In recent years, evolution of technology has contributed a major role in the field of optical communication systems. There is an ever growing demand for transmitting signals at higher data rates and compensating the transmission impairments simultaneously. Speed of the signal transmission down the optical fiber is limited by transmission impairments that are characterized as linear or nonlinear losses. In my thesis, I lay a special emphasis on linear loss especially chromatic dispersion and it\u27s effect on an optical signal down the fiber and study the compensation techniques in an electrical domain challenging the methods employed in an optical domain. In this digital world, there is an increase in the evolution of electrical components ...
We present a comparative analysis of three popular digital filters for chromatic dispersion compensa...
We demonstrate (in real-time) electrical dispersion compensation in direct detection links using ana...
Component characterization is fundamental for understanding the limits of optical devices, sub-syste...
In recent years, evolution of technology has contributed a major role in the field of optical commun...
Chromatic dispersion (CD) is one of the most significant impairments in optical fiber communication ...
Chromatic dispersion (CD) is one of the most significant impairments in optical fiber communication ...
The achievable information rates of optical communication networks have been widely increased over t...
Abstract: Problem statement: The performance of the optical network is highly dependent to Chromatic...
We investigate the design of electronic dispersion compensation (EDC) using full optical-field recon...
As bit rates of optical fibre communication are increased, chromatic dispersion increasingly becomes...
Abstract: Problem statement: Besides of some impairment that has been inherited form single channel,...
The achievable information rates of optical communication networks have been widely increased over t...
As bit rates of optical fibre communication are increased, chromatic dispersion increasingly becomes...
Abstract—Next-generation optical fiber systems will employ coherent detection to improve power and s...
The aim of this project is to study the various factors that cause dispersion in fiber optics and br...
We present a comparative analysis of three popular digital filters for chromatic dispersion compensa...
We demonstrate (in real-time) electrical dispersion compensation in direct detection links using ana...
Component characterization is fundamental for understanding the limits of optical devices, sub-syste...
In recent years, evolution of technology has contributed a major role in the field of optical commun...
Chromatic dispersion (CD) is one of the most significant impairments in optical fiber communication ...
Chromatic dispersion (CD) is one of the most significant impairments in optical fiber communication ...
The achievable information rates of optical communication networks have been widely increased over t...
Abstract: Problem statement: The performance of the optical network is highly dependent to Chromatic...
We investigate the design of electronic dispersion compensation (EDC) using full optical-field recon...
As bit rates of optical fibre communication are increased, chromatic dispersion increasingly becomes...
Abstract: Problem statement: Besides of some impairment that has been inherited form single channel,...
The achievable information rates of optical communication networks have been widely increased over t...
As bit rates of optical fibre communication are increased, chromatic dispersion increasingly becomes...
Abstract—Next-generation optical fiber systems will employ coherent detection to improve power and s...
The aim of this project is to study the various factors that cause dispersion in fiber optics and br...
We present a comparative analysis of three popular digital filters for chromatic dispersion compensa...
We demonstrate (in real-time) electrical dispersion compensation in direct detection links using ana...
Component characterization is fundamental for understanding the limits of optical devices, sub-syste...