OBI detection and avoidance in broadband devices

What is claimed is: 1. A method for scheduling the transmission of user devices on a radio frequency over glass (RFoG) network comprising: determining whether a lost transmission event occurred with a first cable modem associated with a first optical networking unit (ONU) and a second cable modem associated with a second ONU in an RFoG network, wherein a transmission of the first ONU and a transmission of the second ONU overlapped in time; recording a first set of cable modems, comprising at least the first cable modem and the second cable modem, on an OBI candidate list wherein the lost transmission event occurred when the transmission of the first ONU and the transmission of the second ONU overlapped in time; and implementing code in an upstream mapper to avoid scheduling contemporaneous transmissions from at least the two cable modems in the first set on the OBI candidate list within an OBI window, wherein the OBI window is a period of time available for contemporaneous transmissions by multiple devices; wherein a pre-DOCSIS 3.0 cable modem included on the OBI candidate list is scheduled on a single frequency with other frequencies left strictly for modems not on the OBI candidate list, and wherein a DOCSIS 3.0 cable modem included on the OBI candidate list is scheduled to fragment its transmissions among upstream channels to maximize the data bandwidth and minimize the channel occupation time with any remaining channel bandwidth left strictly for other modems not on the OBI candidate list. 2. The method of claim 1 , further comprising: recording the time the first set of cable modems are recorded on the OBI candidate list, wherein the time is used to remove the first set of cable modems after a predetermined time interval has elapsed. 3. The method of claim 1 , wherein the recording of a first set of cable modems includes a rate of lost transmissions by the modems in that first set that occur above a predefined threshold rate of lost transmission events. 4. The method of claim 2 , wherein the recording of a first set of cable modems requires a number of lost transmissions above a predefined threshold of lost transmission events. 5. The method of claim 1 , wherein the OBI window is longer than the longest upstream burst interval. 6. A method for scheduling the transmission of user devices on a RFoG network comprising: determining whether a lost transmission event occurred between a first cable modem and second cable modem in an RFoG network, wherein the transmission of the first cable modem and the transmission of the second cable modem overlapped in time; recording a first set of cable modems on an OBI candidate list; implementing the upstream mapper algorithm so that at most one modem from the OBI candidate list is scheduled to transmit at any time, wherein scheduling of transmissions of the modems not on the OBI candidate list are not restricted; wherein a pre-DOCSIS 3.0 cable modem included on the OBI candidate list is scheduled on a single frequency with other frequencies left strictly for modems not on the OBI candidate list, and wherein a DOCSIS 3.0 cable modem included on the OBI candidate list is scheduled to fragment its transmissions among upstream channels to maximize the data bandwidth and minimize the channel occupation time with any remaining channel bandwidth left strictly for other modems not on the OBI candidate list. 7. The method of claim 6 , wherein the recording of a first cable modem set requires a rate of lost transmissions by the modems in that set above a predefined threshold rate of lost transmission events.