Wavelength selective switch and method for correcting deviation of wavelength

What is claimed is: 1. A wavelength selective switch comprising: an input port and an output port; a wavelength demultiplexer that demultiplexes wavelength-multiplexed signal light into wavelengths in different optical paths; an optical-path controller that controls an array that has a plurality of switch elements, the plurality of switch elements switching all or a part of the wavelengths to be coupled from the input port to the output port; and an actuator driver that determines a driving amount based on a deviation of a center wavelength of a pass band from a reference wavelength and shifts the plurality of switch elements by the driving amount. 2. A wavelength selective switch comprising: an input port and an output port; a wavelength demultiplexer that demultiplexes wavelength-multiplexed signal light into wavelengths in different optical paths; an optical-path controller that controls an array that has a plurality of switch elements, the plurality of switch elements switching all or a part of the wavelengths to be coupled from the input port to the output port, the optical-path controller including an actuator driver that shifts the plurality of switch elements by a driving amount determined based on a deviation of a center wavelength of a pass band of amplified spontaneously emitted light from a reference wavelength; and an optical channel monitor that monitors the wavelength-multiplexed signal light coupled to the output port, the optical channel monitor including an ASE light detector and an ASE light signal processor, the ASE light detector detecting amplified spontaneously emitted light from at least one of a side of a short wavelength of the wavelength-multiplexed signal and the side of a long wavelength of the wavelength-multiplexed signal, and an ASE light signal processor calculating the deviation of the center wavelength of a pass band of the amplified spontaneously emitted light from the reference wavelength. 3. The wavelength selective switch according to claim 2 , wherein the switch elements correspond to the plurality of wavelengths, respectively, and at least other three switch elements correspond to the amplified spontaneously emitted light, and wherein an attenuation rate of a switch element that is among the other three switch elements and corresponds to the amplified spontaneously emitted light is set to a minimal rate, and attenuation rates of the switch elements that are among the other three switch elements and located on both sides of the switch element whose attenuation rate is set to the minimal rate are set to a maximal rate. 4. The wavelength selective switch according to claim 2 , wherein the ASE light detector detects the amplified spontaneously emitted light from the side of the short wavelength of the wavelength-multiplexed signal and the side of the long wavelength of the wavelength-multiplexed signal, and wherein the ASE light signal processor outputs the average of a deviation of the center wavelength of a pass band of the amplified spontaneously emitted light detected from the side of the short wavelength from the reference wavelength and a deviation of the center wavelength of a pass band of the amplified spontaneously emitted light detected from the side of the long wavelength from the reference wavelength. 5. The wavelength selective switch according to claim 2 , further comprising a converter configured to convert the calculated deviation into the amount of the relative shifting. 6. The wavelength selective switch according to claim 2 , wherein the actuator driver is an actuator that moves the array that has the switch elements. 7. The wavelength selective switch according to claim 2 , further comprising a converter configured to convert the calculated deviation into an amount of driving of the actuator. 8. The wavelength selective switch according to claim 2 , wherein the actuator driver is a reflection mirror that shifts the positions at which the light with the wavelengths is incident on the array that has the switch elements. 9. The wavelength selective switch according to claim 8 , further comprising a converter configured to convert the calculated deviation into the amount of a change in an angle of the reflection mirror. 10. The wavelength selective switch according to claim 2 , wherein the switch elements are areas that are included in a liquid crystal on silicon (“LCoS”) element array and divided so that the areas correspond to the plurality of wavelengths, respectively, and wherein the actuator driver is an LCoS element driving circuit that shifts a boundary between the divided areas of the LCoS element array. 11. The wavelength selective switch according to claim 10 , further comprising a converter configured to convert the calculated deviation into the number of pixels of the LCoS element array in which the boundary between the divided areas are shifted in a channel direction. 12. The wavelength selective switch according to claim 2 , wherein the switch elements are areas that are included in an LCoS element array and divided so that the areas correspond to the plurality of wavelengths, respectively, and wherein the actuator driver is a reflection mirror that shifts positions at which the light with the wavelengths is incident on the divided areas of the LCoS element array. 13. The wavelength selective switch according to claim 12 , further comprising a converter configured to convert the calculated deviation into the amount of a change in an angle of the reflection mirror. 14. The wavelength selective switch according to claim 2 , wherein the switch elements are MEMS mirrors. 15. The wavelength selective switch according to claim 2 , wherein the switch elements are combinations of MEMS mirrors and liquid crystal elements. 16. The wavelength selective switch according to claim 2 , wherein the ASE light detector includes a diffraction grating and a light detecting element array, and uses light detecting elements included in the light detecting element array to detect the amplified spontaneously emitted light dispersed by the diffraction grating. 17. The wavelength selective switch according to claim 2 , wherein the ASE light detector includes a tunable filter and a single light detector, and uses the light detector to detect a component of the amplified spontaneously emitted light swept by the tunable filter. 18. A wavelength selective switch that is used for a wavelength multiplexing communication system, comprising: switch elements that correspond to a plurality of wavelengths multiplexed into an optical signal, respectively; and at least other three switch elements that correspond to amplified spontaneously emitted light that has different wavelengths from the plurality of wavelengths, wherein an attenuation rate of a switch element that is among the other three switch elements and corresponds to the amplified spontaneously emitted light is set to a minimal rate, and attenuation rates of the switch elements that are among the other three switch elements and located on both sides of the switch element whose attenuation rate is set to the minimal rate are set to a maximal rate, wherein light monitor configured to measure the center wavelength of a pass band of the amplified spontaneously emitted light, wherein a deviation of the center wavelength of pass band of the amplified spontaneously emitted light from a reference wavelength is calculated, and wherein positions at which light with the wavelengths is incident on the switch elements corresponding