Add to ORKGAbstract—We completely describe the covariance matrix method for the first time, and we use it to compute the noise evolution in a 10-Gb/s single-channel dispersion-managed soliton system propagating over 24 000 km. The linearization assumption upon which the covariance matrix method is based breaks down, unless we explicitly separate the phase and timing jitter of each pulse from the noise. We describe a procedure for carrying out this separation. Index Terms—Amplifier noise, linear approximation, Monte Carlo methods, optical fiber communication, optical Kerr effect
We review a recently proposed method for bit error rate (BER) evaluation of differential phase shift...
In the current development of coherent optical communication systems, nonlinear noise is considered ...
Many alternatives to classical intensity modulation schemes have recently been proposed for optical ...
Abstract—We present a novel linearization method to calculate accurate eye diagrams and bit error ra...
Abstract—We extend the noise covariance matrix method to dense wavelength-division-multiplexed (DWDM...
Abstract—An approach based on linearization that allows us to calculate the timing and amplitude jit...
Abstract—In this paper, we study the validity and limitations of the additive white Gaussian noise (...
This thesis presents analytical and numerical investigations of optical soliton transmission in op...
We investigate via experiments and simulations the statistical properties and the accumulation of no...
The dispersion-managed nonlinear Schrödinger (DMNLS) equation governs the long-term dynamics of syst...
Abstract—We use linearization to compute the noise evolution in a 10-Gb/s single-channel chirped ret...
We investigate the feasibility of simultaneous suppressing of the amplification noise and nonlineari...
Abstract There is a fundamental limit on the capacity of fibre optical communication system (Shannon...
Using an alternative approach for evaluating the Bit-Error Rate (BER), we present a numerical and ex...
Chromatic dispersion, Kerr nonlinearity, and amplified spontaneous emission (ASE) noise are three co...
We review a recently proposed method for bit error rate (BER) evaluation of differential phase shift...
In the current development of coherent optical communication systems, nonlinear noise is considered ...
Many alternatives to classical intensity modulation schemes have recently been proposed for optical ...
Abstract—We present a novel linearization method to calculate accurate eye diagrams and bit error ra...
Abstract—We extend the noise covariance matrix method to dense wavelength-division-multiplexed (DWDM...
Abstract—An approach based on linearization that allows us to calculate the timing and amplitude jit...
Abstract—In this paper, we study the validity and limitations of the additive white Gaussian noise (...
This thesis presents analytical and numerical investigations of optical soliton transmission in op...
We investigate via experiments and simulations the statistical properties and the accumulation of no...
The dispersion-managed nonlinear Schrödinger (DMNLS) equation governs the long-term dynamics of syst...
Abstract—We use linearization to compute the noise evolution in a 10-Gb/s single-channel chirped ret...
We investigate the feasibility of simultaneous suppressing of the amplification noise and nonlineari...
Abstract There is a fundamental limit on the capacity of fibre optical communication system (Shannon...
Using an alternative approach for evaluating the Bit-Error Rate (BER), we present a numerical and ex...
Chromatic dispersion, Kerr nonlinearity, and amplified spontaneous emission (ASE) noise are three co...
We review a recently proposed method for bit error rate (BER) evaluation of differential phase shift...
In the current development of coherent optical communication systems, nonlinear noise is considered ...
Many alternatives to classical intensity modulation schemes have recently been proposed for optical ...