Method and apparatus for providing user equipment access to millimeter wave stations through a microwave station

What is claimed is: 1. A method for providing user equipment (UE) access to a millimeter wave (mmWave) base station through a microwave (uWave) base station, the method comprising: communicating, by the uWave base station, with the UE in a uWave band; sending, by the uWave base station, a request to the mmWave base station to transmit non-zero power Channel State Information Reference Signal(s) (CSI-RS(s)) in the uWave band; transmitting, by the uWave base station to the UE, a system information block (SIB) or radio resource control (RRC) message including reference signal (RS) configuration information identifying RS resources over which the non-zero power CSI-RS(s) are to be transmitted by the mmWave base station, the RS configuration information including at least one of antenna port configuration information, frequency information, code information, or power information of the RS resources for the non-zero power CSI-RS(s), the SIB or RRC message including instructions for the UE to take quality measurement(s) of the non-zero power CSI-RS(s), both the mmWave base station and the uWave base station belonging to a common cellular access network, and the SIB message including information for multiplexing a plurality of CSI-RSs from a plurality of mmWave base stations; receiving, by the uWave base station from the UE, a measurement report in the uWave band that indicates the quality measurement(s) of the non-zero power CSI-RS(s) transmitted by the mmWave base station; and continuing, by the uWave base station, the communications with the UE in the uWave band for at least a time period after the mmWave base station establishes communications with the UE using a mmWave beam. 2. The method of claim 1 , the SIB or RRC message further indicating that the uWave base station supports at least one of the following: a mmWave layer, a specific number of mmWave base station ports, the RS resources over which the non-zero power CSI-RS(s) are to be transmitted by the mmWave base station, or coordinates of the mmWave base station. 3. The method of claim 1 , further comprising: determining, by the uWave base station, a proximity of the UE to the mmWave base station based on the quality measurement(s) of the non-zero power CSI-RS(s) transmitted by the mmWave base station, the proximity of the UE to the mmWave base station being used to select the mmWave beam. 4. The method of claim 1 , the communications in the uWave band comprising control signaling for supporting data transmissions between the UE and the mmWave base station using the mmWave beam. 5. The method of claim 4 , the control signaling including mobility management information or transfer of control information. 6. The method of claim 1 , further comprising continuing, by the uWave base station, the communications with the UE in the uWave band after a failure of the communications between the mmWave base station and the UE using the mmWave beam. 7. The method of claim 6 , the communications in the uWave band comprising radio resource signaling communicated after the failure of the communications between the mmWave base station and the UE using the mmWave beam. 8. The method of claim 1 , wherein the mmWave beam is selected based on the non-zero power CSI-RS(s). 9. The method of claim 1 , further comprising allocating, by the uWave base station, blank uWave base station transmission spaces for a proximity determination of the mmWave base station by the UE. 10. A microwave (uWave) base station comprising: at least one processor; and a non-transitory computer readable storage medium storing programming for execution by the at least one processor, the programming including instructions that cause the uWave base station to: communicate with a user equipment (UE) in a uWave band; send a request to a millimeter wave (mmWave) base station to transmit one or more non-zero power Channel State Information Reference Signal(s) (CSI-RS(s)) in the uWave band; transmit, to the UE, a system information block (SIB) or radio resource control (RRC) message including reference signal (RS) configuration information identifying RS resources over which the non-zero power CSI-RS(s) are to be transmitted by the mmWave base station, the RS configuration information including at least one of antenna port configuration information, frequency information, code information, or power information of the RS resources for the non-zero power CSI-RS(s), the SIB or RRC message including instructions for the UE to take quality measurement(s) of the non-zero power CSI-RS(s), both the mmWave base station and the uWave base station belonging to a common cellular access network, and the SIB message including information for multiplexing a plurality of CSI-RSs from a plurality of mmWave base stations; receive, from the UE, a measurement report in the uWave band that indicates the quality measurement(s) of the non-zero power CSI-RS(s) transmitted by the mmWave base station; and continue communications with the UE in the uWave band for at least a time period after the mmWave base station establishes communications with the UE using a mmWave beam. 11. The uWave base station of claim 10 , the SIB or RRC message further indicating that the uWave base station supports at least one of the following: a mmWave layer, a specific number of mmWave base station ports, the RS resources over which the non-zero power CSI-RS(s) are to be transmitted by the mmWave base station, or coordinates of the mmWave base station. 12. The uWave base station of claim 10 , the programming further including instructions to: determine a proximity of the UE to the mmWave base station based on the quality measurement(s) of the non-zero power CSI-RS(s) transmitted by the mmWave base station, the proximity of the UE to the mmWave base station being used to select the mmWave beam. 13. The uWave base station of claim 10 , the communications in the uWave band comprising control signaling for supporting data transmissions between the UE and the mmWave base station using the mmWave beam. 14. The uWave base station of claim 13 , the control signaling including mobility management information or transfer of control information. 15. The uWave base station of claim 10 , the programming further including instructions to: continue the communications with the UE in the uWave band after a failure of the communications between the mmWave base station and the UE using the mmWave beam. 16. The uWave base station of claim 10 , the communications in the uWave band comprising radio resource signaling communicated after a failure of the communications between the mmWave base station and the UE using the mmWave beam. 17. The uWave base station of claim 10 , wherein the mmWave beam is selected based on the non-zero power CSI-RS(s). 18. The uWave base station of claim 10 , the programming further including instructions to allocate blank uWave base station transmission spaces for a proximity determination of the mmWave base station by the UE.