Detection path design for communication systems

What is claimed is: 1. A method comprising: transmitting a wireless signal by a wireless transmitter; obtaining detection signals on-the-fly through a coupler, wherein the detection signals comprising a forward signal and a reverse signal; obtaining a reference signal on-the-fly, wherein the reference signal corresponds to a modulation signal; and obtaining a reflection coefficient based on at least the detection signals and the reference signal, wherein the reflection coefficient includes a magnitude coefficient and a phase coefficient. 2. The method of claim 1 , further comprising: matching the reference signal and each detection signal such that an interference caused by transmitting signal is reduced. 3. The method of claim 2 , wherein the reflection coefficient is based on a cross-correlation of the reverse signal and the reference signal, a reference signal power for forward coupling gain, a cross-correlation of the forward signal and the reference signal, and a reference signal power for reverse coupling gain. 4. The method of claim 1 , wherein obtaining the reflection coefficient involves: obtaining a magnitude coefficient; and obtaining a phase coefficient. 5. The method of claim 4 , wherein the phase coefficient is based on a cross-correlation of the forward signal and the reference signal, and a cross-correlation of the reverse signal and the reference signal. 6. The method of claim 1 , wherein obtaining the reflection coefficient involves: obtaining a power magnitude for the forward signal; obtaining a cross-correlation of the reverse signal and the forward signal; and obtaining the reflection coefficient based on the power magnitude for the forward signal and the cross-correlation of the reverse signal and the forward signal. 7. The method of claim 1 , wherein obtaining the reflection coefficient involves: obtaining a forward path gain and a reverse path gain with a number of sampling greater than a sampling threshold; and obtaining the reflection coefficient based on the forward path gain and the reverse path gain. 8. The method of claim 1 , further comprising: detecting one or more out-of-range conditions, wherein the out-of-range condition is detected if an amplitude of a detection signal is smaller than a low-threshold or greater than a high-threshold; and blocking signal measurements if an out-of-range condition is detected. 9. A method comprising: transmitting a wireless signal by a wireless transmitter; obtaining detection signals through a coupler, wherein the detection signals comprising a forward signal and a reverse signal; and obtaining a reflection coefficient based on at least the detection signals, wherein the reflection coefficient includes a magnitude coefficient and a phase coefficient, wherein obtaining the reflection coefficient involves: obtaining a power magnitude for the forward signal or the reverse signal; obtaining a cross-correlation of the reverse signal and the forward signal; and obtaining the reflection coefficient based on the power magnitude and the cross-correlation. 10. A method comprising: transmitting a wireless signal by a wireless transmitter; obtaining detection signals through a coupler, wherein the detection signals comprising a forward signal and a reverse signal; and obtaining a reflection coefficient based on at least the detection signals, wherein the reflection coefficient includes a magnitude coefficient and a phase coefficient, wherein obtaining the reflection coefficient involves: obtaining a forward path gain and a reverse path gain with a number of sampling greater than a sampling threshold; and obtaining the reflection coefficient based on the forward path gain and the reverse path gain. 11. An apparatus, comprising: a wireless radio frequency (RF) transceiver that transmits a wireless signal specified in a wireless standard; a detector that measures a forward signal and a reverse signal; a reflection coefficient estimator that obtains a reflection coefficient based on at least the forward and reverse signals, wherein the reflection coefficient includes a magnitude coefficient and a phase coefficient; and a matching circuit that matches a reference signal and each forward and reverse signal such that an interference caused by the transmitted wireless signal is reduced, wherein the reference signal is a modulation signal of transmitted signal. 12. An apparatus, comprising: a wireless radio frequency (RF) transceiver that transmits a wireless signal specified in a wireless standard; a detector that measures a forward signal and a reverse signal; and a reflection coefficient estimator that obtains a reflection coefficient based on at least the forward and reverse signals, wherein the reflection coefficient includes a magnitude coefficient and a phase coefficient, wherein the reflection coefficient estimator comprises a power detector and a cross-correlator.