Because of the scarcity of spectrum and energy resource, the problems about allocation of these resources become more and more important in recent years. However, inappropriate resource allocation may bring about high inter-cell interference which has a great effect on the performance of the entire system. Thus, in this thesis, we provide the optimal formulation of the resource allocation problem and proposed several schemes to solve this problem. In joint component carrier selection and power allocation (JCP) scheme, the channel and power resource are jointly solved based on geometric programming and the consideration of undeterministic interference term. Pondering on the high complexity and computational cost in JCP scheme, another simplified scheme, called JCP-S scheme, is proposed where the interference term is assume to be fixed with expectation to lower the complexity. Besides, on account of that the complexity is still high to solve problem from joint view, heuristic scheme, called HCP scheme and HCP-S scheme, are then proposed and try to separate the joint problem into two parts. In other words, channel selection and power allocation problems are solved according to the corresponding algorithms successively. Simulation results demonstrate that the data rate performance of JCP scheme is better than that of the other simplified schemes. However, there exists a trade-off between JCP scheme and the other simplified schemes considering the performance and the complexity.