Apparatus for estimating channel spacing, apparatus for monitoring wavelength, and receiver

What is claimed is: 1. An apparatus for estimating channel spacing in a multicarrier optical communication system, comprising: a measuring unit configured to measure a spectrum gap width according to spectrum information of a received signal; and a determining unit configured to determine channel spacing by using the spectrum gap width according to a predefined corresponding relationship between the channel spacing and the spectrum gap width, wherein the measuring unit comprises: an acquiring module configured to acquire the received signal; an extracting module configured to extract the spectrum information from the received signal acquired by the acquiring module; and a measuring module configured to determine a reference power according to a predefined reference power level, and set a frequency difference between two frequency points in one of a left and right gap of a central channel in the spectrum information of the received signal corresponding to the reference power as the spectrum gap width. 2. The apparatus according to claim 1 , wherein the extracting module comprises: a serial-to-parallel converting module configured to divide the received signal into a predefined number of sections; a Fourier transform module configured to perform Fourier transform on each section of the received signal to obtain an initial spectrum of each section of the received signal; and a calculating module configured to calculate a modular square of the initial spectrum of each section of the received signal to obtain a power spectrum of each section of the received signal, and one of an average and a weighted average power spectra of all sections of received signals to obtain an averaged power spectrum of all sections of the received signals as the spectrum information. 3. The apparatus according to claim 2 , wherein the extracting module further includes: a time-domain windowing module configured to perform window function convolution on the initial spectrum of each section of the received signal. 4. The apparatus according to claim 1 , wherein the measuring unit further comprises: a spectrum recovery module configured to perform spectrum recovery on an input signal, and take use a spectrum recovered signal as a next input signal of a next step of processing. 5. The apparatus according to claim 4 , wherein the spectrum recovery module performs spectrum recovery on the input signal by multiplying an amplitude of each frequency point in an input signal spectrum of the input signal by a correction coefficient. 6. The apparatus according to claim 5 , wherein the correction coefficient is a reciprocal of a response amplitude of a receiver at each frequency point. 7. The apparatus according to claim 1 , wherein the measuring unit further comprises: a noise eliminating module configured to determine a noise floor power of the input signal, and subtract the noise floor power at each frequency point from an input signal to obtain a noise eliminated signal and set the noise eliminated signal as a next input signal of a next step of processing. 8. The apparatus according to claim 1 , wherein the apparatus further comprises: a joint processing unit configured to receive reference information transmitted by a neighboring receiver, and adjust the spectrum gap width according to the reference information. 9. A method for estimating channel spacing, including: measuring a spectrum gap width according to spectrum information of a received signal; and determining channel spacing by using the spectrum gap width according to a predefined corresponding relationship between channel spacing and the spectrum gap width, wherein the measuring the spectrum gap width according to the spectrum information of the received signal includes: acquiring the received signal; extracting the spectrum information from the received signal; and determining reference power according to a predefined reference power level, and setting a frequency difference between two frequency points in one of a left and right qap of a central channel in the spectrum information corresponding to the reference power level as the spectrum gap width. 10. The method according to claim 9 , wherein the extracting spectrum information from the acquired received signal includes: dividing the received signal into a predefined number of sections; performing Fourier transform on each section of the received signal to obtain an initial spectrum of each section of the received signal; and calculating a modular square of the initial spectrum of each section of the received signal, to obtain a power spectrum of each section of the received signal, and one of averaging and weighted averaging power spectra of all sections of received signals to obtain an averaged power spectrum of all the sections of the received signals as the spectrum information. 11. The method according to claim 10 , wherein after dividing the received signal into the predefined number of sections, the method further includes: performing window function convolution on the initial spectrum of each section of the received signals. 12. The method according to claim 9 , wherein the measuring the spectrum gap width according to the spectrum information of the received signal further includes: performing spectrum recovery on an input signal, and a using spectrum recovered signal as a next input signal of a next step of processing. 13. The method according to claim 12 , wherein the spectrum recovery is performed on the input signal by multiplying an amplitude of each frequency point in an input signal spectrum of the input signal by a correction coefficient. 14. The method according to claim 13 , wherein the correction coefficient is a reciprocal of a response amplitude of a receiver at each frequency point. 15. The method according to claim 9 , wherein the measuring the spectrum gap width according to the spectrum information of the received signal further includes: determining a noise floor power of the input signal, and subtracting the noise floor power at each frequency point of the input signal to obtain a noise eliminated signal and setting the noise eliminated signal as a next input signal of a next step of processing. 16. The method according to claim 9 , wherein the method further includes: receiving reference information transmitted by a neighboring receiver, and adjusting the spectrum gap width according to the reference information. 17. A coherent optical receiver, comprising an apparatus for estimating channel spacing, configured to measure a spectrum gap width according to spectrum information of a received signal, and determine channel spacing by using the spectrum gap width according to a predefined corresponding relationship between the channel spacing and the spectrum gap width, wherein the apparatus for estimating channel spacing is configured to: acquire the received signal; extract the spectrum information from the received signal; and determine a reference power according to a predefined reference power level, and set a frequency difference between two frequency points in one of a left and right gap of a central channel in the spectrum information of the received signal corresponding to the reference power as the spectrum gap width.