Scheduling prioritized traffic in a scrambled coded multiple access (SCMA) system

What is claimed is: 1. A method comprising: receiving packets, from one or more user devices, at a terminal; placing the packets on a first input queue and/or a second input queue; determining a priority and/or service class for each packet; en-queueing the packets onto a plurality of output queues including at least a first output queue and a second output queue based, at least in part, on the determined priority and/or service class; detecting one or more eligible scrambled and coded multiple access (SCMA) slots within a frame of a communication system; identifying available SCMA slots, from the eligible SCMA slots, that are useable for transmitting data; and de-queueing packets from the first output queue onto the frame via one or more SCMA bursts encompassing at least one available SCMA slot, wherein the one or more SCMA bursts are autonomously transmitted relative to other SCMA bursts transmitted by other terminals in the communication system. 2. The method of claim 1 , further comprising: receiving congestion feedback regarding traffic conditions on the communication system, wherein en-queueing the packets is performed based, at least in part, on the congestion feedback. 3. The method of claim 2 , wherein the congestion feedback is based, at least in part, on a target average received signal to noise ratio (Es/No) and overlapped SCMA bursts from the terminal and the other terminals. 4. The method of claim 1 , further comprising de-queueing packets from the second output queue, and any additional queues from the plurality of output queues, onto the frame after packets from the first output queue have been de-queued. 5. The method of claim 1 , wherein identifying available SCMA slots comprises receiving SCMA transmission opportunities from a gateway of the communication system. 6. The method of claim 1 , wherein the plurality of output queues further comprises at least a streaming queue, a bulk queue, and/or a conversational queue. 7. The method of claim 1 , wherein de-queueing comprises: scheduling transmission of packets from the first output queue via scheduled SCMA slots selected from at least one of the available SCMA slots; and de-queueing packets from the first output queue onto the frame via one or more SCMA burst encompassing the scheduled SCMA slots. 8. The method of claim 1 , wherein the eligible SCMA slots are determined based, at least in part, on values stored in a vector representative of the frame. 9. The method of claim 1 , wherein: the first input queue and/or second input queue each comprise a plurality of sub-queues including at least a high priority sub-queue; and packets from the high priority sub-queues are en-queued onto the first output queue, or en-queued onto the second output queue if the first output queue is full. 10. An apparatus comprising: a communication unit configured, in part, to receive packets from one or more user devices, and place the packets on a first input queue and/or a second input queue; an en-queueing unit configured to: determining a priority and/or service class for each packet, and en-queue the packets onto a plurality of output queues based, at least in part, on the determined priority and/or service class, wherein the plurality of output queues include at least a first output queue and a second output queue; a scheduling unit configured to detect one or more eligible SCMA slots within a frame of a communication system, and identify available SCMA slots, from the eligible SCMA slots, that are useable for transmitting data; a de-queueing unit configured to de-queue packets from the first output queue onto the frame via one or more SCMA bursts encompassing at least one available SCMA slot; and a transceiver for transmitting and receiving frames of the communication system, wherein the SCMA bursts are autonomously transmitted relative to other SCMA bursts transmitted by other terminals in the communication system. 11. The apparatus of claim 10 , wherein the en-queueing unit is further configured to en-queue each packet based, at least in part, on congestion feedback regarding traffic conditions on the communication system. 12. The apparatus of claim 11 , wherein the congestion feedback is based, at least in part, on a target average received signal to noise ratio (Es/No) and overlapped SCMA bursts from the terminal and the other terminals. 13. The apparatus of claim 10 , wherein the de-queueing unit is further configured to de-queue packets from the second output queue, and any additional queues from the plurality of output queues, onto the frame after packets from the first output queue have been de-queued. 14. The apparatus of claim 10 , wherein the scheduling unit is further configured to: receive SCMA transmission opportunities from a gateway of the communication system; and identify available SCMA slots from the received SCMA transmission opportunities. 15. The apparatus of claim 10 , wherein the plurality of output queues further comprises at least a streaming queue, a bulk queue, and/or a conversational queue. 16. The apparatus of claim 10 , wherein: the scheduling unit is further configured to schedule transmission of packets from the first output queue via scheduled SCMA slots selected from at least one of the available SCMA slots; and the de-queueing unit is further configured to de-queue packets from the first output queue onto the frame via one or more SCMA bursts encompassing the scheduled SCMA slots. 17. The apparatus of claim 10 , wherein the scheduling unit is further configured to determine the eligible SCMA slots based, at least in part, on values stored in a vector representative of the frame. 18. The apparatus of claim 10 , wherein the first input queue and/or second input queue each comprise a plurality of sub-queues including at least a high priority sub-queue; and the en-queueing unit is configured to en-queue packets from the high priority sub-queues onto the first output queue, or onto the second output queue if the first output queue is full. 19. A system comprising: one or more terminals, each terminal comprising: a communication unit configured, in part, to receive packets from one or more user devices, and place the packets on a first input queue and/or a second input queue, an en-queueing unit configured to: determining a priority and/or service class for each packet, and en-queue the packets onto a plurality of output queues based, at least in part, on the determined priority and/or service class, wherein the plurality of output queues include at least a first output queue and a second output queue, a scheduling unit configured to detect one or more eligible SCMA slots within a frame of a communication system, and identify available SCMA slots, from the eligible SCMA slots, that are useable for transmitting data, a de-queueing unit configured to de-queue packets from the first output queue onto the frame via one or more SCMA bursts encompassing at least one available SCMA slot, and a transceiver for transmitting and receiving frames of the communication system; and a gateway configured to transmit/receive frames to/from the one or more terminals, and to broadcast congestion feedback regarding traffic conditions on the communication system to the one or more terminals, wherein each terminal autonomously transmits its SCMA bursts. 20. The system of claim 19 , wherein: the gateway is configured to assign SCMA transmission opportunities to the one or more terminals; and th