Video streaming are now becoming a major service in wireless network. However, video streaming is a very consuming service that occupies lots of network bandwidth. In Long Term Evolution (LTE) multi-cellular network topology, the resource reuse factor is usually set to 1, which lets adjacent base stations use same frequency band to increase resources efficiency. However, User Equipments (UE) at cell edge may suffer from high interference from neighbor cells. The shortage of network bandwidth caused by the interference from the neighbor cells becomes an issue called Inter-Cell Interference (ICI). Inter-Cell Interference Coordination (ICIC) was introduced to solve ICI problem by 3GPP [3]. To maintain service quality, the management of radio resources and interference mitigation are crucial for multi-cellular networks. To improve video streaming services, increasing network bandwidth is not enough to enhance video streaming service. Application layer characteristics will be also considered. Dynamic Adaptive Streaming over HTTP (DASH) is a popular video streaming technique in recent years. The main concept is that DASH service clients monitor the network conditions and select the video segments with proper quality. However, the network conditions considered in client-based DASH algorithm are usually application level parameters, such as buffer filled level, rebuffering time, historical throughput, etc. There is no physical layer information in DASH application. If the selection of the video quality can be aided by the physical channel information from server, it will more adapt to current network situation. In this thesis, we jointly consider this two aspects and propose a integral interference management and rate selection strategy procedure to improve DASH service in ICI environment. The performance of our design was verified by real LTE testbed system. The quantification of performance analysis is by a DASH utility score function [25]. The results showed we largely improve the DASH utility in each scenario.