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Single-carrier-and-multi-carrier-based hybrid transmission system

A hybrid transmission and single-carrier technology, applied in the field of communication, can solve the problems of small tolerance range of laser phase noise, lower quality of received optical signal, and high peak-to-average ratio of time-domain signals, so as to improve spectrum utilization efficiency and reduce nonlinear effects , the effect of large phase noise

Inactive Publication Date: 2011-11-02
UNIV OF ELECTRONIC SCI & TECH OF CHINA
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Problems solved by technology

However, a prominent problem of optical OFDM is that the peak-to-average ratio of its time-domain signal is very high, that is, its signal power fluctuates greatly.
This problem not only poses challenges to the design and manufacture of transmitters and receivers, but also causes the corresponding optical signals to cause stronger nonlinear effects of optical fibers during optical fiber transmission, thereby reducing the quality of received optical signals.
Another problem with optical OFDM is that it is sensitive to phase noise, including the phase noise of the laser
Multi-carrier systems use low-rate sub-carriers, and their tolerance to laser phase noise is relatively small. Therefore, optical OFDM systems need to use lasers with narrow linewidths, and the cost is high

Method used

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  • Single-carrier-and-multi-carrier-based hybrid transmission system
  • Single-carrier-and-multi-carrier-based hybrid transmission system
  • Single-carrier-and-multi-carrier-based hybrid transmission system

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Embodiment Construction

[0041] There are many single-carrier modulation methods. After several years of development and comparison, QPSK has been established as the most cost-effective modulation format. It can realize the spectral efficiency of 2bit / s / Hz, and realize the same receiving sensitivity as BPSK. Therefore, in this embodiment, QPSK is selected as a representative technology of single carrier.

[0042] Such as image 3 As shown, the transmitting end includes a transmitting end laser, PBS, PBC, OFDM transmitter, and QPSK transmitter; the transmitting end laser is connected to the input end of the PBS, and the x-polarized component output end of the PBS is connected to the carrier input end of the QPSK transmitter The output end of the other y-polarized component is connected to the carrier input end of the OFDM transmitter, and the data stream to be sent is respectively input to the modulation signal input end of the QPSK transmitter and the OFDM transmitter, and the output ends of the QPSK...

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Abstract

The invention provides an optical communication system, which has transmission performance higher than that of a single modulation way. Two modulation formats are multiplexed onto an optical carrier in a polarization multiplexing way to realize the hybrid transmission of the two different modulation formats. A polarization beam splitter splits laser into two paths, wherein one path adopts a single-carrier light modulation technology, and the other path adopts an orthogonal frequency division multiplexing (OFDM) light modulation technology. A polarization light combiner performs polarization multiplexing on modulated signals to finish a transmitter function. The peak-to-average ratio of light spectrums of the hybrid modulated signals is between that of single-carrier modulated signals and that of OFDM modulated signals. In the invention, a receiver selects an advantaged modulation format from the two modulation formats for the key signal processing of electrical dispersion compensation and digital phase compensation, thereby realizing the advantage complementation of the two modulation formats and improving overall system performance.

Description

technical field [0001] The invention belongs to the technical field of communication, and in particular relates to digital signal processing in a high-speed optical fiber transmission system. Background technique [0002] There are already many different modulation formats in optical fiber communication systems, but it is not easy to choose a modulation format suitable for high-speed optical communication. The main reason is that different modulation formats have different characteristics, such as different spectral efficiency, cost and computational complexity. . At present, the receiving end of the high-speed optical transmission system uses a digital signal processor (DSP) to compensate the signal distortion caused by the optical fiber link, so as to increase the optical transmission rate has become an inevitable development direction. At present, the DSP at the receiving end in the high-speed optical transmission system mainly performs the following processing before de...

Claims

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Application Information

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IPC IPC(8): H04B10/12H04L27/26H04B10/2575
Inventor 易兴文邱昆
Owner UNIV OF ELECTRONIC SCI & TECH OF CHINA
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