Full-duplex (FD) is being considered as a potential technology for the next generation of wireless networks due to its ability to boost the spectral efficiency (SE). In the thesis, we analyze the performance of a multi-user multi-cell wireless system. In the system, each base station (BS) supports full-duplex operation or half-duplex (HD) operation and user equipment (UE) only supports HD operation. However, using only FD BS increases the aggregate interference on each communication link, which limits the capacity improvement. Therefore, we propose an adaptive FD system, consists of FD cells and HD cells. Based on the position of BS and UE, we analyze the probability of FD. From the analysis result, we can obtain what operation is suitable for the cell of current environment. According to the probability, we determine the mode of the cell adaptively. The adaptive FD system can select the better mode to maximize the system sum rate. By deriving the distribution, we investigate the sum rate of the system, and compare with all HD system and all FD system. Then, the adaptive performance of the proposed system is derived.