Optoelectronic module management platform

What is claimed is: 1. An optoelectronic module management system comprising: a plurality of optoelectronic modules each coupled to a corresponding fiber optic cable of a fiber optic network, the optoelectronic modules configured to convert electrical signals to optical signals to be transmitted over the fiber optic cables or convert optical signals from the fiber optic cables to electrical signals; and an optoelectronic module manager configured to monitor operation of the optoelectronic modules, the optoelectronic module manager coupled to each of the optoelectronic modules via a wireless network to communicate with the optoelectronic modules independent of optical signal traffic transmitted over the fiber optic cables by the optoelectronic modules; wherein the optoelectronic module manager receives a message transmitted from a first of the optoelectronic modules to notify the optoelectronic module manager of its existence via the wireless network independent of the optical signal traffic transmitted over the fiber optic cables by the first optoelectronic module. 2. The optoelectronic module management system of claim 1 , each of the optoelectronic modules comprising a wireless management communication transceiver to wirelessly couple the optoelectronic modules to the optoelectronic module manager via the wireless network independent of the optical signal traffic transmitted over the fiber optic cables by the optoelectronic modules. 3. The optoelectronic module management system of claim 1 , wherein each of the optoelectronic modules includes a wireless antenna to wirelessly communicate over the wireless network independent of the optical signal traffic transmitted over the fiber optic cables by the optoelectronic modules. 4. The optoelectronic module management system of claim 3 , wherein the wireless antenna is included in a pull-tab, bail latch or within a case of the optoelectronic modules. 5. An optoelectronic module management system comprising: a plurality of optoelectronic modules each coupled to a corresponding fiber optic cable of a fiber optic network, the optoelectronic modules configured to convert electrical signals to optical signals to be transmitted over the fiber optic cables or convert optical signals from the fiber optic cables to electrical signals; and an optoelectronic module manager configured to monitor operation of the optoelectronic modules, the optoelectronic module manager coupled to each of the optoelectronic modules via a wireless network to communicate with the optoelectronic modules independent of optical signal traffic transmitted over the fiber optic cables by the optoelectronic modules, the optoelectronic module manager configured to: identify a first of the optoelectronic modules via the wireless network independent of the optical signal traffic transmitted over the fiber optic cables by the first optoelectronic module; add the first optoelectronic module to a list of monitored devices; and monitor the first optoelectronic module via the wireless network independent of the optical signal traffic transmitted over the fiber optic cables by the first optoelectronic module. 6. The optoelectronic module management system of claim 1 , the optoelectronic module manager configured to: provide a service to a first of the optoelectronic modules via the wireless network independent of the optical signal traffic transmitted over the fiber optic cables by the first optoelectronic module; and generating a report of the service provided to the first optoelectronic module. 7. The optoelectronic module management system of claim 1 , further comprising a wireless hub communicatively coupled to each of the optoelectronic modules via the wireless network, the wireless hub communicatively coupled to the optoelectronic module manager via a second network. 8. The optoelectronic module management system of claim 7 , wherein the wireless hub plugs into a switch and operates as a wireless router. 9. The optoelectronic module management system of claim 1 , wherein the optoelectronic modules are included in a radio remote head unit or base band unit for a mobile phone antenna set. 10. An optoelectronic module management system comprising: a plurality of optoelectronic modules each coupled to a corresponding fiber optic cable of a fiber optic network, the optoelectronic modules configured to convert electrical signals to optical signals to be transmitted over the fiber optic cables or convert optical signals from the fiber optic cables to electrical signals; and an optoelectronic module manager configured to monitor operation of the optoelectronic modules, the optoelectronic module manager coupled to each of the optoelectronic modules via a wireless network to communicate with the optoelectronic modules independent of optical signal traffic transmitted over the fiber optic cables by the optoelectronic modules, the optoelectronic module manager configured to: send a status request to a first of the optoelectronic modules via the wireless network independent of optical signal traffic transmitted over the fiber optic cables by the first optoelectronic module; and receive a status response from the first optoelectronic module via the wireless network independent of the optical signal traffic transmitted over the fiber optic cables by the first optoelectronic module. 11. An optoelectronic module, comprising: an optical communication transceiver communicatively coupled to a fiber optic cable; and a wireless management communication transceiver communicatively coupled to an optoelectronic module manager via at least one wireless network to communicate status of the optoelectronic module independent of optical signal traffic transmitted over the fiber optic cable by the optical communication transceiver, the optoelectronic module configured to: receive a status request for a monitored attribute from the optoelectronic module manager, the status request received via the wireless network independent of the optical signal traffic transmitted over the fiber optic cable by the optical communication transceiver; identify a status of the monitored attribute; and send a status response of the monitored attribute to the optoelectronic module manager in response to the status request, the status response sent via the wireless management communication transceiver independent of the optical signal traffic transmitted over the fiber optic cable by the optoelectronic module. 12. The optoelectronic module of claim 11 , further comprising a wireless antenna to wirelessly communicate over the wireless network independent of the optical signal traffic transmitted over the fiber optic cable by the optoelectronic module. 13. The optoelectronic module of claim 12 , wherein the wireless antenna is included in a pull-tab, bail latch or within a case of the optoelectronic module. 14. The optoelectronic module of claim 11 , the optoelectronic module further configured to: receive an instruction pertaining to the monitored attribute, the instruction received via the wireless network independent of the optical signal traffic transmitted over the fiber optic cable by the optical communication transceiver; execute the instruction; and send a message indicating the execution of the instruction to the optoelectronic module manager, the message sent via the wireless management communication transceiver independent of the optical signal traffic transmitted over the fiber optic cable by the optoelectronic module. 15. The optoelectronic module of claim 14 , wherein the monitored attribute includes one or more of: a software, fir