Optical reception apparatus

What is claimed is: 1. An optical reception apparatus to receive a multi-carrier modulated signal light modulated by a multi-carrier modulation scheme available to allocate different transmission conditions for each of a plurality of subcarriers in accordance with transmission characteristics of the plurality of subcarriers, the optical reception apparatus comprising: a receiver configured to receive from an optical transmission line a training signal light allocated with the same transmission conditions for each of the plurality of subcarriers; a monitor configured to monitor the transmission characteristics of the training signal light to detect a frequency at which a dip of the transmission characteristics occurs; and a controller configured to control, based on the detected frequency, a dispersion compensation for the multi-carrier modulated signal light having received a dispersion from the optical transmission line, wherein the monitor comprises: a differentiator configured to differentiate the transmission characteristics of the training signal light by a frequency to detect a change of the transmission characteristics to the frequency, and a comparator configured to detect a frequency at which a sign of the change is reversed or a frequency at which the change is zero as the frequency at which the dip of the transmission characteristics occurs by comparing differentiation results of the differentiator. 2. The optical reception apparatus according to claim 1 , further comprising a tunable dispersion compensator configured to compensate for the dispersion of the multi-carrier modulated signal light received from the optical transmission line with a tunable dispersion compensation quantity for output to the receiver, wherein the controller controls the dispersion compensation quantity of the tunable dispersion compensator such that the detected frequency deviates from a transmission band of the multi-carrier modulated signal light. 3. The optical reception apparatus according to claim 1 , wherein the controller includes a calculator configured to calculate a dispersion quantity of the training signal light received from the optical transmission line based on the detected frequency, a wavelength of the training signal light, and a frequency chirp parameter of an optical transmission apparatus that has transmitted the training signal light. 4. The optical reception apparatus according to claim 1 , wherein the controller controls a dispersion compensation quantity of a tunable dispersion compensator provided in an optical transmission apparatus that has transmitted the training signal light to compensate for the dispersion of the optical transmission line with the tunable dispersion compensation quantity based on the detected frequency. 5. The optical reception apparatus according to claim 1 , wherein the monitor includes: a storage configured to store the transmission characteristics for each of the plurality of subcarriers of the training signal light and the comparator configured to detect a frequency corresponding to a subcarrier for which the transmission characteristics indicates a minimum value as the frequency at which the dip of the transmission characteristics occurs by comparing the transmission characteristics stored in the storage. 6. A multi-carrier optical transmission system comprising: an optical transmitter configured to transmit to an optical transmission line a multi-carrier modulated signal light modulated by a multi-carrier modulation scheme available to allocate different transmission conditions for each of a plurality of subcarriers in accordance with transmission characteristics of the plurality of subcarriers; an optical receiver configured to receive the multi-carver modulated signal light from the optical transmission line; a tunable dispersion compensator provided in the optical receiver or the optical transmitter and configured to compensate for dispersion of the optical transmission line with a tunable dispersion compensation quantity; a monitor provided in the optical receiver and configured to monitor the transmission characteristics of a training signal light transmitted to the optical transmission line by the optical transmitter, the training signal being allocated with the same transmission conditions for each of the plurality of subcarriers, to detect a frequency at which a dip of the transmission characteristics occurs; and a controller configured to control a dispersion compensation quantity of the tunable dispersion compensator based on the detected frequency, wherein the monitor comprises: a differentiator configured to differentiate the transmission characteristics of the training signal light by a frequency to detect a change of the transmission characteristics to the frequency and a comparator configured to detect a frequency at which a sign of the change is reversed or a frequency at which the change is zero as the frequency at which the dip of the transmission characteristics occurs by comparing differentiation results of the differentiator. 7. A method of controlling a dispersion compensation, the method comprising: transmitting a training signal light allocated with the same transmission conditions for each of a plurality of subcarriers to an optical transmission line by an optical transmitter of a multi-carrier modulation scheme available to allocate different transmission conditions for each of the plurality of subcarriers in accordance with transmission characteristics of the plurality of subcarriers; detecting a frequency at which a dip of the transmission characteristics occurs by monitoring the transmission characteristics of the training signal light in an optical receiver, and controlling, based on the detected frequency, the dispersion compensation for a multi-carrier modulated signal light which receives a dispersion from the optical transmission line, wherein the detecting comprising: differentiating the transmission characteristics of the training signal light by a frequency to detect a change of the transmission characteristics to the frequency and detecting a frequency at which a sign of the change is reversed or a frequency at which the change is zero as the frequency at which the dip of the transmission characteristics occurs by comparing differentiation results of a differentiator.