Communication using dynamic spectrum access based on channel selection

What is claimed is: 1. A network system comprising: a dynamic spectrum access database; and a gateway comprising a base station, the gateway configured to access the dynamic spectrum access database, wherein a client device is configured to communicate with the base station, wherein the gateway: determines a list of available dynamic spectrum access channels from the accessed dynamic spectrum access database based on geo-location information of the client device, assigns a predefined channel hopping schedule across available channels from the list of the available dynamic spectrum access channels based on a predicted future location of the client device, defines a time slot structure to allocate talk time for the client device, the time slot structure comprising a plurality of time slots and a buffer slot, wherein the buffer slot is used to configure new client devices, determines to switch from an active channel to one of backup available channels of the available channels by determining the active channel is unavailable or noisy based on a number of missing downlink packets from the active channel, and wherein the client device is configured to communicate using one of the backup available channels of the available channels. 2. The network system of claim 1 wherein the number of missing downlink packets is determined based on a mismatch between a shared counter and a local counter, the shared counter and the local counter used for downlink packets. 3. The network system of claim 2 wherein the client device is configured to communicate using the backup available channel during an assigned time slot of the plurality of time slots. 4. The network system of claim 2 wherein the gateway further defines a gap period between two consecutive time slots of the plurality of time slots. 5. The network system of claim 4 wherein the gateway further: changes the defined gap period, and based on the changed gap period, notifies the client device of the changed gap period. 6. The network system of claim 2 wherein: the gateway further defines a start time associated with a time slot of the plurality of time slots, and the client device is configured to initiate a first transmission attempt during the time slot associated with the start time. 7. The network system of claim 1 wherein the assigned predefined channel hopping schedule comprises the active channel for an uplink transmission and a second active channel for downlink transmission. 8. The network system of claim 1 wherein: the assigned predefined channel hopping schedule comprises a first active channel and a second active channel, and the client device is configured to sequentially hop from the first active channel to the second active channel according to the assigned predefined channel hopping schedule while transmitting data. 9. A computerized method, comprising: accessing a dynamic spectrum access database; determining a list of available dynamic spectrum access channels from the accessed dynamic spectrum access database based on geo-location information of a client device, defining a time slot structure to allocate talk time for the client device, the time slot structure comprising a plurality of time slots and a buffer slot, wherein each time slot of the plurality of time slots includes a time slot length, and wherein the buffer slot is used to configure new client devices; assigning, based on the defined time slot structure, a predefined channel hopping schedule across available channels from the list of the available dynamic spectrum access channels based on a predicted future location of the client device; and determining to switch from an active channel to one of backup available channels of the available channels by determining the active channel is unavailable or noisy based on a number of missing downlink packets from the active channel, wherein the client device is configured to communicate using one of the backup available channels of the available channels during an assigned time slot of the plurality of time slots. 10. The computerized method of claim 9 further comprising: defining a gap period between two consecutive time slots of the plurality of time slots. 11. The computerized method of claim 10 further comprising: changing the defined gap period, and based on the changed gap period, notifying the client device of the changed gap period. 12. The computerized method of claim 9 further comprising: defining a start time associated with a time slot of the plurality of time slots, wherein the client device is configured to initiate a first transmission attempt during the time slot associated with the start time. 13. The computerized method of claim 9 wherein the assigned predefined channel hopping schedule comprises the active channel for an uplink transmission and a second active channel for downlink transmission. 14. The computerized method of claim 9 wherein: the assigned predefined channel hopping schedule comprises a first active channel and a second active channel, and the client device is configured to sequentially hop from the first active channel to the second active channel according to the assigned predefined channel hopping schedule while transmitting data. 15. A non-transitory computer-storage medium storing instructions that, when executed by a processor, cause the processor to: access a dynamic spectrum access database; determine a list of available dynamic spectrum access channels from the accessed dynamic spectrum access database based on geo-location information of a client device, define a time slot structure to allocate talk time for the client device, the time slot structure comprising a plurality of time slots and a buffer slot, wherein each time slot of the plurality of time slots includes a time slot length, and wherein the buffer slot is used to configure new client devices; assign, based on the defined time slot structure, a predefined channel hopping schedule across available channels from the list of the available dynamic spectrum access channels based on a predicted future location of the client device; and determine to switch from an active channel to one of backup available channels of the available channels by determining the active channel is unavailable or noisy based on a number of missing downlink packets from the active channel, wherein the client device is configured to communicate using one of the backup available channels of the available channels during an assigned time slot of the plurality of time slots. 16. The non-transitory computer-storage medium of claim 15 wherein the instructions further cause the processor to: define a gap period between two consecutive time slots of the plurality of time slots. 17. The non-transitory computer-storage medium of claim 16 wherein the instructions further cause the processor to: change the defined gap period, and based on the changed gap period, notify the client device of the changed gap period. 18. The non-transitory computer-storage medium of claim 15 wherein the instructions further cause the processor to: define a start time associated with a time slot of the plurality of time slots, wherein the client device is configured to initiate a first transmission attempt during the time slot associated with the start time. 19. The non-transitory computer-storage medium of claim 15 wherein the assigned predefined channel hopping schedule comprises the active channel for an uplink transmission and a second active channel for downlink tran