Optical fiber-based distributed antenna systems, components, and related methods for calibration thereof

What is claimed is: 1. A method of calibration in a wireless communication system, comprising: determining a total downlink loss for at least one communication downlink configured to transport electrical radio frequency (RF) signals from at least one signal source to a downlink signal source interface and to transport Radio-over-Fiber (RoF) signals converted by at least one optical interface module (OIM) from the electrical RF signals to at least one remote unit; determining a downlink signal source loss from the total downlink loss; calibrating a downlink signal source calibration gain in the downlink signal source interface based on the downlink signal source loss; calibrating at least one remote unit calibration gain in the at least one remote unit as the total downlink loss minus the downlink signal source loss, wherein the remote unit comprises at least one optical-to-electrical converter; and injecting at least one downlink calibration signal over the at least one communication downlink, wherein the controller is configured to calibrate the at least one remote unit calibration gain in the at least one remote unit by setting the at least one remote unit calibration gain in at least one attenuator in the at least one remote unit. 2. The method of claim 1 , further comprising: receiving an input signal strength of the at least one downlink calibration signal on the at least one communication downlink; and determining the total downlink loss by comparing an end signal strength of the at least one downlink calibration signal at the at least one remote unit with the input signal strength of the at least one downlink calibration signal. 3. The method of claim 2 , further comprising communicating the at least one downlink calibration signal over at least one communication uplink. 4. A method of calibration in a wireless communication system, comprising: determining a total downlink loss for at least one communication downlink configured to transport electrical radio frequency (RF) signals from at least one signal source to a downlink signal source interface and to transport optical signals converted by at least one optical interface module (OIM) from the electrical RF signals to at least one remote unit, the remote unit comprising at least one optical-to-electrical converter; determining a downlink signal source loss from the total downlink loss; calibrating a downlink signal source calibration gain in the downlink signal source interface based on the downlink signal source loss for a plurality of signal source bands communicated to the at least one signal source; and automatically calibrating at least one remote unit calibration gain in the at least one remote unit for the plurality of signal source bands as the total downlink loss minus the downlink signal source loss, wherein the controller is configured to calibrate the at least one remote unit calibration gain in the at least one remote unit by setting the at least one remote unit calibration gain in at least one attenuator. 5. The method of claim 4 , further comprising: determining a total uplink loss for at least one communication uplink configured to transport optical signals from the at least one remote unit converted to electrical RF signals by the at least one OIM to an uplink signal source interface; determining an uplink signal source loss from the total uplink loss; calibrating an uplink signal source calibration gain in the uplink signal source interface based on the uplink signal source loss; and calibrating at least one OIM calibration gain in the at least one OIM as the total uplink loss minus the uplink signal source loss. 6. The method of claim 5 , wherein the at least one OIM comprises a plurality of OIMs, and further comprising calibrating a separate OIM calibration gain for each of the plurality of OIMs. 7. The method of claim 6 , further comprising injecting at least one uplink calibration signal to be communicated over the at least one communication uplink. 8. The method of claim 5 , further comprising: receiving an input signal strength of the at least one uplink calibration signal on the at least one communication uplink; and determining the total uplink loss by comparing an end signal strength of the at least one uplink calibration signal at the uplink signal source interface with the input signal strength of the at least one uplink calibration signal at the at least one remote unit. 9. The method of claim 5 , further comprising calibrating the uplink signal source interface and the at least one OIM while electrical RF signals and optical signals are communicated over the at least one communication uplink. 10. The method of claim 5 , further comprising automatically calibrating the signal source calibration gain in the uplink signal source interface and calibrating the at least one OIM calibration gain in the at least one OIM. 11. A method of calibration in a wireless communication system, comprising: determining a total downlink loss for at least one communication downlink configured to transport electrical radio frequency (RF) signals from at least one signal source to a downlink signal source interface and to transport optical signals converted by at least one of a plurality of optical interface modules (OIMs) from the electrical RF signals to at least one remote unit; determining a downlink signal source loss from the total downlink loss; automatically calibrating a downlink signal source calibration gain in the downlink signal source interface based on the downlink signal source loss; calibrating at least one remote unit calibration gain in the at least one remote unit as the total downlink loss minus the downlink signal source loss; and determining a total uplink loss for at least one communication uplink configured to transport optical signals from the at least one remote unit converted to electrical RF signals by the at least one OIM to an uplink signal source interface. 12. The method of claim 11 , further comprising: determining an uplink signal source loss from the total uplink loss; calibrating an uplink signal source calibration gain in the uplink signal source interface based on the uplink signal source loss; and calibrating at least one OIM calibration gain in the at least one OIM from the total uplink loss and the uplink signal source loss. 13. The method of claim 12 , further comprising: injecting at least one uplink calibration signal to be communicated over the at least one communication uplink; and receiving an input signal strength of the at least one uplink calibration signal on the at least one communication uplink. 14. A method of calibration in a wireless communication system, comprising: determining a total downlink loss for at least one communication downlink configured to transport electrical radio frequency (RF) signals from at least one signal source to a downlink signal source interface and to transport optical signals converted by at least one optical interface module (OIM) from the electrical RF signals to at least one remote unit; determining a downlink signal source loss from the total downlink loss; calibrating a downlink signal source calibration gain in the downlink signal source interface based on the downlink signal source loss; calibrating at least one remote unit calibration gain in the at least one remote unit as the total downlink loss minus the downlink signal source loss; determining a total uplink loss for at least one communication uplink configured to transport optical signals from the at least one remote unit converted to electrical RF signals by the at least one OIM to an