentally investigated the performance of MLSE in chromatic dispersion-limited 10 Gb/s links...
We demonstrate 1,040km NRZ-IMDD transmission at 10Gbit/s over G.652 fibre, without any optical dispe...
We assess the performance of transmission systems utilizing electronic predistortion and MLSE equali...
We demonstrate 1,040km NRZ-IMDD transmission at 10Gbit/s over G.652 fibre, without any optical dispe...
Abstract — We investigate full-field detection based maximum likelihood sequence estimation (MLSE) f...
We carried out an off-line 10.7 Gb/s transmission experiment over installed fiber, using narrow-filt...
We investigate full-field detection-based maximum-likelihood sequence estimation (MLSE) for chromati...
This paper discusses the investigation of maximum-likelihood sequence estimation (MLSE) receivers op...
We examine the use of maximum likelihood sequence estimators (MLSE) in realising robust optical tran...
An optimized channel shortening method for reduced complexity MLSE detection enables the compensatio...
We analyze the performance of fractionally spaced maximum likelihood sequence estimation (MLSE) equa...
We present numerical evidence that maximum-likelihood sequence estimation (MLSE)-based receivers, as...
We experimentally demonstrated Intensity-Modulated Direct-Detection (IMDD) single-channel 1,040 km l...
We investigate experimentally the effectiveness of MLSE-EDC for application with signals distorted b...
We experimentally demonstrated Intensity-Modulated Direct-Detection (IMDD) single-channel 1,040 km l...
We experimentally investigated the performance of MLSE in chromatic dispersion-limited 10 Gb/s links...
We demonstrate 1,040km NRZ-IMDD transmission at 10Gbit/s over G.652 fibre, without any optical dispe...
We assess the performance of transmission systems utilizing electronic predistortion and MLSE equali...
We demonstrate 1,040km NRZ-IMDD transmission at 10Gbit/s over G.652 fibre, without any optical dispe...
Abstract — We investigate full-field detection based maximum likelihood sequence estimation (MLSE) f...
We carried out an off-line 10.7 Gb/s transmission experiment over installed fiber, using narrow-filt...
We investigate full-field detection-based maximum-likelihood sequence estimation (MLSE) for chromati...
This paper discusses the investigation of maximum-likelihood sequence estimation (MLSE) receivers op...
We examine the use of maximum likelihood sequence estimators (MLSE) in realising robust optical tran...
An optimized channel shortening method for reduced complexity MLSE detection enables the compensatio...
We analyze the performance of fractionally spaced maximum likelihood sequence estimation (MLSE) equa...