Fiber-optic communication apparatus, fiber-optic communication system, and optical power control method

What is claimed is: 1. A fiber-optic communication apparatus comprising: an optical monitor that monitors a wavelength division multiplexed (WDM) signal in which optical signals of multiple channels are multiplexed; a processor that calculates a control value for controlling an optical power of the WDM signal, based on a power spectrum detected by the optical monitor, in a unit interval of frequency narrower than a channel bandwidth of the WDM signal; and an optical power adjusting mechanism that adjusts the optical power of the WDM signal in the unit interval of frequency based on the control value. 2. The fiber-optic communication apparatus as claimed in claim 1 , wherein the processor calculates the control value so as to reduce an intra-band power deviation in each of the multiple channels of the WDM signal. 3. The fiber-optic communication apparatus as claimed in claim 1 , wherein the processor calculates the control value so as to reduce an inter-channel power deviation between the multiple channels of the WDM signal, and reduce an intra-band power deviation in each of the multiple channels of the WDM signal. 4. The fiber-optic communication apparatus as claimed in claim 1 , wherein the processor compensate for the power spectrum detected by the optical monitor, and calculates the control value based on the compensated power spectrum in the unit interval of frequency narrower than the channel bandwidth. 5. The fiber-optic communication apparatus as claimed in claim 4 , wherein the processor compares an optical power level of the compensated power spectrum with a target power level in the unit interval of frequency narrower than the channel bandwidth, and calculates the control value based on a comparison result. 6. The fiber-optic communication apparatus as claimed in claim 1 , wherein the fiber-optic communication apparatus receives received power spectrum information from a downstream fiber-optic communication apparatus, and wherein the processor calculates a wavelength dependence of the WDM signal based on the power spectrum detected by the optical monitor and the received power spectrum information, and calculates the control value based on the wavelength dependence in the unit interval of frequency narrower than the channel bandwidth. 7. The fiber-optic communication apparatus as claimed in claim 6 , wherein the processor compensates for the wavelength dependence in a frequency direction, and calculates the control value based on a compensated wavelength dependence. 8. The fiber-optic communication apparatus as claimed in claim 1 , wherein the fiber-optic communication apparatus receives power spectrum information of an unaffected WDM signal from an upstream fiber-optic communication apparatus, the unaffected WDM signal having been added in the upstream fiber-optic communication apparatus and having not yet travelled through a fiber-optic transmission line, and wherein the processor calculates the control value, based on the power spectrum detected by the optical monitor and the power spectrum information received from the upstream fiber-optic communication apparatus, in the unit interval of frequency narrower than the channel bandwidth. 9. The fiber-optic communication apparatus as claimed in claim 8 , wherein the optical monitor detects the power spectrum at frequency intervals narrower than the channel bandwidth. 10. The fiber-optic communication apparatus as claimed in claim 9 , wherein the optical monitor detects a first power spectrum of the WDM signal at the frequency interval narrower than the unit interval of frequency, the unit interval of frequency corresponding to a control interval of the optical power adjusting mechanism, and wherein the processor integrates the first power spectrum in a frequency direction to produce a second power spectrum that matches the unit interval of frequency. 11. The fiber-optic communication apparatus as claimed in claim 8 , wherein the processor calculates the control value so that the power spectrum detected by the optical monitor approaches the power spectrum information of the unaffected WDM signal. 12. The fiber-optic communication apparatus as claimed in claim 11 , wherein the processor calculates the control value so as to minimize an inter-channel power deviation in the WDM signal received from the upstream fiber-optic communication apparatus. 13. A fiber-optic communication system comprising: a first fiber-optic communication apparatus; a second fiber-optic communication apparatus; and a fiber-optic transmission line connecting between the first fiber-optic communication apparatus and the second fiber-optic communication apparatus, wherein the first fiber-optic communication apparatus or the second fiber-optic communication apparatus compensates for a power spectrum of a WDM signal transmitted from the first fiber-optic communication apparatus and received at the second fiber-optic communication apparatus through the fiber-optic transmission line, in a unit interval of frequency narrower than a channel bandwidth of the WDM signal, and controls an optical power level of the WDM signal in the unit interval of frequency based on the compensated power spectrum. 14. A fiber-optic communication system comprising: a first fiber-optic communication apparatus; a second fiber-optic communication apparatus; and a fiber-optic transmission line connecting between the first fiber-optic communication apparatus and the second fiber-optic communication apparatus, wherein the first fiber-optic communication apparatus or the second fiber-optic communication apparatus calculates a wavelength dependence of a WDM signal, based on a transmission power spectrum of the WDM signal to be transmitted into the fiber-optic transmission line and a received power spectrum of the WDM signal received from the fiber-optic transmission line, compensates for the wavelength dependence in a unit interval of frequency narrower than a channel bandwidth of the WDM signal, and adjusts an optical power level of the WDM signal in the unit interval of frequency based on the compensated wavelength dependence. 15. A fiber-optic communication system comprising: a first fiber-optic communication apparatus; a second fiber-optic communication apparatus; and a fiber-optic transmission line connecting between the first fiber-optic communication apparatus and the second fiber-optic communication apparatus, wherein the first fiber-optic communication apparatus or the second fiber-optic communication apparatus adjusts an optical power level of a WDM signal in a unit interval of frequency narrower than a channel bandwidth of the WDM signal, based on a first power spectrum of an unaffected WDM signal having been added in the first fiber-optic communication apparatus and having not yet travelled through the fiber-optic transmission line and a second power spectrum of the WDM signal having travelled through the fiber-optic transmission line and received at the second fiber-optic communication apparatus. 16. An optical power control method comprising: acquiring at a fiber-optic communication apparatus a power spectrum of a WDM signal in which signals of multiple channels are multiplexed; calculating at the fiber-optic communication apparatus a control value for controlling a power level of the WDM signal, based on the power spectrum, in a unit interval of frequency narrower than a channel bandwidth of the WDM signal; and adjusting the power level of the WDM signal in the unit interval of frequency, based on the control value.