Femtocell has been recognized as an effective solution to improving indoor wireless communication capacity. However, since the femtocell networks overlay on the macrocell networks, users suffer from the complicated cross-tier interference. Therefore, resource allocation is necessary for alleviating the interference. Adaptive modulation which is used in practical systems (e.g. HSDPA or LTE) can be adopted to select appropriate modulation according to different channel environments. In this thesis, we propose an adaptive power allocation scheme to enhance the throughput of femtocells in CDMA and OFDMA systems. In CDMA systems, in addition to the adaptive power allocation scheme, we further propose a sniffer function and adaptive power allocation scheme in order to improve the throughput of macrocells. As for OFDMA systems, the proposed resource allocation consists of two stages: 1. allocating spectrum by the measurement report or the sniffer function. 2. allocating power by adaptive modulation. Simulation results show that the proposed approaches effectively improve the total uplink throughput in macrocell networks.