We investigate the application of time and frequency packing techniques, an extension of the classical faster-than-Nyquist signaling, to long-haul optical links. These techniques provide a significant spectral efficiency increase and represent a viable alternative to overcome the theoretical and technological issues related to the use of high-order modulation formats. Adopting these techniques, we successfully demonstrate through simulations the transmission of 1 Tbps over 200 GHz bandwidth in a realistic (nonlinear) long-haul optical link
The demand for transmitting optical signals with high spectral efficiency (SE) by exploiting cost-ef...
The fifty-year progress of faster-than-Nyquist (FTN) signaling is surveyed. FTN signaling exploits n...
The constant growing in traffic demands has driven to look for new methods with which to reduce the ...
Abstract—We consider realistic long-haul optical links, with linear and nonlinear impairments, and i...
We consider realistic long-haul optical links, where nonlinear effects represent the main impairment...
We consider realistic long-haul optical links, with linear and nonlinear impairments, and investigat...
Several spectral efficient solutions for next-generation flexible optical networks are under investi...
Several spectral efficient solutions for next-generation flexible optical networks are under investi...
The increasing demand for higher spectral efficiency in long-haul optical communications paved the w...
Monumental growth of traffic load in the communication networks has heavily strained the existing fi...
In this paper, we survey Faster-than-Nyquist (FTN) signaling, an extension of ordinary linear modula...
We discuss a few promising applications of the faster-than-Nyquist (FTN) signaling technique. Althou...
Abstract—We recently investigated the spectral efficiency, achievable with a symbol-by-symbol receiv...
This chapter discusses the basics of the Nyquist signaling theory and various aspects regarding its ...
The fifty-year progress of faster-than-Nyquist (FTN) signaling is surveyed. FTN signaling exploits n...
The demand for transmitting optical signals with high spectral efficiency (SE) by exploiting cost-ef...
The fifty-year progress of faster-than-Nyquist (FTN) signaling is surveyed. FTN signaling exploits n...
The constant growing in traffic demands has driven to look for new methods with which to reduce the ...
Abstract—We consider realistic long-haul optical links, with linear and nonlinear impairments, and i...
We consider realistic long-haul optical links, where nonlinear effects represent the main impairment...
We consider realistic long-haul optical links, with linear and nonlinear impairments, and investigat...
Several spectral efficient solutions for next-generation flexible optical networks are under investi...
Several spectral efficient solutions for next-generation flexible optical networks are under investi...
The increasing demand for higher spectral efficiency in long-haul optical communications paved the w...
Monumental growth of traffic load in the communication networks has heavily strained the existing fi...
In this paper, we survey Faster-than-Nyquist (FTN) signaling, an extension of ordinary linear modula...
We discuss a few promising applications of the faster-than-Nyquist (FTN) signaling technique. Althou...
Abstract—We recently investigated the spectral efficiency, achievable with a symbol-by-symbol receiv...
This chapter discusses the basics of the Nyquist signaling theory and various aspects regarding its ...
The fifty-year progress of faster-than-Nyquist (FTN) signaling is surveyed. FTN signaling exploits n...
The demand for transmitting optical signals with high spectral efficiency (SE) by exploiting cost-ef...
The fifty-year progress of faster-than-Nyquist (FTN) signaling is surveyed. FTN signaling exploits n...
The constant growing in traffic demands has driven to look for new methods with which to reduce the ...