Neutral host architecture for a distributed antenna system

What is claimed is: 1. A remotely reconfigurable remote radio head unit for transporting radio frequency signals, the remotely reconfigurable remote radio head unit comprising: at least one remotely reconfigurable access module adapted to receive reconfiguration parameters from a remote location, a plurality of band modules, each of the plurality of band modules having separately reconfigurable parameters in response to the reconfiguration parameters received from the at least one remotely reconfigurable access module, each of the plurality of band modules supporting one of a plurality of frequency bands of the radio frequency signals being transported, and an interface adapted to provide: electrical and mechanical connection for mounting of the plurality of band modules; and bidirectional digital communication between the at least one remotely reconfigurable access module and each of the plurality of band modules. 2. The remotely reconfigurable remote radio head unit of claim 1 wherein the separately reconfigurable parameters comprise at least one of an operator, a frequency, or a carrier. 3. The remotely reconfigurable remote radio head unit of claim 2 wherein each of the plurality of band modules further comprises a field programmable gate array for storing the separately reconfigurable parameters for that band module. 4. The remotely reconfigurable remote radio head unit of claim 1 wherein each of the plurality of band modules further comprises a framer, deframer, serializer, and deserializer. 5. The remotely reconfigurable remote radio head unit of claim 1 wherein each of the plurality of band modules further comprises one or more power amplifiers. 6. The remotely reconfigurable remote radio head unit of claim 5 wherein each of the plurality of band modules further comprises one or more digital predistorters. 7. The remotely reconfigurable remote radio head unit of claim 1 further comprising a crest factor reduction algorithm operable to reduce a peak-to-average ratio signature of an incoming signal. 8. The remotely reconfigurable remote radio head unit of claim 1 further comprising at least one integral uplink low-noise amplifier. 9. The remotely reconfigurable remote radio head unit of claim 1 wherein the at least one remotely reconfigurable access module is disposed in a modified hybrid star configuration. 10. The remotely reconfigurable remote radio head unit of claim 1 further comprising radio resources operable to provide a Flexible Simulcast capability. 11. The remotely reconfigurable remote radio head unit of claim 1 wherein the at least one remotely reconfigurable access module comprises a small form factor pluggable optic transceiver configured to operate on at least two distinct wavelengths. 12. The remotely reconfigurable remote radio head unit of claim 1 wherein each of the plurality of band modules comprises a software configurable digital section and a radio frequency section.