A Nonlinear Impairment Compensation Method for High-Speed Coherent Polarization Multiplexing Systems
A nonlinear damage and polarization multiplexing technology, applied in transmission systems, electromagnetic wave transmission systems, electrical components, etc., can solve the problems of complex nonlinear damage compensation process and unsatisfactory compensation effect, and achieve damage compensation, expansion range, and low cost. The effect of complexity
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Embodiment 1
[0058] Aiming at the problem of nonlinear damage compensation in coherent optical systems, the present invention proposes a nonlinear damage compensation method based on label propagation algorithm (Label propagation algorithm, LPA), which is suitable for polarization multiplexing (Polarization Division Multiplexing, PDM) 16QAM, PDM -32QAM and PDM-64QAM and other modulation formats, such as figure 1 As shown, the method first processes the received signal through DSP processing such as resampling, dispersion compensation, time phase recovery, polarization demultiplexing, frequency offset and carrier phase recovery, and the method of the present invention is placed after the carrier phase recovery module, and proposes A nonlinear impairment compensation method suitable for high-speed coherent polarization multiplexing systems. The core idea of this method is to use the label propagation algorithm to realize the re-judgment of the received symbols based on the characteristics o...
Embodiment 2
[0090] In order to verify the effectiveness of the present invention, verify from two aspects of simulation and experiment in this embodiment:
[0091] In terms of simulation, using VPI and MATLAB to build such Figure 9The coherent optical transmission system shown can perform high-speed coherent polarization multiplexing single-carrier and WDM system simulation. The width is 100MHz and 100KHz respectively. The simulation system uses an optical switch to switch the optical link between single-channel and multi-channel transmission. The input power ranges from -7dBm to 4dBm, increasing by 1dB each time. In the optical fiber loop, we use a single-mode optical fiber with a span of 100km, the loss coefficient is 0.2dB / km, the dispersion coefficient is 17ps / (nm·km), the polarization mode dispersion is 0.2ps / √km, and the nonlinear coefficient is 1.3W -1 / km. Thereafter, an EDFA with a noise figure of 4dB is used to compensate the loss of the fiber link and introduce ASE noise....
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