It is known that in cellular systems, the cell edge users are vulnerable to interference from neighboring cells. Beamforming has been proposed as an effective method to deal with the problem. Conventional beamforming employs a scanning scheme requiring long delay time and high overhead. These problems will be deteriorated when a massive antenna array is deployed in the basestation. This thesis proposes a location-based beamforming scheme to overcome the difficulties. The idea is that if a basestation (BS) knows a user’s location, it knows which direction to beamform. To implement, we first partition the coverage area of a BS into regions. Then, let the user estimate its location and report its region index to the BS. Finally, the BS conducts beamforming based on the reported information. LTE/A has defined reference signals allowing the application of a localization scheme referred to as observed- time-difference-of-arrival (OTDOA). Using OTDOA, we propose a two-stage localization method achieving satisfactory estimation accuracy. Numerical results show that the proposed method could double the throughput of the system without beamforming. To further enhance the performance, we also combine a received-signal-strength (RSS) method in the OTDOA.