Optical branching and insertion device, network management device, and wavelength selective switch

What is claimed is: 1. An optical branching and insertion device, comprising: a wavelength selective switch including a plurality of ports that causes an optical signal of a wavelength among optical signals received at an input port among the plurality of ports to pass to an output port among the plurality of ports; a memory configured to store setting information including a usage of a channel corresponding to each of a plurality of wavelengths; and a processor coupled to the memory and configured to cause the wavelength selective switch to execute a process to expand a band through which an optical signal of a predetermined wavelength is allowed to pass, when the setting information indicates that a channel corresponding to the predetermined wavelength is to be used to guide an optical signal from the input port to the output port and a channel corresponding to a wavelength adjacent to the predetermined wavelength is not to be used. 2. The optical branching and insertion device of claim 1 , wherein the processor executes the process to expand the band through which the optical signal of the predetermined wavelength is allowed to pass, by adjusting at least one of a numerical upper limit and a numerical lower limit of frequency values of the band. 3. The optical branching and insertion device of claim 1 , wherein the processor executes the process to expand the band through which the optical signal of the predetermined wavelength is allowed to pass, in accordance with a parameter relating to the transmission performance of the optical branching and insertion device. 4. The optical branching and insertion device of claim 3 , wherein the parameter is transmission speed. 5. The optical branching and insertion device of claim 3 , wherein the parameter is transmission distance. 6. The optical branching and insertion device of claim 3 , wherein the parameter is a number of spans. 7. The optical branching and insertion device of claim 1 , wherein contents of the setting information are registered and updated by the processor based on settings from a network management device coupled to the optical branching and insertion device. 8. A network management device, comprising: a first memory; a first processor coupled to the first memory and configured to manage an optical branching and insertion device, the optical branching and insertion device comprising: a wavelength selective switch including a plurality of ports that causes an optical signal of a wavelength among optical signals received at an input port among the plurality of ports to pass to an output port among the plurality of ports; a second memory configured to store setting information including a usage of a channel corresponding to; and a second processor coupled to the second memory and configured to cause the wavelength selective switch to execute a process to expand a band through which an optical signal of a predetermined wavelength is allowed to pass, the setting information indicates that a channel corresponding to the predetermined wavelength is to be used to guide an optical signal from the input port to the output port and a channel corresponding to a wavelength adjacent to the predetermined wavelength is not to be used. 9. The network management device of claim 8 , wherein the second processor executes the process to expand the band through which the optical signal of the predetermined wavelength is allowed to pass, by adjusting at least one of a numerical upper limit and a numerical lower limit of frequency values of the band. 10. The network management device of claim 8 , wherein the second processor executes the process to expand the band through which the optical signal of the predetermined wavelength is allowed to pass, in accordance with a parameter relating to the transmission performance of the optical branching and insertion device. 11. A wavelength selective switch coupled to a memory configured to store setting information including a usage of a channel corresponding each of a plurality of wavelengths, the wavelength selective switch comprising: an input port; an output port; and a processor that executes a process to expand a band through which an optical signal of a predetermined wavelength is allowed to pass, when the setting information indicates that a channel corresponding to the predetermined wavelength is to be used to guide an optical signal from the input port to the output port and a channel corresponding to a wavelength adjacent to the predetermined wavelength is not to be used. 12. The wavelength selective switch of claim 11 , wherein the processor executes the process to expand the band through which the optical signal of the predetermined wavelength is allowed to pass, by adjusting at least one of a numerical upper limit and a numerical lower limit of frequency values of the band.