Generating reference signals from selected signals

The invention claimed is: 1. A method for selecting a signal for generating a reference signal, the method comprising: receiving a plurality of radio signals from one or more large-coverage access components, wherein the plurality of radio signals are Long Term Evolution Time Division Duplex (LTE-TDD) signals; analyzing signal quality of each of the plurality of radio signals received from one or more large-coverage access components; selecting at least one of the plurality of radio signals based on the signal quality; providing the at least one selected radio signal to a signal processor that converts the at least one selected radio signal into an intermediate reference signal; filtering jitter and other abnormalities from the intermediate reference signal to generate a frequency, phase, and time reference signal; generating, at a timing gateway, a reference signal from the intermediate reference signal, wherein generating the reference signal includes encapsulating the frequency, phase, and time reference signal into packets; and communicating the reference signal from the timing gateway to one or more small cells through a hardwired physical interface. 2. The method of claim 1 , further comprising disqualifying from selection at least one disqualified radio signal of the plurality of radio signals, wherein the at least one disqualified radio signal is concurrently timed by a timing gateway, is characterized as having a poorer signal quality than the at least one selected radio signal, or a combination thereof. 3. The method of claim 1 , wherein generating the reference signal further comprises providing the intermediate reference signal to an oscillator for filtering jitter and other abnormalities from the intermediate reference signal to generate the reference signal. 4. The method of claim 1 , wherein analyzing the signal quality includes determining that the plurality of radio signals should be ensembled, and wherein the at least one selected radio signal comprises an ensemble of the plurality of radio signals. 5. The method of claim 1 , wherein analyzing the signal quality includes examining one or more of frequency, signal strength, frequency stability, or a signal quality threshold of the radio signals. 6. The method of claim 1 , wherein at least one of the one or more large-coverage access components are further capable of outputting a Long Term Evolution Frequency Division Duplex (LTE-FDD) signal. 7. The method of claim 1 , wherein analyzing signal quality further comprises examining one or more of location, topography, distance, specific network provider, or cell-site indicator of the one or more large-coverage access components. 8. Non-transitory computer-readable media having computer-executable instructions embodied thereon that, when executed, perform a method for synchronizing one or more small cells by generating a frequency, phase, and time reference signal from a selected radio signal, the method comprising: receiving one or more radio signals from at least one base station outputting a Long Term Evolution Time Division Duplex (LTE-TDD) signal; determining signal quality of each of the one or more radio signals received from the from the at least one base station outputting a LTE-TDD signal; selecting at least one of the one or more radio signals based on the determination of the signal quality; at a timing gateway, processing the at least one selected radio signal provided by the at least one base station to generate an intermediate reference signal; filtering jitter and other abnormalities from the intermediate reference signal to generate a frequency, phase, and time reference signal; encapsulating the frequency, phase, and time reference signal into packets; and communicating the packets that comprise the frequency, phase, and time reference signal from the timing gateway to one or more small cells through a hardwired physical interface. 9. The media of claim 8 , further comprising disqualifying from selection at least one disqualified radio signal of the one or more radio signals, wherein the at least one disqualified radio signal is concurrently timed by a timing gateway, is characterized as having a poorer signal quality than the at least one selected radio signal, or a combination thereof. 10. The media of claim 8 , wherein signal quality is determined based on frequency, signal strength, frequency stability, a signal quality threshold, or a combination thereof. 11. The media of claim 8 , wherein determining the signal quality further includes evaluating whether each of the one or more radio signals meets a signal quality threshold, wherein the signal quality threshold may be user-determined, preset, or dynamically determined. 12. The media of claim 8 , wherein determining the signal quality further comprises examining one or more of the location, topography, distance, specific network provider, cell-site indicator, or a combination thereof, of the at least one base station. 13. The media of claim 8 , further comprising determining to ensemble the one or more radio signals into an ensemble signal, and wherein the at least one selected signal is the ensemble signal. 14. The media of claim 13 , wherein the ensemble signal is generated by averaging one or more of frequency, signal strength, frequency stability, or a signal quality threshold of the one or more radio signals. 15. The media of claim 8 , wherein the timing gateway comprises a receiving component having at least one antenna for receiving a LTE-TDD signal, a signal processor, an oscillator, and a master component for encapsulating the frequency, phase, and time reference signal into the packets. 16. The media of claim 8 , wherein the packets are communicated to the one or more small cells by way of a Precision Timing Protocol. 17. A timing gateway for generating frequency, phase, and time reference signals from a received radio signal, the timing gateway comprising: a receiving component having an antenna that receives one or more radio signals from at least one large-coverage access component, the one or more radio signals used to generate a frequency, phase, and time reference signal to synchronize one or more small-coverage access components, the at least one large-coverage access component transmitting Long Term Evolution Time Division Duplex (LTE-TDD) radio signals for communicating data with mobile devices in a wireless communications network and acting as a source of accurate frequency, phase, and time synchronization for the one or more small-coverage access components; a signal processor that generates an intermediate frequency, phase, and time reference signal from the one or more radio signals received by the receiving component of the timing gateway; an oscillator that generates the frequency, phase, and time reference signal by filtering jitter and other abnormalities from the intermediate frequency, phase, and time reference signal generated by the signal processor; and a master component that encapsulates the frequency, phase, and time reference signal generated by the oscillator into packets, wherein the packets are distributed from the timing gateway to the one or more small-coverage access components by way of a hardwired physical interface, wherein the one or more small-coverage access components are collocated and receive the packets containing the frequency, phase, and time reference signal by way of the hardwired physical interface. 18. The timing gateway of claim 17 , wherein the large-coverage access component is a component other than a G