Optical transmitting device and optical receiving device

What is claimed is: 1 . An optical transmitting device comprising: an optical modulator configured to modulate light output from a light source with a drive signal generated by controlling a frequency of a first signal based on a second signal; and an amplitude controller configured to control amplitude of the first signal based on a control signal, wherein signal light modulated by the optical modulator is transmitted to an optical receiving device. 2 . The optical transmitting device according to claim 1 , wherein the control signal includes information indicating power variation of the signal light received by the optical receiving device, the power variation being detected by the optical receiving device, and wherein the amplitude controller controls amplitude of the first signal based on the information indicating the power variation so that the power variation is suppressed. 3 . The optical transmitting device according to claim 2 , wherein the information indicating the power variation includes a symbol indicating whether or not the second signal is inverted in accordance with the power variation of the signal light, and wherein the amplitude controller inverts or does not invert a waveform of the second signal depending on the symbol. 4 . The optical transmitting device according to claim 1 , wherein the first signal is a main signal, and the second signal is a path trace signal superimposed as a frequency modulation component onto the main signal by controlling the frequency of the main signal, the path trace signal being a signal for confirming conductivity of an optical path on which the signal light is to be transferred. 5 . An optical receiving device comprising: a splitter configured to split signal light into first signal light and second signal light; a first photodetector configured to receive the first signal light; a light filter configured into which a pass-band center frequency and a transmission bandwidth are set so as to filter the second signal light; a second photodetector configured to receive the second signal light filtered by the light filter; and a control signal generator configured to generate a control signal based on a signal multiplied by outputs of the first photodetector and the second photodetector, wherein the control signal generated by the control signal generator is transmitted to an optical transmitting device. 6 . The optical receiving device according to claim 5 , wherein the pass-band center frequency is a frequency offset from a center frequency of the signal light, and wherein the transmission bandwidth is a bandwidth at which the signal light partially permeates. 7 . The optical receiving device according to claim 5 , wherein a power variation amount of the signal light is detected based on the output signal of the first photodetector, wherein a symbol is detected based on the outputs of the first photodetector and the second photodetector, the symbol indicating whether or not a path trace signal superimposed as a frequency modulation component onto a main signal by controlling a frequency of the main signal is inverted in accordance with the power variation, the path trace signal being a signal for confirming conductivity of an optical path on which the signal light is to be transferred, and wherein the control signal generator generates the control signal including the power variation amount of the signal light and the symbol.