Optical transmission device, optical transmission system, and optical transmission method

What is claimed is: 1. An optical transmission device comprising: a light source that is driven according to a multicarrier modulation signal in which data is allocated to a plurality of subcarriers to transmit an optical multicarrier modulation signal to another optical transmission device; and a processor configured to control a driving condition of the light source, based on number of bits allocatable to each of the subcarriers of the multicarrier modulation signal, the number of bits being determined according to transmission characteristics of the optical multicarrier modulation signal in the other optical transmission device and being smaller than the transmission characteristics of the optical multicarrier modulation signal in an information amount, wherein the processor is further configured to monitor an identification number of a maximum subcarrier among the subcarriers, the maximum subcarrier varying depending on the transmission characteristics of the optical multicarrier modulation signal, and the number of bits allocatable to the maximum subcarrier being not 0, based on the number of bits allocatable to each of the subcarriers, and adjusts an amount or an amplitude of a bias current supplied to the light source when the identification number of the maximum subcarrier has not reached a target value. 2. The optical transmission device according to claim 1 , wherein information indicating the number of bits allocatable to each of the subcarriers is multiplexed into an optical signal transmitted from the other optical transmission device to the optical transmission device, and the processor is further configured to acquire the information extracted from an electrical signal obtained by electrically converting the optical signal, and control the driving condition of the light source, based on the number of bits indicated by the information. 3. An optical transmission system comprising a first optical transmission device and a second optical transmission device connected to each other via optical transmission paths, the first optical transmission device comprising: a light source that is driven according to a multicarrier modulation signal in which data is allocated to a plurality of subcarriers to transmit an optical multicarrier modulation signal to the second optical transmission device; and a processor configured to control a driving condition of the light source, based on number of bits allocatable to each of the subcarriers of the multicarrier modulation signal, the number of bits being determined according to transmission characteristics of the optical multicarrier modulation signal in the second optical transmission device and being smaller than the transmission characteristics of the optical multicarrier modulation signal in an information amount, wherein the processor is further configured to monitor an identification number of a maximum subcarrier among the subcarriers, the maximum subcarrier varying depending on the transmission characteristics of the optical multicarrier modulation signal, and the number of bits allocatable to the maximum subcarrier being not 0, based on the number of bits allocatable to each of the subcarriers, and adjusts an amount or an amplitude of a bias current supplied to the light source when the identification number of the maximum subcarrier has not reached a target value, the second optical transmission device comprising: a processor configured to: measure transmission characteristics of the optical multicarrier modulation signal transmitted by the first optical transmission device; determine the number of bits allocatable to each of the subcarriers of the multicarrier modulation signal, according to the transmission characteristics of the optical multicarrier modulation signal; and transmit information indicating the number of bits allocatable to each of the subcarriers, to the first optical transmission device, the number of bits being determined at the determining. 4. An optical transmission method of an optical transmission device, the optical transmission method comprising: allowing a light source to be driven according to a multicarrier modulation signal in which data is allocated to a plurality of subcarriers to transmit an optical multicarrier modulation signal to another optical transmission device; and controlling a driving condition of the light source, based on number of bits allocatable to each of the subcarriers of the multicarrier modulation signal, the number of bits being determined according to transmission characteristics of the optical multicarrier modulation signal in the other optical transmission device and being smaller than the transmission characteristics of the optical multicarrier modulation signal in an information amount, wherein the controlling includes monitoring an identification number of a maximum subcarrier among the subcarriers, the maximum subcarrier varying depending on the transmission characteristics of the optical multicarrier modulation signal, and the number of bits allocatable to the maximum subcarrier being not 0, based on the number of bits allocatable to each of the subcarriers, and adjusting an amount or an amplitude of a bias current supplied to the light source when the identification number of the maximum subcarrier has not reached a target value.