This thesis focus on the digital equalization of fiber impairments for coherent optical transmission systems. New efficient and low-complexity equalization and mitigation techniques that counteract fiber nonlinear impairments are proposed and the tradeoff between performance and complexity is numerically assessed and experimentally demonstrated in metro and long-haul 400G superchannels-based transmission systems. Digital backpropagation (DBP) based on low-complexity split-step Fourier method and Volterra series nonlinear equalizers are experimentally assessed in an uniform superchannel system. In contrast with standard DBP methods, these techniques prove to be able to be implemented with larger step-sizes, consequently requiring a reduced n...
High power power transmission lines are of great importance for the functioning of all sectors of s...
Quantum computation may represent a progress of great value for the solution of some problems whose ...
The fifth generation of mobile communications (5G) is being prepared and should be rolled out in the...
The current society is increasingly dependent on communication services, requiring better and faster...
The aim of this work is to determine, quantify and model the performance degradation of wideband po...
In Fifth Generation (5G) scenarios, several challenges arise, special regarding devices' characteri...
The next generation, the fifth-generation (5G), is expected to deliver unprecedented data transmiss...
As the demand for faster and more secure communication systems continues to exhibit an exponential ...
Presents an analysis of feasibility of the application of multicarrier transmission application in a...
Optical communications have had a fundamental role in conecting people worldwide. More than ever, t...
The constant emergence of new products and services through communication networks, namely the Inter...
This dissertation aimed to study and develop optical Physically Unclonable Functions, which are phy...
Orientador : Prof. PhD. Bernardo LeiteCoorientador : Prof. PhD. André MarianoDissertação (mestrado) ...
The emerging concept of the Internet of Things (IoT) networks and smart cities, together with the c...
With the emergence of Low Power Wide Area Network (LPWAN) technologies, as support to Internet of T...
High power power transmission lines are of great importance for the functioning of all sectors of s...
Quantum computation may represent a progress of great value for the solution of some problems whose ...
The fifth generation of mobile communications (5G) is being prepared and should be rolled out in the...
The current society is increasingly dependent on communication services, requiring better and faster...
The aim of this work is to determine, quantify and model the performance degradation of wideband po...
In Fifth Generation (5G) scenarios, several challenges arise, special regarding devices' characteri...
The next generation, the fifth-generation (5G), is expected to deliver unprecedented data transmiss...
As the demand for faster and more secure communication systems continues to exhibit an exponential ...
Presents an analysis of feasibility of the application of multicarrier transmission application in a...
Optical communications have had a fundamental role in conecting people worldwide. More than ever, t...
The constant emergence of new products and services through communication networks, namely the Inter...
This dissertation aimed to study and develop optical Physically Unclonable Functions, which are phy...
Orientador : Prof. PhD. Bernardo LeiteCoorientador : Prof. PhD. André MarianoDissertação (mestrado) ...
The emerging concept of the Internet of Things (IoT) networks and smart cities, together with the c...
With the emergence of Low Power Wide Area Network (LPWAN) technologies, as support to Internet of T...
High power power transmission lines are of great importance for the functioning of all sectors of s...
Quantum computation may represent a progress of great value for the solution of some problems whose ...
The fifth generation of mobile communications (5G) is being prepared and should be rolled out in the...