Optical node and optical transceiver for auto tuning of operational wavelength

The invention claimed is: 1. An optical node configured to multiplex optical signals, the optical node comprising: an add port; a common port; an auxiliary port; an optical transfer module; and a reflecting element coupled to the auxiliary port, wherein the optical transfer module is configured to couple a signal received on the add port to: the common port, when a wavelength of the signal received on the add port matches an operational wavelength of the optical node, and the auxiliary port, when the wavelength of the signal received on the add port does not match an operational wavelength of the optical node; wherein the reflecting element is configured to reflect a signal received on the auxiliary port to the add port; wherein the optical transfer module comprises an optical filtering element; wherein the optical filtering element comprises a thin film filter, and wherein the thin film filter comprises: an add port coupled to the add port of the optical node; a common port coupled to the common port of the optical node; an express port coupled to the common port of the optical filtering element via a filter layer; and the filter layer configured to couple a signal received on the add port of the optical filtering element to: the common port of the optical filtering element, when the signal received on the add port of the optical filtering element matches a pass-band of the filter layer; the auxiliary port of the optical node, when the signal received on the add port of the optical filtering element does not match a pass-band of the filter layer; and wherein the operational wavelength of the optical node comprises a wavelength matching a pass band of the filter layer. 2. The optical node of claim 1 , wherein the optical transfer module is configured to couple to the auxiliary port any signal received on the add port that has a wavelength not matching an operational wavelength of the optical node. 3. The optical node of claim 1 , further comprising: a plurality of add ports; and corresponding pluralities of optical filtering elements, auxiliary ports and reflecting elements coupled to the auxiliary ports, wherein: each add port of the optical node is coupled to an add port of a corresponding optical filtering element; the filter layer of each optical filtering element is configured to couple any signal received on the add port of the optical filtering element and not matching a pass-band of the filter layer to a respective auxiliary port of the optical node; and each reflecting element is configured to reflect a signal received on its coupled auxiliary port to the add port of the optical node to which the optical filtering element from which the signal on its coupled auxiliary port was received is coupled. 4. The optical node of claim 3 , wherein each optical filtering element further comprises an express port that is coupled to its common port via its filter layer, and wherein the optical filtering elements are connected in series, such that a signal from a common port of a first optical filtering element is input to an express port of a second optical filtering element. 5. The optical node of claim 1 , wherein the optical node is further configured to demultiplex optical signals, and wherein the optical node further comprises: a drop port, and a corresponding optical filtering element, wherein: the corresponding optical filtering element comprises an express port, a common port, a drop port coupled to the drop port of the optical node, and a filter layer; and the filter layer is configured to couple a signal received on the express port to: the drop port, when the signal received on the express port matches a pass-based of the filter layer; and the common port, when the signal received on the express port does not match a pass-based of the filter layer. 6. The optical node of claim 1 , wherein the optical transfer module is configured to couple a signal received on the add port to the auxiliary port, when the signal received on the add port has a predetermined wavelength that does not match an operational wavelength of the optical node. 7. An optical node configured to multiplex optical signals, the optical node comprising: an add port; a common port; an auxiliary port; an optical transfer module; and a reflecting element coupled to the auxiliary port, wherein the optical transfer module is configured to couple a signal received on the add port to: the common port, when a wavelength of the signal received on the add port matches an operational wavelength of the optical node, and the auxiliary port, when the wavelength of the signal received on the add port does not match an operational wavelength of the optical node; wherein the reflecting element is configured to reflect a signal received on the auxiliary port to the add port; wherein the optical transfer module comprises first and second planar regions and a plurality of waveguides coupling the planar regions; wherein the optical node comprises an Arrayed Waveguide Grating (AWG); wherein the optical transfer module is configured to couple a signal received on the add port of the AWG to: the common port of the AWG when the signal received on the add port has a first wavelength, and the auxiliary port of the AWG when the signal received on the add port has a second wavelength; wherein the first wavelength is the operational wavelength of the AWG; wherein the second wavelength is a wavelength that is adjacent to the operational wavelength of the AWG according to a transfer function of the AWG; and wherein the transfer function of the AWG defines a connectivity between: the add port of the AWG, as an input port; and the common and auxiliary ports of the AWG, as output ports, wherein the transfer function is based on wavelength of a signal input to the add port. 8. The optical node of claim 7 , wherein: the AWG comprises a plurality of add ports and a corresponding plurality of operational wavelengths; and the optical transfer module is configured to couple signals received on the respective add ports as follows: to the common port when a wavelength of a signal received on an add port of the AWG matches an operational wavelength of that add port, and to the auxiliary port when a wavelength of a signal received on an add port of the AWG is adjacent to an operational wavelength of that add port, according to a transfer function of the AWG. 9. An optical node configured to multiplex optical signals, the optical node comprising: an add port; a common port; an auxiliary port; an optical transfer module; and a monitoring element configured to monitor optical signal power of an optical signal received on the auxiliary port, wherein: the optical transfer module is configured to couple a signal received on the add port to: the common port, when a wavelength of the signal received on the add port matches an operational wavelength of the optical node, and the auxiliary port, when the wavelength of the signal received on the add port does not match an operational wavelength of the optical node, the optical transfer module comprises first and second planar regions and a plurality of waveguides coupling the planar regions; the optical node further comprises an Arrayed Waveguide Grating (AWG) having a plurality of add ports and a corresponding plurality of operational wavelengths; and the optical transfer module is configured to couple signals received on the respective add ports of the AWG as follows: to the common port when a wavelength of a signal received on an add port of the AWG matches an operational wavelength of that add port, and to the auxiliary port when a wavelength of a signal recei