Add to ORKGWe present a novel hardware architecture for digitally adaptive feed-forward equalization (FFE) suitable to compensate the inter-symbol interference (ISI) caused by chromatic (CD) and time-varying polarization mode dispersion (PMD) in intensity modulated optical links with direct detection (IM/DD). Existing analog tapped delay lines for realizing the equalization filter at a bit rate of 40 Gbit/s commonly use external manual or random dithering approaches for tap weight adjustment1,2. While manual tap weight adjustment is impractical for systems with randomly time-varying behavior, random dithering of the tap weights to find the optimal setup shows adaptation times above 1s which exceeds the measured PMD variations in installed fibers3 (~10...
We propose an accurate and low-complexity blind adaptive algorithm for chromatic dispersion (CD) com...
The achievable information rates of optical communication networks have been widely increased over t...
We demonstrate real-time CD equalization (CDE) for coherent optical transmission systems using a low...
Abstract—In this paper, we consider a fractionally spaced equalizer (FSE) for electronic compensatio...
We investigate fast and efficient adaptation algorithms for linear transversal feed-forward (FFE) an...
Gigabit optical fiber communications channels typically exhibit linear and nonlinear distortion as a...
Abstract A parallel architecture for linear transversal feed-forward (FFE) and decision feedback equ...
The performance of fiber optic communication links is often limited by a phenomenon know as dispersi...
This paper presents an adaptive blind electronic equalization technique for fiber dispersion compens...
We demonstrate real-time CD equalization (CDE) for coherent optical transmission systems using a low...
High bit rates optical communication systems pose the challenge of their tolerance to linear and non...
Most current multi-gigabit per second digital fiber optic systems use simple modulation and detectio...
High bit rates optical communication systems pose the challenge of their tolerance to linear and non...
Abstract: In high bitrate optical transmission systems the dynamic changes of the transmission chann...
We numerically investigate the combination of full-field detection and feed-forward equalizer (FFE) ...
We propose an accurate and low-complexity blind adaptive algorithm for chromatic dispersion (CD) com...
The achievable information rates of optical communication networks have been widely increased over t...
We demonstrate real-time CD equalization (CDE) for coherent optical transmission systems using a low...
Abstract—In this paper, we consider a fractionally spaced equalizer (FSE) for electronic compensatio...
We investigate fast and efficient adaptation algorithms for linear transversal feed-forward (FFE) an...
Gigabit optical fiber communications channels typically exhibit linear and nonlinear distortion as a...
Abstract A parallel architecture for linear transversal feed-forward (FFE) and decision feedback equ...
The performance of fiber optic communication links is often limited by a phenomenon know as dispersi...
This paper presents an adaptive blind electronic equalization technique for fiber dispersion compens...
We demonstrate real-time CD equalization (CDE) for coherent optical transmission systems using a low...
High bit rates optical communication systems pose the challenge of their tolerance to linear and non...
Most current multi-gigabit per second digital fiber optic systems use simple modulation and detectio...
High bit rates optical communication systems pose the challenge of their tolerance to linear and non...
Abstract: In high bitrate optical transmission systems the dynamic changes of the transmission chann...
We numerically investigate the combination of full-field detection and feed-forward equalizer (FFE) ...
We propose an accurate and low-complexity blind adaptive algorithm for chromatic dispersion (CD) com...
The achievable information rates of optical communication networks have been widely increased over t...
We demonstrate real-time CD equalization (CDE) for coherent optical transmission systems using a low...