Upstream scheduling in a passive optical network

What is claimed is: 1. A method comprising: measuring an amount of power received from a first optical network unit (ONU) in a waveband used by a second ONU to transmit upstream over a passive optical network (PON); and based on the detected amount of power received from the first ONU in the waveband, selecting between a pure time-division multiple access manner and a combined time-division and wavelength-division multiple access manner to schedule upstream transmissions of the first ONU with upstream transmissions of the second ONU over the PON. 2. The method of claim 1 , wherein the waveband spans from 1260 nm-1280 nm. 3. The method of claim 1 , wherein measuring the amount of power received from the first ONU in the waveband used by the second ONU to transmit upstream is performed during a discovery slot. 4. The method of claim 1 , wherein the selecting further comprises: selecting the pure time-division multiple access manner to schedule the upstream transmissions of the first ONU with the upstream transmissions of the second ONU over the PON if the detected amount of power received from the first ONU in the waveband is greater than a threshold amount. 5. The method of claim 1 , wherein the selecting further comprises: selecting the combined time-division and wavelength-division multiple access manner to schedule the upstream transmissions of the first ONU with the upstream transmissions of the second ONU over the PON if the detected amount of power received from the first ONU in the waveband is less than a threshold amount. 6. The method of claim 5 , further comprising: re-measuring the amount of power received from the first ONU in the waveband used by the second ONU to transmit upstream; and based on the redetected amount of power received from the first ONU in the waveband used by the second ONU to transmit upstream, selecting between the pure time-division multiple access manner and the combined time-division and wavelength-division multiple access manner to schedule the upstream transmissions of the first ONU with the upstream transmissions of the second ONU over the PON. 7. The method of claim 6 , wherein re-measuring the amount of power received from the first ONU in the waveband used by the second ONU to transmit upstream is performed during a time slot in which the first ONU is the only device scheduled to transmit upstream. 8. The method of claim 5 , further comprising: monitoring a number of bit errors associated with the upstream transmissions from the first ONU or induced by the upstream transmissions from the first ONU; and based on the number of bits errors associated with upstream transmissions from the first ONU or induced by the upstream transmissions from the first ONU, selecting between the pure time-division multiple access manner and the combined time-division and wavelength-division multiple access manner to schedule the first ONU to transmit upstream with the second ONU or another ONU. 9. A method comprising: measuring an amount of power received from a 1G optical network unit (1G-ONU) in a waveband used by 10G optical network units (10G-ONUs) to transmit upstream over a passive optical network (PON); and based on the detected amount of power received from the 1G-ONU in the waveband, selecting between a pure time-division multiple access manner and a combined time-division and wave-length division multiple access manner to schedule upstream transmissions of the 1G ONU with upstream transmissions of the 10G ONUS over the PON. 10. The method of claim 9 , wherein the waveband spans from 1260 nm-1280 nm. 11. The method of claim 9 , wherein measuring the amount of power received from the 1G-ONU in the waveband used by the 10G-ONUs to transmit upstream is performed during a discovery slot. 12. The method of claim 9 , wherein the selecting further comprises: selecting the pure time-division multiple access manner to schedule the upstream transmissions of the 1G ONU with the upstream transmissions of the 10G ONUs over the PON if the detected amount of power received from the 1G-ONU in the waveband is greater than a threshold amount. 13. The method of claim 9 , wherein the selecting further comprises: selecting the combined time-division and wavelength-division multiple access manner to schedule the upstream transmissions of the 1G ONU with the upstream transmissions of the 10G ONUs over the PON if the detected amount of power received from the 1G-ONU in the waveband is less than a threshold amount. 14. The method of claim 13 , further comprising: re-measuring the amount of power received from the 1G-ONU in the waveband used by the 10G-ONUs to transmit upstream; and based on the redetected amount of power received from the 1G-ONU in the waveband used by the 10G-ONUs to transmit upstream, selecting between the pure time-division multiple access manner and the combined time-division wavelength-division multiple access manner to schedule the upstream transmissions of the 1G ONU with the upstream transmissions of the 100 ONU over the PON. 15. The method of claim 14 , wherein re-measuring the amount of power received from the 1G-ONU in the waveband used by the 10G-ONUs to transmit upstream is performed during a time slot in which the 1G-ONU is the only device scheduled to transmit upstream. 16. The method of claim 13 , further comprising: monitoring a number of bit errors associated with the upstream transmissions from the 1G-ONU or induced by the upstream transmissions from the 1G-ONU; and based on the number of bits errors associated with upstream transmissions from the 1G-ONU or induced by the upstream transmissions from the 1G-ONU, selecting between the pure time-division multiple access manner and the combined time-division wavelength-division multiple access manner to schedule the 1G ONU to transmit upstream with the 10G ONUs. 17. An optical line terminal (OLT) comprising: a passive optical network (PON) interface configured to detect an amount of power received from a first optical network unit (ONU) in a waveband used by a second ONU to transmit upstream over a PON; and a PON controller configured to select between a time-division multiple access manner and a wavelength-division multiple access manner to schedule upstream transmissions of the first ONU with upstream transmissions of the second ONU over the PON based on the detected amount of power received from the first ONU in the waveband. 18. The OLT of claim 17 , wherein the waveband spans from 1260 nm-1280 nm. 19. The our of claim 17 , wherein detecting the amount of power received from the first ONU in the waveband used by the second ONU to transmit upstream is performed during a discovery slot. 20. The OLT of claim 17 , wherein the PON controller is further configured to select the pure time-division multiple access manner to schedule the upstream transmissions of the first ONU with the upstream transmissions of the second ONU over the PON if the detected amount of power received from the first ONU in the waveband is greater than a threshold amount.