Optical communication system utilizing intelligent dynamic gain equalizer device

We claim: 1. An optical communication device, comprising: a dynamic gain equalizer coupled to an optical communication path so as to receive an input signal set comprising a plurality of optical signals, each optical signal being at a respective one of a plurality of wavelengths and to transmit an output signal set; an optical channel monitor (OCM) configured to: separate a first signal subset from the input signal set, wherein the first signal subset is representative of the input signal set; separate a second signal subset from the output signal set, wherein the second signal subset is representative of the output signal set; and wherein the dynamic gain equalizer is configured to compare the first signal subset with the second signal subset and to equalize signal amplitudes across the output signal set, in response to the comparison. 2. The optical communication device of claim 1 , wherein the optical channel monitor is configured so that the first signal subset is from about 3% to about 10% of the input signal set, and the second signal subset is from about 3% to about 10% of the output signal set. 3. The optical communication device of claim 1 , where in the optical channel monitor comprises a first OCM and a second OCM, and wherein the first OCM is configured to separate the first signal subset from the input signal set, and the second OCM is configured to separate the second signal subset from the output signal set. 4. The optical communication device of claim 3 , further comprising a first optical amplifier coupled to the optical communication path such that the first optical amplifier imparts optical amplification to the plurality of wavelengths prior to the input signal set receipt by the digital gain equalizer. 5. The optical communication device of claim 4 , further comprising a second optical amplifier coupled to the optical communication path so as to receive the output signal set from the dynamic gain equalizer and produce an amplified output signal set, and wherein the second OCM separates the second signal subset from the amplified output signal set. 6. The optical communication device of claim 4 , further comprising a second optical amplifier coupled to the optical communication path so as to receive the output signal set from the dynamic gain equalizer and produce an amplified output signal set, and wherein the second OCM separates the second signal subset from the output signal set prior to the second optical amplifier. 7. The optical communication device of claim 1 , wherein the dynamic gain equalizer further comprises an optical system shared between and optically coupled to the optical channel monitor and the dynamic gain equalizer, and wherein the optical system is of the type having a polarization separation system, a wavelength dispersion system optically coupled to the polarization separation system, and a modulation device optically coupled to the wavelength dispersion system. 8. The optical communication device of claim 7 , wherein the OCM comprises a tap system, optically coupled to the optical system, that separates the first signal subset from the input signal set and separates the second signal subset from the output signal set. 9. The optical communication device of claim 8 , wherein the tap system comprises a single unit optically coupled between input/output optical fibers and the optical system. 10. The optical communication device of claim 8 , wherein the OCM further comprises one or more focusing lenses optically coupled between the wavelength dispersion system and the modulation device. 11. The optical communication device of claim 7 , wherein the modulation device comprises a liquid crystal cell array. 12. The optical communication device of claim 11 , wherein the liquid crystal cell array comprises a plurality of polarizing modulation cells, wherein each polarizing modulation cell is configured to independently adjust a polarization of light incident on the polarizing modulation cell.