Wavelength cross connect device, and wavelength cross connect method

The invention claimed is: 1 . A wavelength cross connect device comprising: a wavelength band switching unit and a wavelength cross connect (WXC) unit, wherein the wavelength band switching unit is configured to: receive a first plurality of wavelength multiplexed signal beams each having been transmitted in multiple bands in a plurality of optical transmission lines respectively, the plurality of optical transmission lines each including one or a plurality of optical fibers, the first plurality of wavelength multiplexed signal beams each including multiplexed optical signals of distinct wavelength bands; split each of the received first plurality of wavelength multiplexed signal beams into a predetermined number of wavelength multiplexed signal beams; generate a plurality of wavelength-band-converted wavelength multiplexed signal beams generated for each of the received first plurality of wavelength multiplexed signal beams by performing wavelength band conversion on each of the predetermined number of wavelength multiplexed signal beams to convert the optical signals of the distinct wavelength bands multiplexed in the wavelength multiplexed signal beam into optical signals of different wavelength bands; and output a second plurality of wavelength multiplexed signal beams each of which is selected from a predetermined one of the split first plurality of wavelength multiplexed signal beams and the plurality of wavelength-band-converted wavelength multiplexed signal beams generated from the predetermined number of wavelength multiplexed signal beams split from the predetermined one of the split first plurality of wavelength multiplexed signal beams, wherein the WXC unit comprises: a plurality of first input-side WSSes each configured to split a respective one of the second plurality of wavelength multiplexed signal beams into a third plurality of wavelength multiplexed signal beams; and a plurality of first output-side WSSes mesh-connected to the plurality of first input-side WSSes, and wherein the WXC unit is configured to input the third plurality of wavelength multiplexed signal beams split by each of the plurality of first input-side WSSes to the plurality of first output-side WSSes so as to reroute the second plurality of wavelength multiplexed signal beams to be output to output transmission lines. 2 . The wavelength cross connect device according to claim 1 , wherein the wavelength band switching unit comprises: a plurality of second input-side WSSes provided respectively for the plurality of optical transmission lines and each configured to receive and split a respective one of the first plurality of wavelength multiplexed signal beams into the predetermined number of wavelength multiplexed signal beams; for each of the plurality of second input-side WSSes, a plurality of wavelength band switch processing units each configured to generate, from a corresponding one of the predetermined number of wavelength multiplexed signal beams split by the second input-side WSS, a corresponding one of the plurality of wavelength-band-converted wavelength multiplexed signal beams in which wavelength bands of optical signals multiplexed in the corresponding one of the predetermined number of wavelength multiplexed signal beams have been converted to different wavelength bands; and a plurality of second output-side WSSes provided respectively for the plurality of second input-side WSSes and each configured to select a wavelength multiplexed signal beam from a fourth plurality of wavelength multiplexed signal beams comprising a corresponding one of the predetermined number of wavelength multiplexed signal beams split by the respective one of the plurality of second input-side WSSes and the plurality of wavelength-band-converted wavelength multiplexed signal beams generated by the plurality of wavelength band switch processing units provided for the respective one of the plurality of second input-side WSSes, and output the selected wavelength multiplexed signal beam to a respective one of the plurality of first input-side WSSes of the WXC unit. 3 . The wavelength cross connect device according to claim 2 , wherein each of the plurality of wavelength band switch processing units comprises: a wavelength band demultiplexer; input-side converters; a specific WSS; output-side converters; and a wavelength band multiplexer, wherein the wavelength band demultiplexer is configured to demultiplex optical signals of distinct wavelength bands multiplexed in the wavelength multiplexed signal beam output from a corresponding one of the plurality of second input-side WSSes, to generate demultiplexed optical signals of the distinct wavelength bands, wherein the input-side converters are each configured to convert, of the demultiplexed optical signals of the distinct wavelength bands, a respective optical signal of a wavelength band other than a predetermined specific wavelength band into an optical signal of the specific wavelength band, wherein the specific WSS has a same number of input ports and a same number of output ports as a number of the demultiplexed optical signals of the distinct wavelength bands and is configured to: receive, through the input ports, the optical signals of the specific wavelength band having been converted by the input-side converters and an optical signal of the specific wavelength band among the demultiplexed optical signals of the distinct wavelength bands, and switch and output, from the output ports, the received optical signals of the specific wavelength bands so that a wavelength band of each of the demultiplexed optical signals of the distinct wavelength bands is converted to a predetermined wavelength band as a result of processing by the input-side converters, the specific WSS, and the output-side converters, wherein the output-side converters are each configured to convert the optical signal of the specific wavelength band output from a corresponding one of the output ports into an optical signal of a predetermined wavelength band, and wherein the wavelength band multiplexer is configured to: combine the optical signals converted by the output-side converters and an optical signal output from a corresponding one of the output ports of the specific WSS to generate the corresponding one of the plurality of wavelength-band-converted wavelength multiplexed signal beams; and output the generated wavelength-band-converted wavelength multiplexed signal beam to a corresponding one of the plurality of second output-side WSSes. 4 . The wavelength cross connect device according to claim 2 , wherein each of the plurality of wavelength band switch processing units comprises: a first WSS configured to demultiplex optical signals of distinct wavelength bands multiplexed in the wavelength multiplexed signal beam output from a corresponding one of the plurality of second input-side WSSes into a predetermined number of optical signals each including the optical signal of any one of the distinct wavelength bands solely such that the demultiplexed predetermined number of optical signals includes a predetermined number of optical signals of a same wavelength band; a plurality of wavelength band converters, a number of which being the same as a number of the demultiplexed predetermined number of optical signals, each configured to convert a corresponding one of the optical signals of the distinct wavelength bands demultiplexed by the first WSS into an optical signal of a different wavelength band; and a second WSS configured to perform wavelength band multiplex processing to generate the corresponding one of the plurality of wavelength-band-converted wavelength multiplexed signal beams from the optical signals of the distinct wavelength bands converted by the plurality of wavelength band converters, and output the