The mobile traffic has grown rapidly with the popularity of smart mobile devices. To accommodate increasing traffic, heterogeneous network integration is considered as a viable solution. Through the overlapping coverage of heterogeneous networks (e.g., LTE and Wi-Fi), the mobile operators can use the offloading service (e.g., Wi-Fi offloading) to reduce network congestion. Thus a proper network coordination mechanism is required for load balancing of the Wi-Fi network. In this thesis, we use Access Network Discovery and Selection Function (ANDSF) to suggest proper base stations (e.g., LTE evolved Node Bs; eNBs and Wi-Fi access points; APs) to user equipment (UE) for load balancing. We integrate the ANDSF with software-define networking (SDN) to make the ANDSF-aided integrated network more programmable, flexible and dynamically manageable. Moreover, we propose a Power-Saving ANDSF (PSA) algorithm to appropriately assign network resource to UEs and save the power of Wi-Fi APs. The simulation model and performance evaluation results show that the successful probability of UEs’ resource requests to PSA is almost the same as the proposed schemes of the previous studies when the network traffic is unbalanced. Our study indicates that PSA saves 15.62% more Wi-Fi AP’s power than the previous research in the unbalanced traffic network.