Method, apparatus, and device for modulating orthogonal frequency division multiplexing optical signal

What is claimed is: 1. A method for modulating an orthogonal frequency division multiplexing optical signal, the method comprising: performing bit-to-symbol mapping on a baseband signal to obtain a symbol sequence of the baseband signal; performing serial-to-parallel conversion on the symbol sequence to obtain at least two sub symbol sequences of the baseband signal, wherein each sub symbol sequence of the baseband signal corresponds to a subcarrier of an orthogonal frequency division multiplexing (OFDM) signal; determining, from all subcarriers of the OFDM signal, a subcarrier used for loading a pilot signal, wherein content corresponding to the subcarrier used for loading the pilot signal comprises a sub symbol sequence of the baseband signal; determining a symbol sequence of the pilot signal according to information of the pilot signal, wherein the symbol sequence of the pilot signal is a discrete periodic sequence; updating, according to the information of the pilot signal, content corresponding to the subcarrier used for loading the pilot signal by replacing the sub symbol sequence of the baseband signal with the symbol sequence of the pilot signal; and performing inverse discrete Fourier transform, parallel-to-serial conversion, digital-to-analog conversion, and electrical amplification processing on content currently corresponding to all the subcarriers of the OFDM signal, and modulating a light wave by using processed data and a bias electrical signal, to form an OFDM optical signal loaded with the pilot signal. 2. The method according to claim 1 , wherein determining a symbol sequence of the pilot signal according to the information of the pilot signal comprises: determining a frequency of the pilot signal according to the information of the pilot signal, and determining a frequency of the subcarrier used for loading the pilot signal; and determining the symbol sequence of the pilot signal according to a relationship between the frequency of the pilot signal and the frequency of the subcarrier used for loading the pilot signal. 3. A method for modulating an orthogonal frequency division multiplexing optical signal, the method comprising: performing bit-to-symbol mapping on a baseband signal to obtain a symbol sequence of the baseband signal; performing serial-to-parallel conversion on the symbol sequence to obtain at least two sub symbol sequences of the baseband signal, wherein each sub symbol sequence of the baseband signal corresponds to a subcarrier of an orthogonal frequency division multiplexing (OFDM) signal; determining, from all subcarriers of the OFDM signal, a subcarrier used for loading a pilot signal; determining a frequency of the pilot signal according to information of the pilot signal and a frequency of the subcarrier used for loading the pilot signal; determining a symbol sequence of the pilot signal according to a relationship between the frequency of the pilot signal and the frequency of the subcarrier used for loading the pilot signal by: when the frequency of the pilot signal is higher than the frequency of the subcarrier used for loading the pilot signal, determining a symbol sequence obtained by performing Hilbert transform on the pilot signal as the symbol sequence of the pilot signal; or when the frequency of the pilot signal is lower than the frequency of the subcarrier used for loading the pilot signal, determining a conjugate sequence of a symbol sequence obtained by performing Hilbert transform on the pilot signal as the symbol sequence of the pilot signal; or when the frequency of the pilot signal is equal to the frequency of the subcarrier used for loading the pilot signal, determining a preset constant sequence as the symbol sequence of the pilot signal; updating, according to the symbol sequence of the pilot signal of the pilot signal, content corresponding to the subcarrier used for loading the pilot signal; and performing inverse discrete Fourier transform, parallel-to-serial conversion, digital-to-analog conversion, and electrical amplification processing on content currently corresponding to all the subcarriers of the OFDM signal, and modulating a light wave by using processed data and a bias electrical signal, to form an OFDM optical signal loaded with the pilot signal. 4. A method for modulating an orthogonal frequency division multiplexing optical signal, the method comprising: performing bit-to-symbol mapping on a baseband signal to obtain a symbol sequence of the baseband signal; performing serial-to-parallel conversion on the symbol sequence to obtain at least two sub symbol sequences of the baseband signal, wherein each sub symbol sequence of the baseband signal corresponds to a subcarrier of an orthogonal frequency division multiplexing (OFDM) signal; determining, from all subcarriers of the OFDM signal, a subcarrier used for loading a pilot signal, wherein the pilot signal is a periodic signal formed by superimposition of at least two periodic signals; updating, according to information of the pilot signal, content corresponding to the subcarrier used for loading the pilot signal; and performing inverse discrete Fourier transform, parallel-to-serial conversion, digital-to-analog conversion, and electrical amplification processing on content currently corresponding to all the subcarriers of the OFDM signal, and modulating a light wave by using processed data and a bias electrical signal, to form an OFDM optical signal loaded with the pilot signal, wherein a high-order harmonic wave component of the periodic signal formed by superimposition of the at least two periodic signals is smaller than a high-order harmonic wave component of any periodic signal in the at least two periodic signals. 5. The method according to claim 4 , wherein the at least two periodic signals are a square wave signal and a triangular wave signal. 6. A method for modulating an orthogonal frequency division multiplexing optical signal, the method comprising: performing bit-to-symbol mapping on a baseband signal to obtain a symbol sequence of the baseband signal; performing serial-to-parallel conversion on the symbol sequence to obtain at least two sub symbol sequences of the baseband signal, wherein each sub symbol sequence of the baseband signal corresponds to a subcarrier of an orthogonal frequency division multiplexing (OFDM) signal; performing inverse discrete Fourier transform and parallel-to-serial conversion on all the sub symbol sequences of the baseband signal to obtain a service signal time domain sequence of the baseband signal; determining, from all subcarriers of the OFDM signal, a subcarrier used for loading a pilot signal, wherein content corresponding to the subcarrier used for loading the pilot signal comprises content from an output of the parallel-to-serial conversion; determining a waveform value sequence of the pilot signal according to information of the pilot signal; updating, according to the information of the pilot signal, content corresponding to the subcarrier used for loading the pilot signal by superimposing the waveform value sequence of the pilot signal on the service signal time domain sequence, or by obtaining a product of the service signal time domain sequence and the waveform value sequence of the pilot signal, obtaining a loaded sequence, and superimposing the loaded sequence on the service signal time domain sequence; and performing digital-to-analog conversion and electrical amplification processing on content currently corresponding to all the subcarriers of the OFDM signal, and modulating a light wave by using processed data and a bias electrical signal, to form an OFDM optical signal loaded with the pilot signal. 7. A method for modulating an orthogonal frequency division multiplexin