Method and apparatus for performing wireless communication based on heterogeneous interference alignment (IA) scheme in wireless local area network (WLAN)

What is claimed is: 1. A method for downlink multi-user multiple-input multiple-output (MU-MIMO) communication in a wireless local area network (WLAN) performed by a communication apparatus, the method comprising: measuring characteristics of an environment of a wireless network formed based on the communication apparatus, the characteristics including a Signal to Noise Ratio (SNR) value; determining a predicted opportunistic interference alignment (OIA) throughput of an OIA scheme using a frame period and a sum-rate based on the measured characteristics; determining a predicted iterative IA throughput of an iterative IA scheme using a frame period and a sum-rate based on the measured characteristics; comparing the predicted OIA throughput to the predicted iterative IA throughput; when the predicted OIA throughput is greater than the predicted iterative IA throughput, selecting the OIA throughput as an IA scheme; when the predicted iterative IA throughput is greater than the predicted OIA throughput, selecting the IA throughput as an IA scheme; when the predicted OIA throughput is equal to the predicted iterative IA throughput, selecting the OIA throughput or the iterative IA throughput as an IA scheme, and performing wireless communication with a user terminal in the WLAN using the selected IA scheme with the greater predicted throughput. 2. The method of claim 1 , wherein the predicted throughputs of the OIA and the iterative IA are determined in consideration of a frame overhead based on the selected IA scheme and the environment of the wireless network. 3. The method of claim 1 , wherein determining the predicted throughput of the iterative IA further comprises using an iteration time and a number of iterations of the iterative IA. 4. The method of claim 1 , wherein the measured characteristics further comprise at least one of a number of user terminals in a Basic Service Set (BSS) with the access point and a number of transmission streams in the BSS, a number of transmission antennas for an access point, and a number of reception antennas at a user terminal in a BSS with the access point. 5. A wireless access point comprising: a plurality of multi-user multiple-input multiple-output (MU-MIMO) antennas that simultaneously receive radio frequency (RF) signals from an access point according to an interference alignment (IA) scheme and measure radio signals to determine an SNR value; and a processing device to: determine a predicted opportunistic interference alignment (OIA) throughput of an OIA scheme using a frame period, and a sum-rate based on the measured characteristics; determine a predicted iterative IA throughput of an iterative IA scheme using a frame period, a number of iterations of the iterative IA scheme, and a sum-rate based on the measured characteristics; compare the predicted OIA throughput to the predicted iterative IA throughput; when the predicted OIA throughput is greater than the predicted iterative IA throughput, select the OIA throughput as an IA scheme; when the predicted iterative IA throughput is greater than the predicted OIA throughput, select the iterative IA throughput as an IA scheme; and when the predicted OIA throughput is equal to the predicted iterative IA throughput, selecting the OIA throughput or the iterative IA throughput as an IA scheme, wherein the wireless access point performs wireless communication with a user terminal using the selected IA scheme. 6. The access point of claim 5 , wherein the processing device determines the predicted OIA throughput and IA throughput in consideration of a frame overhead based on the IA scheme and an environment of the wireless network formed based on the communication apparatus. 7. The access point of claim 5 , wherein determining the predicted throughput of the iterative IA uses an iteration time and a number of iterations of the iterative IA. 8. The access point of claim 5 , wherein the processing device determines the predicted OIA throughput and the iterative IA throughput using at least one of a number of user terminals in a Basic Service Set (BSS) with the access point, a number of transmission streams in the BSS, a number of transmission antennas for the access point, and a number of reception antennas at a user terminal in a BSS with the access point. 9. The access point of claim 8 , further comprising: a storage that stores maximum throughputs of an OIA and an iterative IA in a memory in a form of a lookup table.