Identifying and monitoring connections in an optical system

What is claimed is: 1. An optical system comprising: a first direction device that is a source optical device for an OADM node; a plurality of add-drop group devices that are remote optical devices in the OADM node, the plurality of add-drop group devices being configured to communicatively couple with the first direction device by a plurality of optical links; in the first direction device, at least one light source that generates monitor signals of a reference wavelength; in the first direction device, at least one optical element configured to direct the monitor signals into transmission paths from the first direction device to one or more of the remote optical devices over the plurality of optical links; in each add-drop group device of the plurality of add-drop group devices, one or more optical elements that return the monitor signals to the source optical device over a corresponding optical link; in the first direction device, a photodetector and at least one optical element configured to direct returned monitor signals received over the plurality of optical links to the photodetector; in the first direction device, at least one microprocessor configured to execute control instructions to generate the monitor signals and process one or more outputs of the photodetector in response to the returned monitor signals to determine connectivity of the plurality of optical links. 2. The optical system of claim 1 , wherein the one or more add-drop group devices are passive optical devices. 3. The optical system of claim 1 , wherein determining connectivity of the plurality of optical links comprises detecting a fiber disconnection or failure event on one or more optical links. 4. The optical system of claim 1 , wherein determining connectivity of the optical links comprises determining optical loss over one or more optical links based on baseline data for the at least one light source. 5. The optical system of claim 1 : wherein the one or more optical elements at each add-drop group devices include a demultiplexer device in each transmission path from the source optical device and a multiplexer device in each receiving path to the source optical device; wherein the demultiplexer device and the multiplexer device direct the monitor signals through a bypass path between each transmission path and each receiving path. 6. The optical system of claim 1 : wherein the one or more optical elements at each add-drop group device includes a reflector that returns the monitor signals over one or more transmission optical link components used by one or more transmission paths; wherein the control instructions, when executed, determine connectivity of one or more receiving optical link components. 7. The optical system of claim 1 , further comprising: at least one additional optical element configured to direct second monitor signals of the reference wavelength to the remote optical devices over one or more optical link components used by one or more receiving paths; wherein the one or more optical elements at each add-drop group device includes a second reflector that returns the second monitor signals over the one or more optical link components used by the one or more receiving paths; at least one optical element configured to direct returned second monitor signals to a second photodetector; wherein the control instructions, when executed, determine connectivity of one or more receiving link components. 8. The optical system of claim 1 , further comprising: in the first direction device, a second photodetector; wherein determining connectivity of the optical links comprises determining optical loss over one or more optical links based on a current output of the light source as measured by the second photodetector.