Systems and methods for seamless switching of default data radio

What is claimed is: 1. A communications system, comprising: a first data radio communicatively coupled to a first antenna at a first position on a vehicle, wherein the first data radio is configured to transmit and receive datalink communications only via the first antenna; a second data radio communicatively coupled to a second antenna at a second position on the vehicle different from the first position, wherein the second data radio is configured to transmit and receive datalink communications only via the second antenna; wherein the first data radio and the second data radio are tuned to the same frequency for data communications, wherein the first data radio and the second data radio are configured to receive uplink data communications at the same time, wherein only one of the first data radio and the second data radio is used at a time for primary data communications to transmit downlink data communications; and at least one processor communicatively coupled to a memory, the first data radio and the second data radio; wherein the at least one processor is configured to: monitor one or more parameters for the first data radio and the second data radio; determine whether the first data radio or the second data radio has better current performance based on a comparison of the one or more parameters for the first data radio and the second data radio; and switch from the first data radio to the second data radio for primary data communications based on the determination. 2. The communications system of claim 1 , wherein the one or more parameters include channel utilization for the respective data radio, noise for signals received for the respective data radio, signal strength for signals received for the respective data radio, and/or a signal quality parameter for signals received for the respective data radio. 3. The communications system of claim 1 , wherein the one or more parameters include radio health for the respective data radio, a service type of ground station in communication with the respective data radio, a service provider for signals received for the respective data radio, a ground station location, a number of ground stations heard by the respective data radio, and/or latency of communications received by the respective data radio. 4. The communications system of claim 1 , wherein the communications system is positioned on an aircraft, wherein the first antenna is positioned at a first location on the aircraft and the second antenna is positioned at a second location on the aircraft different than the first location. 5. The communications system of claim 1 , wherein the at least one processor is further configured to: generate a respective peer entity contact table for the first data radio and the second data radio based on the one or more monitored parameters; and determine whether the first data radio or the second data radio has better current performance by comparing the peer entity contact tables for the first data radio and the second data radio. 6. The communications system of claim 1 , wherein the at least one processor is further configured to maintain a connection between the first data radio and a first ground station during a switch from the first data radio to the second data radio for primary data communications. 7. The communications system of claim 1 , wherein the first data radio and the second data radio are very high frequency radios. 8. The communications system of claim 1 , wherein the first data radio and the second data radio are multi-mode radios configured to simultaneously perform voice communications and data communications. 9. The communications system of claim 8 , wherein the first data radio and the second data radio each include: a receive voice communication path; a transmit voice communication path; an uplink data communication path; and a downlink data communication path. 10. The communications system of claim 9 , wherein the first data radio and the second data radio are each configured to: simultaneously receive signals via the receive voice communication path and receive uplink signals via the uplink data communication path; simultaneously transmit signals via the transmit voice communication path and receive uplink signals via the uplink data communication path; and simultaneously transmit downlink signals via the downlink data communication path and receive signals via the receive voice communication path. 11. The communications system of claim 9 , wherein the first data radio and the second data radio are each configured to queue downlink data communications via downlink data communication path in response to a transmission via the transmit voice communication path. 12. A communications management system, comprising: a first input configured to be communicatively coupled to a first data radio and a first antenna via the first data radio, wherein the first input is configured to transmit and receive datalink communications only via the first data radio and the first antenna; a second input configured to be communicatively coupled to a second data radio and a second antenna via the second data radio, wherein the second input is configured transmit and receive datalink communications only via the second data radio and the second antenna, wherein the first data radio and the second data radio are tuned to the same frequency for data communications; and at least one processor communicatively coupled to a memory, the first input, and the second input, wherein the at least one processor is configured to: monitor one or more parameters for the first data radio coupled to a first antenna and one or more parameters for the second data radio coupled to a second antenna; compare the one or more parameters for the first data radio with the one or more parameters for the second data radio; determine whether the first data radio or the second data radio has better current performance based on the comparison of the one or more parameters for the first data radio with the one or more parameters for the second data radio; in response to a determination that the first data radio has better current performance, switch to or maintain the first data radio for primary data communications where only the first data radio is used to transmit downlink data communications and both the first data radio and the second data radio are used to receive uplink data communications at the same time; and in response to a determination that the second data radio has better current performance, switch to or maintain the second data radio for primary data communications where only the second data radio is used to transmit downlink data communications and both the first data radio and the second data radio are used to receive uplink data communications at the same time. 13. The communications management system of claim 12 , wherein the one or more parameters for the first data radio and the one or more parameters for the second data radio include channel utilization for the respective data radio, noise for signals received for the respective data radio, signal strength for signals received for the respective data radio, and/or a signal quality parameter for signals received for the respective data radio. 14. The communications management system of claim 12 , wherein the one or more parameters for the first data radio and the one or more parameters for the second data radio include radio health for the respective data radio, a service type of ground station in communication with the respective data radio, a service provider for signals received for the respective data radio, a ground station locati