Method, apparatus, and system for optimizing performance of a communication unit by a remote server

What is claimed is: 1. A remote server comprising: a first interface coupled to a first station, the first interface receives a first set of collected data associated with a first plurality of channel interference measurements within a first network managed by the first station; a second interface coupled to a second station, the second interface receives a second set of collected data associated with a second plurality of channel interference measurements within a second network managed by the second station; a machine-readable storage medium coupled to the first and second interfaces, the memory stores the first and second sets of collected data; a processor coupled to the machine-readable storage medium, the processor generates at least one policy based at least in part on an analysis of the first and second sets of collected data, the at least one policy relating to interference on a first mobile device within the first network; a third interface coupled to the processor, the third interface transmits, in response to the processor determining a change in performance in at least one of the first network or the second network, the at least one policy to the second station that makes a first power adjustment within the second network based on the at least one policy; wherein the first station and second stations are base stations and the first and second networks are cellular networks; and wherein the remote server is external to the first and second networks. 2. The remote server of claim 1 wherein the at least one policy is transmitted to the second station in response to an interference level relating to at least a portion of the first plurality of channel interference measurements crossing a threshold. 3. The remote server of claim 1 wherein the first set of collected data comprises received signal strength indications. 4. The remote server of claim 3 wherein the first set of collected data is received from a first mobile device within the first network. 5. The remote server of claim 3 wherein the first mobile device within the first network receives interference from the second station. 6. The remote server of claim 5 wherein the power adjustment reduces interference on the first mobile device. 7. The remote server of claim 5 wherein the first station adjusts a transmission rate to the first mobile device in response to the at least one policy. 8. The remote server of claim 5 wherein the first station adjusts at least one channel transmission characteristic of at least one wireless channel within the first network. 9. The remote server of claim 8 wherein the at least one channel transmission characteristic comprises a modification to a transmission band across the at least one wireless channel within the first network. 10. The remote server of claim 9 wherein the modification to the transmission band reduces interference on the first mobile network. 11. The remote server of claim 1 wherein the at least one policy relates to a transmission rate between the first station and a first mobile device within the first network. 12. The remote server of claim 1 wherein at least two of the first, second and third interfaces are integrated together. 13. A remote server comprising: a first interface coupled to a first station, the first interface receives a first set of collected data associated with a first plurality of received power measurements within a first network managed by the first station; a second interface coupled to a second station, the second interface receives a second set of collected data associated with a second plurality of received power measurements within a second network managed by the second station; a machine-readable storage medium coupled to the first and second interfaces, the memory stores the first and second sets of collected data; a processor coupled to the machine-readable storage medium, the processor generates at least one policy based at least in part on an analysis of the first and second sets of collected data, the at least one policy relating to at least one transmission band for communication between a mobile device the second station; a third interface coupled to the processor, the third interface transmits, in response to the processor determining a power level on a signal, within a first transmission band, received at the mobile device from the first station falling below a threshold, the at least one policy to the second station that requests the second station communicate in a second transmission band to the mobile device; wherein the first station and second stations are base stations and the first and second networks are cellular networks; and wherein the remote server is external to the first and second networks. 14. The remote server of claim 13 wherein the first transmission band is defined in a first standard and the second transmission band is defined in a second standard. 15. The remote server of claim 13 wherein the first and second sets of collected data comprises historical data. 16. The remote server of claim 13 wherein the first and second sets of collected data relate to received signal strength indication data at the mobile device. 17. The remote server of claim 13 wherein the at least one policy relates to transmission power at the second station. 18. The remote server of claim 13 wherein at least two of the first, second and third interfaces are integrated together. 19. The remote server of claim 13 wherein the first and second sets of collected data relate to a signal-to-noise level at the mobile device. 20. The remote server of claim 13 wherein the at least one policy adjusts a transmission rate of at least one channel within the second network.