Add to ORKGNonlinear phase noise induced by the interaction of fiber Kerr effect and amplifier noises is a quadratic function of the electric field. When the dependence between the additive Gaussian noise and the quadratic phase noise is taking into account, the joint statistics of quadratic phase noise and additive Gaussian noise is derived analytically. When the error probability for differential phase-shift keying (DPSK) signals is evaluated, depending on the number of fiber spans, the signal-to-noise ratio (SNR) penalty is increased by up to 0.23 dB due to the dependence between the Gaussian noise and the quadratic phase noise
Abstract—A nonlinear phase jitter compensator is demonstrated in a differential-phase-shift-keying m...
We present a closed form expression to analyse the error performance of a differential phase-shift k...
Phase noise could be the major source of performance degradation in low cost low bit-rate digital sy...
AbstractWe analyzed the impact of nonlinear phase noise caused by Gorden-Mollenauer effect in single...
Abstract We propose an alternative analysis of the impact of nonlinear phase noise in DPSK systems w...
We propose an alternative analysis of the impact of nonlinear phase noise in DPSK systems with reali...
Abstract—This paper presents a novel method based on a parametric gain (PG) approach to study the im...
Nonlinear phase noise (NPN) in polarization-division-multiplexed DPSK systems is analyzed. It is fou...
We show that in dispersion-managed DPSK systems the nonlinear phase noise can be described by a Gau...
Abstract—In optical fiber transmission systems using inline am-plifiers, the interaction of signal a...
Abstract — We review a recently proposed method for bit error rate (BER) evaluation of differential ...
We review a recently proposed method for bit error rate (BER) evaluation of differential phase shift...
Digital signal processing (DSP) based coherent detection attracts extensive studies recently. DSP te...
The impact of phase noise induced by amplified spontaneous emission and nonlinear Kerr effect is ana...
A comprehensive theoretical analysis of noise statistics in optically pre-amplified DPSK receivers w...
Abstract—A nonlinear phase jitter compensator is demonstrated in a differential-phase-shift-keying m...
We present a closed form expression to analyse the error performance of a differential phase-shift k...
Phase noise could be the major source of performance degradation in low cost low bit-rate digital sy...
AbstractWe analyzed the impact of nonlinear phase noise caused by Gorden-Mollenauer effect in single...
Abstract We propose an alternative analysis of the impact of nonlinear phase noise in DPSK systems w...
We propose an alternative analysis of the impact of nonlinear phase noise in DPSK systems with reali...
Abstract—This paper presents a novel method based on a parametric gain (PG) approach to study the im...
Nonlinear phase noise (NPN) in polarization-division-multiplexed DPSK systems is analyzed. It is fou...
We show that in dispersion-managed DPSK systems the nonlinear phase noise can be described by a Gau...
Abstract—In optical fiber transmission systems using inline am-plifiers, the interaction of signal a...
Abstract — We review a recently proposed method for bit error rate (BER) evaluation of differential ...
We review a recently proposed method for bit error rate (BER) evaluation of differential phase shift...
Digital signal processing (DSP) based coherent detection attracts extensive studies recently. DSP te...
The impact of phase noise induced by amplified spontaneous emission and nonlinear Kerr effect is ana...
A comprehensive theoretical analysis of noise statistics in optically pre-amplified DPSK receivers w...
Abstract—A nonlinear phase jitter compensator is demonstrated in a differential-phase-shift-keying m...
We present a closed form expression to analyse the error performance of a differential phase-shift k...
Phase noise could be the major source of performance degradation in low cost low bit-rate digital sy...