Optical transmission apparatus, optical transmission system, and method of controlling output of optical signal

What is claimed is: 1. An optical transmission apparatus, comprising: a variable attenuator configured to adjust output intensity of each wavelength signal included in a multiplexed optical signal having been input; a monitor configured to measure an output spectrum of the variable attenuator; a calculation unit configured to calculate an amount of spectral narrowing and an amount of spectral surplus, based on a measured value by the monitor, and a target value set in advance; and a control unit configured to control an amount of attenuation of the variable attenuator, based on the amount of spectral narrowing and the amount of spectral surplus. 2. The optical transmission apparatus as claimed in claim 1 , wherein the control unit controls the amount of attenuation of the variable attenuator so that the amount of spectral narrowing becomes minimum within a predetermined range of the amount of spectral surplus, for each variable attenuation band as a unit of controlling the variable attenuator. 3. The optical transmission apparatus as claimed in claim 1 , wherein the control unit controls the amount of attenuation of the variable attenuator so that in a case where two adjacent components of the wavelength signals are included in a variable attenuation band as a unit of controlling the variable attenuator, spectral surplus within a predetermined range is generated for each of the two adjacent components of the wavelength signals. 4. The optical transmission apparatus as claimed in claim 1 , further comprising: a memory configured to store an upper limit value of the amount of spectral surplus, wherein the control unit controls the amount of attenuation of the variable attenuator so that the amount of spectral narrowing becomes minimum within a range in which the amount of spectral surplus does not exceed the upper limit value. 5. The optical transmission apparatus as claimed in claim 4 , wherein the control unit controls the amount of attenuation of the variable attenuator so that in a case where the calculated amount of spectral surplus exceeds the upper limit value, the amount of spectral surplus becomes the upper limit value. 6. The optical transmission apparatus as claimed in claim 4 , wherein the upper limit value is a value depending on reception quality at a node to which the multiplexed optical signal is output. 7. The optical transmission apparatus as claimed in claim 4 , further comprising: a transmitter configured to transmit a test signal; a receiver configured to receive the test signal from the transmitter in the optical transmission apparatus; and a determination unit configured to determine the upper limit value based on signal quality of the test signal measured by the receiver and the amount of spectral surplus calculated by the calculation unit. 8. The optical transmission apparatus as claimed in claim 4 , further comprising: a receiver configured to receive a test signal from another optical transmission apparatus; and a determination unit configured to determine the upper limit value based on signal quality of the test signal measured by the receiver and the amount of spectral surplus calculated by the calculation unit. 9. An optical transmission system, comprising: the optical transmission apparatus as claimed in claim 1 ; and a network control apparatus configured to control one or more of the optical transmission apparatuses. 10. An optical transmission system, comprising: one or more optical transmission apparatuses; and a network control apparatus configured to control the optical transmission apparatuses, wherein the optical transmission apparatus includes a variable attenuator configured to adjust output intensity of each wavelength signal included in a multiplexed optical signal having been input; a monitor configured to measure an output spectrum of the variable attenuator, based on a control signal from the network control apparatus; a calculation unit configured to calculate an amount of spectral narrowing and an amount of spectral surplus, based on a measurement result by the monitor, and a target value set in advance; and a control unit configured to control an amount of attenuation of the variable attenuator based on the amount of spectral narrowing and the amount of spectral surplus. 11. The optical transmission system as claimed in claim 10 , further comprising: an optical node not having a spectral monitor and placed at a succeeding stage of the optical transmission apparatus; and an optical transmission line connecting the optical transmission apparatus with the optical node, wherein the optical transmission apparatus outputs the multiplexed optical signal whose output intensity is controlled so that the amount of spectral surplus becomes a permissible upper limit value, and the amount of spectral narrowing becomes minimum, to the optical transmission line. 12. The optical transmission system as claimed in claim 11 , further comprising: a second optical transmission apparatus placed at a succeeding stage of the optical node, wherein the second optical transmission apparatus controls the output intensity of the multiplexed optical signal so that the amount of spectral surplus becomes the permissible upper limit value in a case where the amount of spectral surplus calculated by the second optical transmission apparatus exceeds the upper limit value. 13. A method of controlling output of an optical signal, the method comprising: measuring a spectrum of a multiplexed optical signal passing through a variable attenuator in an optical transmission apparatus; calculating an amount of spectral narrowing and an amount of spectral surplus based on a measured value of the spectrum and a target value set in advance in the optical transmission apparatus; and adjusting an amount of attenuation of the variable attenuator based on the amount of spectral narrowing and the amount of spectral surplus in the optical transmission apparatus. 14. The method of controlling output of the optical signal as claimed in claim 13 , wherein the adjusting controls the amount of attenuation of the variable attenuator so that the amount of spectral narrowing becomes minimum within a predetermined range of the amount of spectral surplus, for each variable attenuation band as a unit of controlling the variable attenuator. 15. The method of controlling output of the optical signal as claimed in claim 13 , wherein the adjusting controls the amount of attenuation of the variable attenuator so that in a case where two adjacent components of the wavelength signals are included in a variable attenuation band as a unit of controlling the variable attenuator, spectral surplus within a predetermined range is generated for each of the two adjacent components of the wavelength signals. 16. The method of controlling output of the optical signal as claimed in claim 13 , the method further comprising: storing the upper limit value of the amount of spectral surplus in a memory, wherein the adjusting controls the amount of attenuation of the variable attenuator so that the amount of spectral narrowing becomes minimum within a range in which the amount of spectral surplus does not exceed the upper limit value. 17. The method of controlling output of the optical signal as claimed in claim 16 , wherein the adjusting controls the amount of attenuation of the variable attenuator so that in a case where the calculated amount of spectral surplus exceeds the upper limit value, the amount of spectral surplus becomes the upper limit value. 18.