Switching scheme for opting in and out of multi-user orthogonal frequency-division multiple access

What is claimed is: 1. A method performed by an electronic device, the method comprising: when connected to a wireless network using a multi-user orthogonal frequency multiple access (MU-OFDMA) mode, indicating to an access point of the wireless network that the electronic device has uplink data to transmit; receiving one or more triggers from the access point for transmitting the uplink data, the one or more triggers including a mandated modulation and coding scheme (MCS); measuring a signal strength of a transmit channel; estimating an MCS based on the measured signal strength; and comparing a first data rate associated with the estimated MCS to a second data rate associated with the mandated MCS to determine whether to opt out of the MU-OFDMA mode. 2. The method of claim 1 , further comprising: opting out of the MU-OFDMA mode based on the first data rate associated with the estimated MCS being greater than the second data rate associated with the mandated MCS; and entering a single-user mode to contend for the transmit channel for transmitting the uplink data without access restrictions mandated by the access point in the mandated MCS. 3. The method of claim 2 , wherein the opting out is based on the first data rate associated with the estimated MCS being greater than the second data rate associated with the mandated MCS by a threshold amount. 4. The method of claim 2 , wherein the opting out includes transmitting an operation mode indication (OMI) to the access point to indicate that the electronic device selects to not participate in the MU-OFDMA mode with the access point. 5. The method of claim 1 , further comprising: determining that the first data rate associated with the estimated MCS is greater than the second data rate associated with the mandated MCS; determining that a difference between the first data rate associated with the estimated MCS and the second data rate associated with the mandated MCS is less than a threshold amount; and responsive to the difference being less than the threshold amount, transmitting the uplink data according to the MU-OFDMA mode and the mandated MCS. 6. The method of claim 1 , further comprising: performing a clear channel assessment (CCA) of the transmit channel. 7. The method of claim 6 , wherein performing the CCA of the transmit channel comprises at least one of: utilizing a signal-detect threshold to identify a preamble transmission from another transmitting radio for synchronization between devices during the CCA; or utilizing an energy-detect threshold to detect radio frequency transmissions during the CCA. 8. An electronic device comprising: a memory and processor system configured to execute instructions stored in the memory to implement an access-mode manager application configured to: when connected to a wireless network using a multi-user orthogonal frequency multiple access (MU-OFDMA) mode, indicate to an access point of the wireless network that the electronic device has uplink data to transmit; receive one or more triggers from the access point for transmitting the uplink data, the one or more triggers including a mandated modulation and coding scheme (MCS); measure a signal strength of a transmit channel; estimate an MCS based on the measured signal strength; and compare a first data rate associated with the estimated MCS to a second data rate associated with the mandated MCS to determine whether to opt out of the MU-OFDMA mode. 9. The electronic device of claim 8 , wherein the access-mode manager application is further configured to: opt out of the MU-OFDMA mode based on the first data rate associated with the estimated MCS being greater than the second data rate associated with the mandated MCS; and enter a single-user mode to contend for the transmit channel for transmitting the uplink data without access restrictions mandated by the access point in the mandated MCS. 10. The electronic device of claim 9 , wherein the access-mode manager application is configured to opt out based on the first data rate associated with the estimated MCS being greater than the second data rate associated with the mandated MCS by a threshold amount. 11. The electronic device of claim 9 , wherein the access-mode manager application is configured to opt out by transmitting an operation mode indication (OMI) to the access point to indicate that the electronic device selects to not participate in the MU-OFDMA mode with the access point. 12. The electronic device of claim 8 , wherein the access-mode manager application is further configured to: determine that the first data rate associated with the estimated MCS is greater than the second data rate associated with the mandated MCS; determine that a difference between the first data rate associated with the estimated MCS and the second data rate associated with the mandated MCS is less than a threshold amount; and responsive to the difference being less than the threshold amount, transmit the uplink data according to the MU-OFDMA mode and the mandated MCS. 13. The electronic device of claim 8 , wherein the access-mode manager application is further configured to: perform a clear channel assessment (CCA) of the transmit channel. 14. The electronic device of claim 13 , wherein the access-mode manager application is configured to perform the CCA of the transmit channel by at least one of: utilizing a signal-detect threshold to identify a preamble transmission from another transmitting radio for synchronization between devices during the CCA; or utilizing an energy-detect threshold to detect radio frequency transmissions during the CCA. 15. A non-transitory computer readable medium embodying a set of executable instructions, the set of executable instructions to manipulate at least one processor of an electronic device to: when connected to a wireless network using a multi-user orthogonal frequency multiple access (MU-OFDMA) mode, indicate to an access point of the wireless network that the electronic device has uplink data to transmit; receive one or more triggers from the access point for transmitting the uplink data, the one or more triggers including a mandated modulation and coding scheme (MCS); measure a signal strength of a transmit channel; estimate an MCS based on the measured signal strength; and compare a first data rate associated with the estimated MCS to a second data rate associated with the mandated MCS to determine whether to opt out of the MU-OFDMA mode. 16. The non-transitory computer readable medium of claim 15 , wherein the set of executable instructions further manipulate the at least one processor to: opt out of the MU-OFDMA mode based on the first data rate associated with the estimated MCS being greater than the second data rate associated with the mandated MCS; and enter a single-user mode to contend for the transmit channel for transmitting the uplink data without access restrictions mandated by the access point in the mandated MCS. 17. The non-transitory computer readable medium of claim 16 , wherein the at least one processor is configured to opt out based on the first data rate associated with the estimated MCS being greater than the second data rate associated with the mandated MCS by a threshold amount. 18. The non-transitory computer readable medium of claim 16 , wherein the at least one processor is configured to opt out by transmitting an operation mode indication (OMI) to the access point to indicate that the electronic device selects to not participate in the MU-OFDMA mode with the access