The ongoing Wireless Local Area Network (WLAN) IEEE 802.11ac standard proposed an effective solution to meet people’s internet needs. This standard enhances Wi-Fi system toward very high throughput (VHT) operation in bands below 6 GHz. With the supports of higher data rate in PHY layer and a newly adopted downlink multi-user multiple-input and multiple-output (DL MU-MIMO) scheme optional in the standard, a VHT AP could improve WLAN system performance. In this thesis, we borrow the concepts of coordinated multi-point transmission (CoMP) from 3GPP LTE-Advanced standard to propose two classes of CoMP transmission schemes, named Joint Processing (JP) and Coordinated Scheduling/Coordinated Beamforming (CS/CB) to mitigate the overlapping BSS (OBSS) scenario in a VHT WLAN environment where VHT APs operate on the same channel. More than that the concepts of clustering containing three APs can be regarded as a virtual AP. These proposed schemes are being compatible with legacy IEEE 802.11 MAC protocol. In addition, we proposed the resource allocation algorithm to enhance the performance of CoMP transmission. Through the result of network simulator-3, CS/CB transmission in VHT WLAN environment increase nearly twice the throughput. The performance of JP is more than twice of CS/CB. Furthermore, CoMP user scheduling algorithm can further increase throughput about 11% to 13%. Therefore, CoMP transmission and resource allocation algorithm bring considerable advantages in the overlapping BSS (OBSS) scenario in the VHT WLAN environment.