System and method for managing wireless frequency usage

What is claimed is: 1. A method for managing wireless frequency usage, comprising: implementing a mixed preemptive and non-preemptive resume priority queuing network model to manage spectrum usage of a primary user and a plurality of secondary users; determining when the primary user is inactive on one or more first frequencies; assigning a secondary user to the one or more first frequencies while the primary user is inactive; receiving a request from one or more additional secondary users while the secondary user is assigned to the one or more first frequencies, at least one of the additional secondary users having a higher priority than the secondary user assigned to the one or more first frequencies; denying the at least one of the additional secondary users having the higher priority access to the one or more first frequencies while the secondary user remains active on the one or more first frequencies; detecting return of the primary user to the one or more first frequencies; interrupting the secondary user; identifying one or more second frequencies that are inactive; selecting a frequency from the one or more second frequencies using a cumulative learning algorithm, wherein the cumulative learning algorithm is configured to maximize a quality of experience and minimize transmission delay for the secondary user, and wherein the quality of experience is measured by at least a metric representing transmission channel quality; and transitioning the secondary user to the selected frequency, wherein the step of identifying one or more second frequencies that are inactive is performed proactively before the secondary user is interrupted, and wherein the step of selecting a frequency from the one or more second frequencies using a cumulative learning algorithm is performed after the secondary user is interrupted. 2. The method of claim 1 , wherein the primary user and the secondary user transmit multimedia messages. 3. The method of claim 1 , wherein the first and second frequencies are within a cognitive radio network. 4. The method of claim 1 , further including assigning priorities to the plurality of secondary users. 5. The method of claim 1 , further including assigning a secondary user with a highest priority to the one or more first frequencies while the primary user is inactive when the plurality of secondary users request access to the one or more first frequencies. 6. The method of claim 1 , wherein the cumulative learning algorithm is used to select the frequency from the one or more second frequencies based at least in part on quality of experience requirements of the plurality of secondary users and queueing delay calculations. 7. A system for managing wireless frequency usage, comprising: a primary user computing unit; and a secondary user computing unit that: implements a mixed preemptive and non-preemptive resume priority queuing network model to manage spectrum usage of the primary user computing unit and a plurality of secondary user computing units; determines when the primary user computing unit is inactive on one or more first frequencies; uses the one or more first frequencies while the primary user computing unit is inactive; receives a request from one or more additional secondary user computing units while the secondary user computing unit uses the one or more first frequencies, at least one of the additional secondary user computing units having a higher priority than the secondary user computing unit using the one or more first frequencies; denies the at least one of the additional secondary user computing units having the higher priority access to the one or more first frequencies while the secondary user computing unit remains active on the one or more first frequencies; detects return of the primary user computing unit to the one or more first frequencies; interrupts its data transmissions; identifies one or more second frequencies that are inactive; selects a frequency from the one or more second frequencies using a cumulative learning algorithm, wherein the cumulative learning algorithm is configured to maximize a quality of experience and minimize transmission delay for the secondary user computing unit, and wherein the quality of experience is measured by at least a metric representing transmission channel quality; and transitions to the selected frequency, wherein the step of identifying one or more second frequencies that are inactive is performed proactively before the secondary user computing unit is interrupted, and wherein the step of selecting a frequency from the one or more second frequencies using a cumulative learning algorithm is performed after the secondary user computing unit is interrupted. 8. The system of claim 7 , wherein the primary user computing unit and the secondary user computing unit transmit multimedia messages. 9. The system of claim 7 , wherein the first and second frequencies are within a cognitive radio network. 10. The system of claim 7 , further including assigning priorities to the plurality of secondary user computing units. 11. The system of claim 7 , further including assigning a secondary user computing unit with a highest priority to the one or more first frequencies while the primary user computing unit is inactive. 12. The system of claim 7 , wherein the cumulative learning algorithm is used to select the frequency from the one or more second frequencies based at least in part on quality of experience requirements of the plurality of secondary user computing units and queueing delay calculations. 13. A non-transitory computer-readable medium comprising instruction which, when executed by a processor and a memory, perform a method for managing wireless frequency usage, comprising: implementing a mixed preemptive and non-preemptive resume priority queuing network model to manage spectrum usage of a primary user and a plurality of secondary users; determining when the primary user is inactive on one or more first frequencies; assigning a secondary user to the one or more first frequencies while the primary user is inactive; receiving a request from one or more additional secondary users while the secondary user is assigned to the one or more first frequencies, at least one of the additional secondary users having a higher priority than the secondary user assigned to the one or more first frequencies; denying the at least one of the additional secondary users having the higher priority access to the one or more first frequencies while the secondary user remains active on the one or more first frequencies; detecting return of the primary user to the one or more first frequencies; interrupting the secondary user; identifying one or more second frequencies that are inactive; selecting a frequency from the one or more second frequencies using a cumulative learning algorithm, wherein the cumulative learning algorithm is configured to maximize a quality of experience and minimize transmission delay for the secondary user, and wherein the quality of experience is measured by at least a metric representing transmission channel quality; and transitioning the secondary user to the selected frequency, wherein the step of identifying one or more second frequencies that are inactive is performed proactively before the secondary user is interrupted, and wherein the step of selecting a frequency from the one or more second frequencies using a cumulative learning algorithm is performed after the secondary user is interrupted. 14. The non-transitory computer-readable medium of claim 13 , wherein the primary user and the secondary user transmit multim