Title :
28-GBd 32QAM FMF Transmission With Low Complexity Phase Estimators and Single DPLL
Author :
van Uden, R.G.H. ; Okonkwo, C.M. ; Haoshuo Chen ; de Waardt, H. ; Koonen, A.M.J.
Author_Institution :
COBRA Inst., Eindhoven Univ. of Technol., Eindhoven, Netherlands
Abstract :
As spatial division multiplexed transmission systems employing few mode fibers (FMFs) rely heavily on digital signal processing (DSP), the impact of computational complexity should be considered. A key DSP process block is the carrier phase estimation (CPE), which consists of a phase estimator and digital phase locked loop (DPLL) per output. In this letter, a low complexity phase estimator is proposed, and the common-mode laser frequency offset is exploited to reduce the number of DPLLs. The combination of a low complexity CPE and single DPLL is experimentally demonstrated for a 28 GBd six-channel transmission over a 41.7-km FMF, carrying up to 32 quadrature amplitude modulation. Thereby, the nonlinear tolerances for the proposed CPE scheme are shown to perform similarly as the more computationally complex conventional CPE scheme.
Keywords :
communication complexity; digital phase locked loops; nonlinear optics; optical fibre communication; phase estimation; quadrature amplitude modulation; space division multiplexing; telecommunication channels; 28-GBd 32QAM FMF transmission; DSP; carrier phase estimation; common-mode laser frequency offset; computational complexity; digital phase locked loop; digital signal processing; few mode fibers; low complexity phase estimators; nonlinear tolerances; quadrature amplitude modulation; single DPLL; six-channel transmission; size 41.7 km; spatial division multiplexed transmission systems; Bit error rate; Digital signal processing; MIMO; Optical fiber polarization; Optical transmitters; Phase estimation; Signal to noise ratio; Coherent communications; digital signal processing; space-division multiplexing;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2014.2305450
