Method and apparatus for correcting inter-channel power imbalance and receiver

What is claimed is: 1. An apparatus for correcting inter-channel power imbalance, applicable to an associated receiver in a multicarrier optical communication system, the apparatus comprising: a receiving unit configured to receive reference information transmitted by a neighboring receiver; and a correcting unit configured to perform power imbalance error correction according to the reference information, wherein the reference information is an estimation result of a spectrum gap width between a first channel and a second channel in the neighboring receiver, and the correcting unit comprises: a calculating module configured to one of average and weighted average the estimation result of the spectrum gap width between the first channel and the second channel in the associated receiver and the estimation result of the spectrum gap width between the first channel and the second channel in the neighboring receiver; and a correcting module configured to identify one of an averaged and weighted averaged value as the spectrum gap width between the first channel and the second channel; wherein the first channel is a central channel in the associated receiver and a neighboring channel in the neighboring receiver, and the second channel is a central channel in the neighboring receiver and a neighboring channel in the associated receiver. 2. The apparatus according to claim 1 , wherein the apparatus further comprises: a spectrum information acquiring unit configured to acquire a received signal and extract spectrum information from the received signal; and a gap width measuring unit configured to determine reference power according to a predefined reference power level, and set a frequency difference between two frequency points on a gap between the first channel and the second channel in the spectrum information of the received signal corresponding to the reference power as the estimation result of the spectrum gap width between the first channel and the second channel in the associated receiver. 3. The apparatus according to claim 2 , wherein the spectrum information acquiring unit 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 a spectrum of each section of the received signal; and a calculating module configured to calculate a modular square of the spectrum of each section of the received signal to obtain a power spectrum of each section of the received signal, and one of average and weighted average power spectra of all sections of the received signals to obtain an averaged power spectrum of all the sections of the received signals as the spectrum information. 4. The apparatus according to claim 3 , wherein the spectrum information acquiring unit further comprises: a time-domain windowing module configured to perform a window function convolution on the spectrum of each section of the received signal. 5. The apparatus according to claim 1 , wherein the apparatus further comprises: a spectrum recovery unit configured to perform spectrum recovery on an initial input signal, and use a spectrum recovered signal as a next input signal of a next step of processing. 6. The apparatus according to claim 5 , wherein the spectrum recovering unit performs the spectrum recovery on the initial input signal by multiplying an amplitude of each frequency point of the spectrum of the initial input signal by a correction coefficient. 7. The apparatus according to claim 6 , wherein the correction coefficient is a reciprocal of a response amplitude of a receiver at each frequency point. 8. The apparatus according to claim 1 , wherein the apparatus further comprises: a noise eliminating unit configured to determine a noise floor power of an initial input signal, and subtract the noise floor power at each frequency point of the initial input signal to obtain a noise eliminated signal as a next input signal of a next step of processing. 9. An apparatus for correcting inter-channel power imbalance, applicable to an associated receiver in a multicarrier optical communication system, the apparatus comprising: a receiving unit configured to receive reference information transmitted by a neighboring receiver; and a correcting unit configured to perform power imbalance error correction according to the reference information wherein the reference information is one of a power ratio of the second channel power to the noise floor power calculated in the neighboring receiver and power of the second channel calculated in the neighboring receiver to the noise floor power calculated in the neighboring receiver, and the correcting unit comprises: a determining module configured to determine a signal power ratio between the first channel and the second channel one of according to a power ratio of the first channel to the noise floor and the power ratio of the second channel to the noise floor and according to power of the first channel and the power of the second channel; and an adjusting module configured to adjust one of the power and a reference power of the second channel according to the signal power ratio; wherein, the first channel is a central channel in the associated receiver and a neighboring channel in the neighboring receiver, and the second channel is a central channel in the neighboring receiver and a neighboring channel in the associated receiver. 10. The apparatus according to claim 9 , wherein the apparatus further comprises: a spectrum information acquiring unit configured to acquire a received signal and extract spectrum information from the received signal; and a spectrum recovering unit configured to one of calculate the power ratio of the first channel to the noise floor and calculate the power of the first channel according to the spectrum information. 11. The apparatus according to claim 10 , wherein the spectrum information acquiring unit 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 a spectrum of each section of the received signal; and a calculating module configured to calculate a modular square of the spectrum of each section of the received signal to obtain a power spectrum of each section of the received signal, and one of average and weighted average 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. 12. The apparatus according to claim 11 , wherein the spectrum information acquiring unit further comprises: a time-domain windowing module configured to perform a window function convolution on the spectrum of each section of the received signal. 13. The apparatus according to claim 10 , wherein the spectrum recovering unit is further configured to: perform spectrum recovery on an initial input signal, and use the spectrum recovered signal as a next input signal of a next step of processing. 14. The apparatus according to claim 13 , wherein the spectrum recovering unit performs the spectrum recovery on the initial input signal by multiplying an amplitude of each frequency point of the spectrum of the initial input signal by a correction coefficient. 15. The apparatus according to claim 14 , wherein the correction coefficient is a reciprocal of a response amplitude at each frequency point.