Systems and methods for lte and wlan coexistence

1 . A computer-implemented method for improving LTE and Wi-Fi coexistence in a network, comprising: determining a first measurement of channel quality in a first wireless band; detecting the presence of interference in a first wireless band; determining a duration of the interference in the first wireless band; determining an interference power level of the interference in the first wireless band; determining that the interference power level exceeds a threshold; reducing a backoff interval based upon the duration and the interference power level; increasing a transmission power level based upon the duration and the power level; determining a second measurement of channel quality in the first wireless band following the reducing the backoff interval and following the increasing the transmission power level; and effecting a channel transition from the first wireless band to a second wireless band based on the second measurement of channel quality. 2 . The computer-implemented method of claim 1 , wherein the first wireless band comprises frequencies substantially between 2400 MHz and 2500 MHz and wherein the second wireless band comprises frequencies substantially between 5.725 MHz and 5.875 MHz. 3 . The computer-implemented method of claim 2 , the method further comprising: determining that a first component on a wireless device communicates on a frequency between 2300 MHz and 2400 MHz simultaneously with a second component communicating in the first wireless band. 4 . The computer-implemented method of claim 3 , wherein the effecting a channel transition is further based on the determination that the first component on the wireless device communicates on a frequency between 2300 MHz and 2400 MHz simultaneously with the second component communicating in the first wireless band. 5 . The computer-implemented method of claim 1 , wherein reducing a backoff interval and reducing a transmission power based upon the duration and the interference power level comprises determining that a weighted sum of the duration and the interference power level exceeds a threshold. 6 . The computer-implemented method of claim 1 , wherein the backoff is an EDCA backoff. 7 . The computer-implemented method of claim 1 , wherein determining a first measurement of channel quality in a first wireless band comprises receiving a management frame from a client device, the management frame indicating a presence of LTE interference via performance degradation. 8 . The computer-implemented method of claim 1 , the method further comprising transmitting a transmit power report element indicating a power adjustment compensating for the LTE interference. 9 . A non-transitory computer-readable medium comprising instructions configured to cause at least one processor to perform a method comprising: determining a first measurement of channel quality in a first wireless band; detecting the presence of interference in a first wireless band; determining a duration of the interference in the first wireless band; determining an interference power level of the interference in the first wireless band; determining that the interference power level exceeds a threshold; reducing a backoff interval based upon the duration and the interference power level; increasing a transmission power level based upon the duration and the power level; determining a second measurement of channel quality in the first wireless band following the reducing the backoff interval and following the increasing the transmission power level; and effecting a channel transition from the first wireless band to a second wireless band based on the second measurement of channel quality. 10 . The non-transitory computer-readable medium of claim 9 , wherein the first wireless band comprises frequencies substantially between 2400 MHz and 2500 MHz and wherein the second wireless band comprises frequencies substantially between 5.725 MHz and 5.875 MHz. 11 . The non-transitory computer-readable medium of claim 10 , the method further comprising: determining that a first component on a wireless device communicates on a frequency between 2300 MHz and 2400 MHz simultaneously with a second component communicating in the first wireless band. 12 . The non-transitory computer-readable medium of claim 11 , wherein the effecting a channel transition is further based on the determination that the first component on the wireless device communicates on a frequency between 2300 MHz and 2400 MHz simultaneously with the second component communicating in the first wireless band. 13 . The non-transitory computer-readable medium of claim 9 , wherein reducing a backoff interval and reducing a transmission power based upon the duration and the interference power level comprises determining that a weighted sum of the duration and the interference power level exceeds a threshold. 14 . The non-transitory computer-readable medium of claim 9 , wherein the backoff is an EDCA backoff. 15 . A computer system comprising: at least one processor; at least one memory comprising instructions configured to cause the at least one processor to perform a method comprising: determining a first measurement of channel quality in a first wireless band; detecting the presence of interference in a first wireless band; determining a duration of the interference in the first wireless band; determining an interference power level of the interference in the first wireless band; determining that the interference power level exceeds a threshold; reducing a backoff interval based upon the duration and the interference power level; increasing a transmission power level based upon the duration and the power level; determining a second measurement of channel quality in the first wireless band following the reducing the backoff interval and following the increasing the transmission power level; and effecting a channel transition from the first wireless band to a second wireless band based on the second measurement of channel quality. 16 . The computer system of claim 15 , wherein the first wireless band comprises frequencies substantially between 2400 MHz and 2500 MHz and wherein the second wireless band comprises frequencies substantially between 5.725 MHz and 5.875 MHz. 17 . The computer system of claim 16 , the method further comprising: determining that a first component on a wireless device communicates on a frequency between 2300 MHz and 2400 MHz simultaneously with a second component communicating in the first wireless band. 18 . The computer system of claim 17 , wherein the effecting a channel transition is further based on the determination that the first component on the wireless device communicates on a frequency between 2300 MHz and 2400 MHz simultaneously with the second component communicating in the first wireless band. 19 . The computer system of claim 15 , wherein reducing a backoff interval and reducing a transmission power based upon the duration and the interference power level comprises determining that a weighted sum of the duration and the interference power level exceeds a threshold. 20 . The computer system of claim 15 , wherein the backoff is an EDCA backoff. 21 . The computer system of claim 15 , further comprising: effecting a transition of a client from a first component on a wireless device to a second component on the wireless device in response interference to establish communications via a component on the wireless device that has least ne