System and method for using dedicated pal band for control plane and gaa band as well as parts of pal band for data plan on a cbrs network

What is claimed is: 1 . A system for providing small cell backhaul network communications, comprising: a small cell backhaul network including a plurality of small cell network nodes each including transceivers for establishing wireless communication links with at least two other small cell network nodes and enabling communication with the at least two other small cell network nodes within the small cell backhaul network, the small cell backhaul network interconnecting an edge network with a core network through the plurality of small cell network nodes and enabling communication between the edge network and the core network over the wireless communications links; a software defined network (SDN) controller for controlling wireless communications links with each of the plurality of small cell network nodes, the transceivers at each of the plurality of small cell network nodes establishing link configurations between the small cell network node and the at least two other small cell network nodes of the small cell backhaul network; and a plurality of LTE interfaces, each associated with one of the small cell network nodes of the small cell backhaul network for providing control plane connectivity between the small cell network nodes and the SDN controller via a control channel and reduce SDN control latency. 2 . The system of claim 1 , wherein a control channel between the SDN controller and an LTE interface comprises an LTE out of band control channel. 3 . The system of claim 1 , wherein communications between the SDN controller and the plurality of LTE interfaces use the OpenFlow communications protocol. 4 . The system of claim 1 , wherein the SDN controller further comprises an OpenFlow plug-in for detecting OpenFlow protocol messages. 5 . The system of claim 1 , wherein the SDN controller further estimate a delay for each link within the small cell backhaul network to control latency. 6 . The system of claim 1 , wherein the SDN controller implements extensions for an OpenDaylight (ODL) controller to control routing for the small cell backhaul network. 7 . The system of claim 1 further comprising fast failover group tables for use by the SDN controller to determine a repair link responsive to a link failure within the small cell backhaul network. 8 . A method for providing small cell backhaul network communications, comprising: establishing wireless communications links between each of a plurality of small cell network nodes of a small cell backhaul network and at least two other small cell network nodes of the small cell backhaul network and between each of the plurality of small cell network nodes and a software defined network (SDN) controller using transceivers located at each of the plurality of small cell network nodes of the small cell backhaul network, the small cell backhaul network interconnecting an edge network with a core network through the plurality of small cell network nodes and enabling communication between the edge network and the core network over the wireless communications links; controlling the transceivers at each of the plurality of small cell network nodes establishing links with the at least two other small cell network nodes of the small cell backhaul network to establish the wireless communications link between each of the plurality of small cell network nodes and the SDN controller; providing control plane connectivity between the small cell network nodes and the SDN controller via a control channel using a plurality of LTE interfaces that are each associated with one of the small cell network nodes; and reducing SDN control latency though the control plane connectivity provided by the plurality of LTE interfaces. 9 . The method of claim 8 , wherein the step of establishing further comprises providing a control channel between the SDN controller and an LTE interface comprises an LTE out of band control channel. 10 . The method of claim 8 , wherein the step of establishing further comprises communicating between the SDN controller and the plurality of LTE interfaces use the OpenFlow communications protocol. 11 . The method of claim 8 , wherein the step of controlling further comprises detecting OpenFlow protocol messages at the SDN controller using an OpenFlow plug-in. 12 . The method of claim 8 , wherein the step of controlling further comprises: estimating a delay for each link within the small cell backhaul network; and controlling latency based upon the estimated delay for each link. 13 . The method of claim 8 , wherein the step of controlling further comprises controlling routing for the small cell backhaul network using an OpenDaylight (ODL) controller implemented within the SDN controller. 14 . The method of claim 8 , wherein the step of controlling further comprises determining a repair link responsive to a link failure within the small cell backhaul network using fast failover group tables associated with the SDN controller. 15 . A system for providing small cell backhaul network communications, comprising: a small cell backhaul network including a plurality of small cell network nodes each including transceivers for establishing wireless communication links with at least two other small cell network nodes and enabling communication with the at least two other small cell network nodes within the small cell backhaul network, the small cell backhaul network comprising a multiband network interconnecting an edge network with a core network through the plurality of small cell network nodes and enabling communication between the edge network and the core network over the wireless communications links; a software defined network (SDN) controller for controlling wireless communications links with each of the plurality of small cell network nodes, the transceivers at each of the plurality of small cell network nodes establishing link configurations between the small cell network node and the at least two other small cell network nodes of the small cell backhaul network; wherein the SDN controller routes data over the multiband network using multi-hop deployment; a plurality of LTE interfaces, each associated with one of the small cell network nodes of the small cell backhaul network for providing control plane connectivity between the small cell network nodes and the SDN controller via a control channel and reduce SDN control latency. 16 . The system of claim 15 , wherein a control channel between the SDN controller and an LTE interface comprises an LTE out of band control channel. 17 . The system of claim 15 , wherein communications between the SDN controller and the plurality of LTE interfaces use the OpenFlow communications protocol. 18 . The system of claim 15 , wherein the SDN controller further estimate a delay for each link within the small cell backhaul network to control latency. 19 . The system of claim 1 , wherein the SDN controller implements extensions for an OpenDaylight (ODL) controller to control routing for the small cell backhaul network. 20 . The system of claim 1 further comprising fast failover group tables for use by the SDN controller to determine a repair link responsive to a link failure within the small cell backhaul network.