Systems and methods for a fronthaul network

I claim: 1. A method of transmitting data from a wired backhaul network to a wireless fronthaul network, for wireless transmission to mobile subscribers by a remote transceiver operating at a remote operating radio frequency, the method comprising: receiving, at a central fronthaul module, a backhaul baseband signal comprising data from a baseband unit, the backhaul baseband signal being received over a wired Common Public Radio Interface (CPRI) interconnection coupling the central fronthaul module to the baseband unit; converting the backhaul baseband signal to a first radio frequency signal having a first frequency, the first frequency being at or near the remote operating radio frequency of the remote transceiver for wireless transmission to the mobile subscribers; pre-distorting, using an analog pre-distorter, a first intermediate signal to produce a pre-distorted radio frequency signal, the first intermediate signal being based on the first radio frequency signal and being at the first frequency, thereby enabling the pre-distorting to occur on the first intermediate signal at or near the remote operating radio frequency of the remote transceiver; upconverting a second intermediate signal to a second radio frequency signal having a second frequency higher than the first frequency, the second intermediate signal being based on the pre-distorted radio frequency signal at the first frequency, the second frequency being a microwave or millimeter wave frequency; amplifying a third intermediate signal to an amplified radio frequency signal having the second frequency, the third intermediate signal being based on the second radio frequency signal; and transmitting a fourth intermediate signal at the second frequency to the remote transceiver, the fourth intermediate signal being based on the amplified radio frequency signal. 2. The method of claim 1 , wherein the data is received by the central fronthaul module over a fiber optic connection. 3. The method of claim 1 , wherein the first frequency relates to cellular communications. 4. The method of claim 1 , wherein the first frequency comprises a Long Term Evolution (LTE) frequency. 5. The method of claim 1 , wherein the pre-distorting is based on a feedback signal, the feedback signal being based on the amplified radio frequency signal. 6. The method of claim 1 , wherein the second frequency comprises a millimeter wave frequency. 7. A central fronthaul module comprising: a conversion module configured to: receive a backhaul baseband signal comprising data from a baseband unit, the backhaul baseband signal being received over a wired Common Public Radio Interface (CPRI) interconnection coupling the central fronthaul module to the baseband unit, and convert the backhaul baseband signal to a first radio frequency signal having a first frequency, the first frequency being at or near a remote operating radio frequency of a remote transceiver for wireless transmission to mobile subscribers; an analog pre-distortion module configured to pre-distort a first intermediate signal to produce a pre-distorted radio frequency signal, the first intermediate signal being based on the first radio frequency signal and being at the first frequency, thereby enabling the pre-distorting to occur on the first intermediate signal at or near the remote operating radio frequency of the remote transceiver; an upconversion module configured to upconvert a second intermediate signal to a second radio frequency signal having a second frequency higher than the first frequency, the second intermediate signal being based on the pre-distorted radio frequency signal at the first frequency, the second frequency being a microwave or millimeter wave frequency; a power amplifier configured to amplify a third intermediate signal to an amplified radio frequency signal having the second frequency, the third intermediate signal being based on the second radio frequency signal; and a transmission module configured to transmit a fourth intermediate signal at the second frequency to the remote transceiver by an antenna, the fourth intermediate signal being based on the amplified radio frequency signal. 8. The central fronthaul module of claim 7 , wherein the data is received by the conversion module over a fiber optic connection. 9. The central fronthaul module of claim 7 , wherein the first frequency relates to cellular communications. 10. The central fronthaul module of claim 7 , wherein the first frequency comprises a Long Term Evolution (LTE) frequency. 11. The central fronthaul module of claim 7 , wherein the pre-distorting is based on a feedback signal, the feedback signal being based on the amplified radio frequency signal. 12. The central fronthaul module of claim 7 , wherein the second frequency comprises a millimeter wave frequency.