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A node for communicating with multiple ad hoc communication networks includes a first antenna configured to communicate in a first frequency band associated with a first ad hoc communication network and a second antenna configured to communicate in a second frequency band associated with a second ad

A node for communicating with multiple ad hoc communication networks includes a first antenna configured to communicate in a first frequency band associated with a first ad hoc communication network and a second antenna configured to communicate in a second frequency band associated with a second ad hoc communication network. A transceiver is coupled to the first antenna and the second antenna. The transceiver is configured to transmit and receive messages. A control circuit is coupled to the transceiver and is configured to implement an access protocol having a time slot section. The access protocol is configured to switch communications in the time slot section between the first frequency band and the second frequency band.

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1. A military radio node for communicating with multiple ad hoc communication networks, the node comprising: a first antenna configured to communicate in a first frequency band associated with a first ad hoc communication network, the first frequency band being one of a Satcom band, a UHF band, or a

1. A military radio node for communicating with multiple ad hoc communication networks, the node comprising: a first antenna configured to communicate in a first frequency band associated with a first ad hoc communication network, the first frequency band being one of a Satcom band, a UHF band, or an HF band, the first frequency band being for reach back communications;a second antenna configured to communicate in a second frequency band associated with a second ad hoc communication network, the second frequency band being one of a Satcom band, or a VHF band, the second frequency band being for local situational awareness;a transceiver coupled to the first antenna and the second antenna and configured to transmit and receive messages in the first frequency band for reach back communications and messages in the second frequency band for situational awareness; anda control circuit coupled to the transceiver and configured to implement an access protocol having a time slot section, the access protocol configured to switch communications in the time slot section between the first frequency band and the second frequency band. 2. A node according to claim 1, wherein the access protocol is a multi-channel time division multiple access protocol. 3. A node according to claim 2, wherein the multi-channel time division multiple access protocol is an orthogonal division multiple access protocol. 4. A node according to claim 1, wherein the time slot section comprises a plurality of time slots configured to transmit and receive information. 5. A node for communicating with multiple ad hoc communication networks, the node comprising: a first antenna configured to communicate in a first frequency band associated with a first ad hoc communication network, the first frequency band being one of a Satcom band, a UHF band, a VHF Band, or an HF band;a second antenna configured to communicate in a second frequency band associated with a second ad hoc communication network, the second frequency band being one of a Satcom band, a UHF band, a VHF band, or an HF band, wherein the first frequency band is different than the second frequency band;a transceiver coupled to the first antenna and the second antenna and configured to transmit and receive messages, anda control circuit coupled to the transceiver and configured to implement an access protocol having a time slot section, the access protocol configured to switch communications in the time slot section between the first frequency band and second frequency band, wherein the time slot section comprises a plurality of time slots configured to transmit and receive information, wherein a first portion of the plurality of time slots is assigned to communicate in the first frequency band and a second portion of the plurality of time slots is assigned to communicate in the second frequency band. 6. A node according to claim 1, wherein the node comprises a single hardware channel. 7. A node according to claim 1, wherein the node is a software defined radio. 8. A node for communicating with multiple ad hoc communication networks, the node comprising: an antenna configured to communicate in a first frequency band associated with a first ad hoc communication network, the first frequency band being one of a Satcom band, a VHF band, a UHF band or an HF band and to communicate in a second frequency band associated with a second ad hoc communication network, the second frequency band being one of a Satcom band, a UHF band, a VHF band, or an HF band, wherein the first frequency band is different than the second frequency band;a transceiver coupled to the antenna and configured to transmit and receive messages; anda control circuit coupled to the transceiver and configured to implement an access protocol having a time slot section, the access protocol configured to switch communications in the time slot section between the first frequency band and the second frequency band, wherein the time slot section comprises a plurality of time slots for transmitting and receiving information, wherein a first portion of the plurality of time slots is assigned to communicate in the first frequency band and a second portion of the plurality of time slots is assigned to communicate in the second frequency band. 9. A node according to claim 8, wherein the antenna is a tunable antenna. 10. A node according to claim 8, wherein the access protocol is a multi-channel time division multiple access protocol. 11. A node according to claim 10, wherein the multi-channel time division multiple access protocol is an orthogonal division multiple access protocol. 12. A node according to claim 1, wherein the time slot section comprises a plurality of time slots configured to transmit and receive information. 13. A node according to claim 12, wherein a first portion of the plurality of time slots is assigned to communicate in the first frequency band and a second portion of the plurality of time slots is assigned to communicate in the second frequency band. 14. A node according to claim 8, wherein the node comprises a single hardware channel. 15. A node according to claim 8, wherein the node is a software defined radio. 16. A wireless communications network, comprising: at least one node configured to communicate in a first frequency band and a second frequency band, wherein the first frequency band and the second frequency band each being one of a UHF band, a VHF band, or an HF band, wherein the first frequency band is different than a second frequency band; anda multi-channel time division multiple access structure including a time slot section and configured to switch communications in the time slot section between the first frequency band and the second frequency band, wherein the time slot section includes a plurality of time slots and a first portion of the plurality of time slots is assigned to communicate in the first frequency band and a second portion of the plurality of time slots is assigned to communicate in the second frequency band. 17. A wireless communication network according to claim 16, wherein the at least one node comprises a single hardware channel. 18. A wireless communication network according to claim 16, wherein the multi-channel time division multiple access structure is an orthogonal division multiple access protocol. 19. A wireless communication network according to claim 16, wherein the first-frequency band is a VHF band and the second frequency band is an HF band. 20. A wireless communication network according to claim 16, wherein the at least one node is a software defined radio.