Method, Device And System For Dynamically Controlling Gain Of Raman Optical Fiber Amplifier

1 . A system for dynamically controlling a gain of a Raman optical fiber amplifier, comprising the Raman optical fiber amplifier consisting of one or more pump lasers, a central processing unit for controlling an operation state of the one or more pump lasers, and an out-of-band ASE detection circuit and an output power detection circuit provided corresponding to the Raman optical fiber amplifier, control circuits of the pump lasers, the out-of-band ASE detection circuit and the output power detection circuit being respectively connected to the central processing unit, characterized in that the system is configured to: make input signal optical power amplified by the Raman optical fiber amplifier at maximum input power when pumping is off and set, by the central processing unit, output optical power of all the pump lasers to maximum output power, so as to obtain a current gain G M and a current gain slope tilt M of the Raman amplifier; maintain the output optical power of a specified first pump laser at the maximum output power and adjust the output optical power of pump lasers of other wavelengths to make a gain slope of the amplifier reach a minimum slope, thereby obtaining a corresponding Raman gain G NM and a corresponding gain slope tilt NM ; maintain the output optical power of a specified second pump laser at the maximum output power and adjust the output optical power of pump lasers of other wavelengths to make the gain slope of the amplifier reach a maximum slope, thereby obtaining a corresponding Raman gain G PM and a corresponding gain slope tilt PM ; by using the gain slope as a first dimension parameter and the gain as a second dimension parameter, fit (tilt NM , G NM ) and (tilt M , G M ) to obtain K N as K and B N as B in a gain calculation formula in a case of tilt<tilt M , and fit (tilt M , G M ) and (tilt PM , G PM ) to obtain Kp as K and Bp as B in the gain calculation formula in a case of tilt≥tilt M , wherein the gain calculation formula is G=K*Tilt+B; calculate maximum gains G corresponding to all the tilts of the Raman optical fiber amplifier, and form a GAIN MASK model by using the calculated maximum gains G. 2 . The system for dynamically controlling a gain of a Raman optical fiber amplifier of claim 1 , characterized in that maintaining the output optical power of the specified first pump laser at the maximum output power further comprises: the central processing unit obtaining an output power value via the output power detection circuit; the central processing unit acquiring out-of-band ASE power via the out-of-band ASE detection circuit, and calculating a current gain of the Raman amplifier according to a linear relationship between the out-of-band ASE power and the gain; and the central processing unit calculating in-band ASE power according to the current output power value, the current out-of-band ASE power and the current Raman gain to obtain input signal power, and determining that the input signal power reaches a maximum value. 3 . The system for dynamically controlling a gain of a Raman optical fiber amplifier of claim 2 , characterized in that among the first pump laser and the second pump laser: for a Raman optical fiber amplifier with dual pump wavelengths, when a negative slope is adjusted, the first pump laser is a short-wavelength pump; and when a positive slope is adjusted, the second pump laser is a long-wavelength pump. 4 . The system for dynamically controlling a gain of a Raman optical fiber amplifier of claim 1 , characterized in that the system is further configured so that: the central processing unit determines whether a target gain falls within a GAIN MASK range; if the target gain falls within the GAIN MASK range, the central processing unit directly locks the Raman optical fiber amplifier to the target gain by using an out-of-band ASE value obtained via the out-of-band ASE detection circuit; if the target gain is outside the GAIN MASK range, the central processing unit locks the gain of the Raman optical fiber amplifier to a maximum value of a corresponding GAIN MASK gain, and then gradually increases the locked gain by a predetermined first step length until the locked gain reaches the target gain or at least one pump laser reaches its maximum output power. 5 . A method for dynamically controlling a gain of a Raman optical fiber amplifier, characterized in comprising: setting output optical power of all pump lasers to maximum output pump power to obtain a current gain G M and a current gain slope tilt M of the Raman amplifier; maintaining the output optical power of a specified first pump laser at the maximum output power and adjusting the output optical power of pump lasers of other wavelengths to make a gain slope of the amplifier reach a minimum slope, thereby obtaining a corresponding Raman gain G NM and a corresponding gain slope tilt NM ; maintaining the output optical power of a specified second pump laser at the maximum output power and adjusting the output optical power of pump lasers of other wavelengths to make the gain slope of the amplifier reach a maximum slope, thereby obtaining a corresponding Raman gain G PM and a corresponding gain slope tilt PM ; by using the gain slope as a first dimension parameter and the gain as a second dimension parameter, fitting (tilt NM , G NM ) and (tilt M , G M ) to obtain K N as K and B N as B in a gain calculation formula in a case of tilt<tilt M , and fitting (tilt M , G M ) and (tilt PM , G PM ) to obtain Kp as K and Bp as B in the gain calculation formula in a case of tilt≥tilt M , wherein the calculation formula is G=K*Tilt+B; calculating maximum gains G corresponding to all the tilts of the Raman optical fiber amplifier, and forming a GAIN MASK model by using the calculated maximum gains G. 6 . The method for dynamically controlling a gain of a Raman optical fiber amplifier of claim 5 , characterized in that maintaining the output optical power of the specified first pump laser at the maximum output power and adjusting the output optical power of pump lasers of other wavelengths to make the gain slope of the amplifier reach the minimum slope, thereby obtaining the corresponding Raman gain G NM and the corresponding gain slope tilt NM further comprises: acquiring out-of-band ASE power, and calculating a current gain of the Raman amplifier according to a linear relationship between the out-of-band ASE power and the gain; calculating in-band ASE power according to the current output power value, the current out-of-band ASE power and the current Raman gain to obtain input signal power; determining that the input signal power reaches a maximum value; maintaining the corresponding specified first pump laser operating at the maximum output power, and adjusting the output optical power values of pump lasers of other wavelengths to make the gain slope reach the minimum slope tilt NM , thereby completing adjustment of the Raman maximum gain G NM at this gain slope. 7 . The method for dynamically controlling a gain of a Raman optical fiber amplifier of claim 6 , characterized in that among the first pump laser and the second pump laser: for a Raman optical fiber amplifier with dual pump wavelengths, when a negative slope is adjusted, the first pump laser is a short-wavelength pump; when a positive slope is adjusted, the second pump laser is a long-wavelength pump. 8 . The method for dynamically controlling a gain of a Raman optical fiber amplifier of claim 6 , characterized in that the method further comprises, during operation of a distribute Raman optical fiber amplifier: determining whether a target gain is within a GAIN MASK range; if the target gain is within the GAIN MASK range, directly locking to the target gain; if the