Optical communication system and optical communication method

The invention claimed is: 1. An optical communication system comprising: an optical splitter connecting N first ports and M second ports by a combination of 2×2 fiber optical splitters, N being an integer of two or more, M being an integer of two or more; optical transmitters for either: inputting optical signals of different wavelengths to respective ones of the first ports of the optical splitter; or inputting a multiplexed-wavelength optical signal to at least one of the first ports of the optical splitter; and optical receivers for receiving a single-wavelength optical signal of the optical signals of different wavelengths or the multiplexed-wavelength optical signal that is output to respective ones of the second ports of the optical splitter, wherein wavelengths of the optical signals to be received are limited for each group of the optical receivers, by using a correlation between a fused extension length of at least one of the 2×2 fiber optical splitters that is directly connected to the first ports, among the 2×2 fiber optical splitters of the optical splitter, and wavelength output characteristics of the second ports of the optical splitter, wherein, in relation to the optical splitter, N is four and M is four, and the first ports and the second ports are connected by a combination of three of the 2×2 fiber optical splitters, second and third ones of the first ports are connected to respective input sides of a first one of the 2×2 fiber optical splitters, a first one of the first ports and one of output sides of the first one of the 2×2 fiber optical splitters are connected to respective input sides of a second one of the 2×2 fiber optical splitters, a fourth one of the first ports and another one of the output sides of the first one of the 2×2 fiber optical splitters are connected to respective input sides of a third one of the 2×2 fiber optical splitters, output sides of the second one of the 2×2 fiber optical splitters are connected to first and second ones of the second ports, respectively, and output sides of the third one of the 2×2 fiber optical splitters are connected to third and fourth ones of the second ports, respectively. 2. The optical communication system according to claim 1 , wherein a first transmitter of the optical transmitters is configured to input a first optical signal having a first wavelength of the optical signals of different wavelengths to one of the first ports, a second transmitter of the optical transmitters is configured to input a second optical signal having a second wavelength of the optical signals of different wavelengths to another of the first ports, a plurality of first receivers of the optical receivers are configured to receive the first optical signal via one of the second ports, and a plurality of second receivers of the optical receivers are configured to receive the second optical signal via another of the second ports. 3. The optical communication system according to claim 1 , wherein the multiplexed-wavelength optical signal has a first multiplexed-wavelength signal and a second multiplexed-wavelength signal, first and second transmitters of the optical transmitters are configured to input the first multiplexed-wavelength signal to one of the first ports, third and fourth transmitters of the optical transmitters are configured to input the second multiplexed-wavelength signal to another of the first ports, a plurality of first receivers of the optical receivers are configured to receive the first multiplexed-wavelength signal via one of the second ports, and a plurality of second receivers of the optical receivers are configured to receive the second multiplexed-wavelength signal via another of the second ports. 4. An optical communication system comprising: an optical splitter connecting N first ports and M second ports by a combination of 2×2 fiber optical splitters, N being an integer of two or more, M being an integer of two or more; optical transmitters for either: inputting optical signals of different wavelengths to respective ones of the first port of the optical splitter; or inputting a multiplexed-wavelength optical signal to at least one of the first ports of the optical splitter; and optical receivers for receiving a single-wavelength optical signal of the optical signals of different wavelengths or the multiplexed-wavelength optical signal that is output to respective ones of the second ports of the optical splitter, wherein wavelengths of the optical signals to be received are limited for each group of the optical receivers, by using a correlation between a fused extension length of at least one of the 2×2 fiber optical splitters that is directly connected to the first ports, among the 2×2 fiber optical splitters of the optical splitter, and wavelength output characteristics of the second ports of the optical splitter, wherein, in relation to the optical splitter, N is four and M is four, and the first ports and the second ports are connected by a combination of three of the 2×2 fiber optical splitters, first and second ones of the first ports are connected to respective input sides of a first one of the 2×2 fiber optical splitters, a third one of the first ports and one of output sides of the first one of the 2×2 fiber optical splitters are connected to respective input sides of a second one of the 2×2 fiber optical splitters, a fourth one of the first ports and one of output sides of the second one of the 2×2 fiber optical splitters are connected to respective input sides of a third one of the 2×2 fiber optical splitters, another one of the output sides of the first one of the 2×2 fiber optical splitters is connected to a first one of the second ports, another one of the output sides of the second one of the 2×2 fiber optical splitters is connected to a second one of the second ports, and output sides of the third one of the 2×2 fiber optical splitters are connected to third and fourth ones of the second ports, respectively. 5. The optical communication system according to claim 4 , wherein a first transmitter of the optical transmitters is configured to input a first optical signal having a first wavelength of the optical signals of different wavelengths to one of the first ports, a second transmitter of the optical transmitters is configured to input a second optical signal having a second wavelength of the optical signals of different wavelengths to another of the first ports, a plurality of first receivers of the optical receivers are configured to receive the first optical signal via one of the second ports, and a plurality of second receivers of the optical receivers are configured to receive the second optical signal via another of the second ports. 6. The optical communication system according to claim 4 , wherein the multiplexed-wavelength optical signal has a first multiplexed-wavelength signal and a second multiplexed-wavelength signal, first and second transmitters of the optical transmitters are configured to input the first multiplexed-wavelength signal to one of the first ports, third and fourth transmitters of the optical transmitters are configured to input the second multiplexed-wavelength signal to another of the first ports, a plurality of first receivers of the optical receivers are configured to receive the first multiplexed-wavelength signal via one of the second ports, and a plurality of second receivers of the optical receivers are configured to receive the second multiplexed-wavelength signal via another of the second ports. 7. An optical communication method performed by an optical splitter connecting N first ports and M second ports by a combination of 2×2 fiber optical splitters, N being an integer of two or more,