Cyclic wavelength band replacement device, multi-band transmission system, and cyclic wavelength band replacement method

The invention claimed is: 1. A cyclic wavelength band permutation device comprising a plurality of wavelength band converters, the cyclic wavelength band permutation device configured to: receive a wavelength-multiplexed signal beam, the wavelength-multiplexed signal beam obtained by multiplexing optical signals in different wavelength bands that is transmitted through an optical fiber while being amplified by a plurality of optical amplifiers; perform, by each wavelength band converter of the plurality of wavelength band converters, a cyclic permutation process of (i) transitioning an optical signal of the wavelength-multiplexed signal beam allocated to a shorter wavelength band side in bands of the optical fiber and (ii) transitioning an optical signal of the wavelength-multiplexed signal beam allocated to a longest wavelength band to a shortest wavelength band, wherein the cyclic wavelength band permutation device comprises a number of the plurality of wavelength band converters that matches to a number of the wavelength bands of the optical signals, and each wavelength band converter of the plurality of wavelength band converters comprises (i) a plurality of converters and (ii) a first wavelength band multiplexer, a number of the plurality of converters equivalent to the number of the wavelength bands of the optical signals, and each of the wavelength band converters is connected to output terminals of corresponding optical amplifiers among the plurality of optical amplifiers. 2. The cyclic wavelength band permutation device according to claim 1 , wherein: the number of the plurality of wavelength band converters that matches to the number of wavelength bands of the optical signals are counted as a unit of the cyclic permutation process, and a plurality of groups of wavelength band converters, each group forming a unit of the cyclic permutation process, are connected in a cascade arrangement. 3. The cyclic wavelength band permutation device according to claim 2 , wherein each of the wavelength band converters is configured to, when the cyclic permutation process is performed, perform a process of reversing spectral characteristics of the wavelength bands of the optical signals that have been converted into bands in a transition destination so that the spectral characteristics become opposite to the spectral characteristics before the conversion. 4. A multiband transmission system comprising the cyclic wavelength band permutation device according to claim 1 , the cyclic wavelength band permutation device being connected in an inserted manner to an optical fiber between a second wavelength band multiplexer and a wavelength band separator, the second wavelength band multiplexer configured to perform multiband transmission of a wavelength-multiplexed signal beam obtained by multiplexing optical signals in different wavelength bands to the optical fiber, and the wavelength band separator configured to separate the multiband-transmitted optical signals into signals in the respective wavelength bands. 5. The multiband transmission system according to claim 4 , wherein: the number of the plurality of wavelength band converters that matches to the number of wavelength bands of the optical signals are counted as a unit of the cyclic permutation process, and a plurality of groups of wavelength band converters, each group forming a unit of the cyclic permutation process, are connected in a cascade arrangement. 6. The multiband transmission system according to claim 5 , wherein each of the wavelength band converters is configured to, when the cyclic permutation process is performed, perform a process of reversing spectral characteristics of the wavelength bands of the optical signals that have been converted into bands in a transition destination so that the spectral characteristics become opposite to the spectral characteristics before the conversion. 7. The cyclic wavelength band permutation device according to claim 1 , wherein each converter of the plurality of converters is configured to output the transitioned optical signal of the wavelength-multiplexed signal beam to the first wavelength band multiplexer in a respective wavelength band converter. 8. A cyclic wavelength band permutation method performed with a cyclic wavelength band permutation device including a plurality of wavelength band converters, the cyclic wavelength band permutation method comprising: receiving a wavelength-multiplexed signal beam, the wavelength-multiplexed signal beam obtained by multiplexing optical signals in different wavelength bands that is transmitted through an optical fiber while being amplified by a plurality of optical amplifiers; performing, by each of the wavelength band converters, a cyclic permutation process of (i) transitioning an optical signal of the wavelength-multiplexed signal beam allocated to a shorter wavelength band side in bands of the optical fiber and (ii) transitioning an optical signal of the wavelength-multiplexed signal beam allocated to a longest wavelength band to a shortest wavelength band wherein the cyclic wavelength band permutation device comprises a number of the plurality of wavelength band converters that matches to a number of the wavelength bands of the optical signals, and each wavelength band converter of the plurality of wavelength band converters comprises (i) a plurality of converters and (ii) a first wavelength band multiplexer, a number of the plurality of converters equivalent to the number of the wavelength bands of the optical signals, and each of the wavelength band converters is connected to output terminals of corresponding optical amplifiers among the plurality of optical amplifiers. 9. The cyclic wavelength band permutation method according to claim 8 , further comprising: counting as a unit of the cyclic permutation process the number of wavelength band converters that matches to the number of the wavelength bands of the optical signals, and connecting, in a cascade arrangement, a plurality of groups of wavelength band converters, each group forming a unit of the cyclic permutation process. 10. The cyclic wavelength band permutation method according to claim 9 , further comprising: reversing spectral characteristics of the wavelength bands of the optical signals that have been converted into bands in a transition destination so that the spectral characteristics become opposite to the spectral characteristics before the conversion.