Radio frequency (RF) communication channel reconfiguration in remote antenna unit (RAU) coverage areas in a distributed antenna system (DAS) to reduce RF interference

What is claimed is: 1. A wireless distribution system (WDS) deployed in a building infrastructure, comprising: a plurality of remote unit coverage areas distributed over multiple floors of the building infrastructure and configured to communicate on a respective first radio frequency (RF) channel; and a head-end equipment (HEE) coupled to the plurality of remote unit coverage areas over a plurality of communications mediums, respectively, the HEE comprising a spectrum optimization unit; the spectrum optimization unit comprising: a spectrum analysis unit configured to: receive a plurality of sniffed RF signals from the plurality of remote unit coverage areas, respectively, wherein each of the plurality of sniffed RF signals comprises one or more RF signals sniffed by at least one remote unit in a respective remote unit coverage area; and for each of the plurality of sniffed RF signals:  analyze the one or more RF signals comprised in the plurality of sniffed RF signals; and  determine a respective second RF channel for the respective remote unit coverage area if the respective second RF channel is lesser-interfered than the respective first RF channel; and a controller configured to reconfigure one or more remote unit coverage areas among the plurality of remote unit coverage areas to communicate on one or more respective second RF channels in response to the one or more respective second RF channels being determined by the spectrum analysis unit, wherein the spectrum optimization unit further comprises a signal interface configured to: receive one or more downlink communications signals from one or more communications signal sources, each of the one or more downlink communications signals associated with a respective RF channel; receive a control signal from the controller, wherein the control signal identifies the one or more remote unit coverage areas to be reconfigured to operate on the one or more respective second RF channels; and for at least one of the one or more remote unit coverage areas to be reconfigured to operate on the one or more respective second RF channels: identify a downlink communications signal among the one or more downlink communications signals received from the one or more communications signal sources, wherein a respective RF channel of the downlink communications signal is the same as the respective second RF channel of the respective remote unit coverage area; and route the identified downlink communications signal to the respective remote unit coverage area. 2. The WDS of claim 1 , wherein each of the plurality of communications mediums comprises a respective downlink data signal path for communicating the one or more downlink communications signals to the plurality of remote unit coverage areas. 3. The WDS of claim 2 , each of the plurality of communications mediums further comprises a respective uplink data signal path for receiving one or more uplink communications signals from the plurality of remote unit coverage areas. 4. The WDS of claim 3 , wherein the RF signal router is configured to receive the one or more downlink communications signals from the signal interface. 5. The WDS of claim 4 , wherein the RF signal router is further configured to provide the one or more downlink communications signals to the plurality of remote unit coverage areas over the respective downlink data signal path in the plurality of communications mediums. 6. The WDS of claim 5 , wherein the RF signal router is further configured to receive the one or more uplink communications signals and the plurality of sniffed RF signals from the plurality of remote unit coverage areas over the respective uplink data signal path in the plurality of communications mediums. 7. The WDS of claim 6 , wherein the RF signal router is further configured to: provide the plurality of sniffed RF signals to the spectrum analysis unit; and provide the one or more uplink communications signals to the signal interface. 8. The WDS of claim 3 , wherein the spectrum analysis unit is further configured to identify a power-leaking remote unit in an remote unit coverage area among the plurality of remote unit coverage areas, wherein the power-leaking remote unit interferes with another remote unit coverage area among the plurality of remote unit coverage areas that is different from the respective remote unit coverage area of the power-leaking remote unit. 9. The WDS of claim 8 , wherein the controller is further configured to reduce RF power level of the power-leaking remote unit identified by the spectrum analysis unit. 10. The WDS of claim 1 , wherein the spectrum analysis unit is further configured to identify a power-leaking remote unit in an remote unit coverage area among the plurality of remote unit coverage areas, wherein the power-leaking remote unit interferes with another remote unit coverage area among the plurality of remote unit coverage areas that is different from the respective remote unit coverage area of the power-leaking remote unit. 11. A wireless distribution system (WDS) deployed in a building infrastructure, comprising: a plurality of remote unit coverage areas distributed over multiple floors of the building infrastructure and configured to communicate on a respective first radio frequency (RF) channel; and a head-end equipment (HEE) coupled to the plurality of remote unit coverage areas over a plurality of communications mediums, respectively, the HEE comprising a spectrum optimization unit; the spectrum optimization unit comprising: a spectrum analysis unit configured to: receive a plurality of sniffed RF signals from the plurality of remote unit coverage areas, respectively, wherein each of the plurality of sniffed RF signals comprises one or more RF signals sniffed by at least one remote unit in a respective remote unit coverage area; and for each of the plurality of sniffed RF signals:  analyze the one or more RF signals comprised in the plurality of sniffed RF signals; and  determine a respective second RF channel for the respective remote unit coverage area if the respective second RF channel is lesser-interfered than the respective first RF channel; and a controller configured to reconfigure one or more remote unit coverage areas among the plurality of remote unit coverage areas to communicate on one or more respective second RF channels in response to the one or more respective second RF channels being determined by the spectrum analysis unit, wherein: the spectrum analysis unit is further configured to: identify an remote unit coverage area among the plurality of remote unit coverage areas as an over-sized remote unit coverage area if the remote unit coverage area has an expanded coverage boundary larger than a planned coverage boundary; and identify an remote unit coverage area among the plurality of remote unit coverage areas as an under-sized remote unit coverage area if the remote unit coverage area has a reduced coverage boundary; and the controller is further configured to: reduce the expanded coverage boundary of the over-sized remote unit coverage area by reducing RF power level of one or more remote units in the over-sized remote unit coverage area; and increase the reduced coverage boundary of the under-sized remote unit coverage area by increasing RF power level of one or more remote units in the under-sized remote unit coverage area. 12. The WDS of claim 11 , wherein the plurality of communications mediums is a plurality of optical fiber-based communications mediums, each of the plurality of optical fiber-based communications mediums comprising a respective downlink data signal path for communicating the one