Reconfigurable optical add and drop multiplexer system with monitoring of missing wavelength channels

What is claimed is: 1 . A reconfigurable optical add and drop multiplexer (ROADM) system, comprising: at least one switching device configured to route optical signals through the ROADM system, wherein each switching device comprises: a wavelength selective switch (WSS) configured to receive a plurality of input optical signals at a plurality of input ports and transmitting a first output optical signal; and a loading device optically coupled to the WSS, wherein the loading device is configured to receive the first output optical signal and a second signal, and the loading device is configured to transmit a second output optical signal based on the second signal and the first output optical signal received from the WSS. 2 . The ROADM system of claim 1 , wherein each switching device further comprises a monitoring device monitoring the first output optical signal, wherein the monitoring device comprises: a first optical tap coupler optically coupled to the WSS and configured to tap the first output optical signal; a tap photodiode detector (PD) optically coupled to the first optical tap coupler and configured to monitor missing of whole bands of the first output optical signal; and an optical channel monitor (OCM) optically coupled to the first optical tap coupler and configured to monitor missing one or more wavelength channels of the first output optical signal. 3 . The ROADM system of claim 2 , wherein the monitoring device further comprises: a wavelength division multiplexer (WDM) optically coupled to the first optical tap coupler and configured to separate C band and L band from the first output optical signal; a first PD optically coupled to a C band port of WDM and configured to monitor missing of whole C band of the first output optical signal; and a second PD optically coupled to an L band port of WDM and configured to monitor missing of whole L band of the first output optical signal. 4 . The ROADM system of claim 2 , wherein: the OCM comprises a first optical wavelength blocker (WB) and a PD optically coupled to the first optical WB; and the first optical WB receives the first output optical signal tapped by the first optical tap coupler and selectively transmits an output optical signal to the PD to monitor the missing of the one or more wavelength channels of the first output optical signal. 5 . The ROADM system of claim 4 , wherein the first optical WB is a fast optical WB and is configured to add back compensating optical signal to the input optical signal within a preset time frame of less than 50 milliseconds, wherein the compensating optical signal carries the one or more wavelength channels that are missing in the first output optical signal. 6 . The ROADM system of claim 5 , wherein the first optical WB is cascadedly arranged with additional optical WBs, and wherein the first optical WB and additional optical WBs are configured to block wavelength channels other than the one or more wavelength channels that are missing in the input optical signal. 7 . The ROADM system of claim 4 , wherein: the OCM comprises a plurality of OCMs configured to parallelly receive the input optical signal and monitor the one or more wavelength channels that are missing in the input optical signal; and the plurality of OCMs are parallelly arranged, and each OCM processes partial band of full spectrum of the input optical signal. 8 . The ROADM system of claim 1 , wherein: the loading device further comprises a 2×1 WSS, the 2×1 WSS receives an Amplified Spontaneous Emission (ASE) signal as a second signal at one input port and receives the first output optical signal from the WSS at another input port of the 2×1 WSS, the second signal is transmitted by the 2×1 WSS at one or more wavelength channels that are missing in the first output optical signal; and the 2×1 WSS transmits the second output optical signal in full complete channels with no duplication at an output port to an optical amplifier. 9 . The ROADM system of claim 8 , wherein the 2×1 WSS is a micro-electro-mechanical system (MEMS) based 2×1 WSS. 10 . The ROADM system of claim 1 , wherein the loading device further comprises: a second optical wavelength blocker (WB) configured to receive the second signal at an input port and selectively transmit the second signal at an output port and at one or more wavelength channels that are missing in the first output optical signal received at an output port of the WSS; and a second optical tap coupler configured to combine the second signal and the first output optical signal to obtain the second output optical signal. 11 . The ROADM system of claim 10 , wherein a tap ratio of the second optical tap coupler at a path of the second optical WB is less than 50%. 12 . The ROADM system of claim 10 , wherein the second optical WB is a micro-electro-mechanical system (MEMS) based optical WB. 13 . The ROADM system of claim 1 , wherein: each switching device further comprises an optical amplifier optically coupled to the loading device; and the optical amplifier receives the second output optical signal, and the optical amplifier transmits a boosted second output optical signal as an output signal of the switching device. 14 . A reconfigurable optical add and drop multiplexer (ROADM) system, comprising: a wavelength selective switch (WSS) configured to receive a plurality of input optical signals at a plurality of input ports and transmit a first output optical signal; a first optical tap coupler that separates a tapped signal from the first output optical signal; a fast loading and monitoring device that receives the tapped signal, monitors one or more wavelength channels that are missing in the tapped signal, and selectively transmits a compensating optical signal carrying the one or more wavelength channels that are missing in the tapped signal to a second optical tap coupler; the second optical tap coupler that receives the compensating optical signal, combines the compensating optical signal with the first output optical signal to produce a second output signal; and wherein the fast loading and monitoring device comprises a plurality of optical channel monitors (OCMs) that are parallelly arranged, and each of the plurality of OCMs processes a partial band of a full spectrum of the tapped optical signal. 15 . The ROADM system of claim 14 , wherein the fast loading and monitoring device further comprises one or more fast optical wavelength blocks (WBs) that are configured to: receive a full spectrum Amplified Spontaneous Emission (ASE) signal; produces the compensating optical signal; and transmit the compensating optical to the optical tap coupler. 16 . The ROADM system of claim 15 , wherein: the one or more fast optical WBs comprise a first optical WB and a second optical WB, the first optical WB and the second optical WB are cascadedly connected, and the first optical WB receives, at an input port, the full ASE signal and the second optical WB transmits, at an output port, the compensating optical signal carrying the one or more wavelength channels that are missing in the input optical signal. 17 . The ROADM system of claim 14 , further comprising: an optical power splitter configured to receive the tapped signal and separate the tapped signal into a plurality of the partial bands of the full spectrum of the tapped optical signal and provides each of the plurality of the partial bands to the plurality of OCMs. 18 . The ROADM system of claim 14 , wherein the plurality of OCMs comprise a