There were many works on the research of relay assignment issue. Relay network, in the form of keeping each its own antennas and having a node exploit a relay node’s antennas, is shown to be a promising approach to enhance spatial diversity. Moreover, improving the spatial diversity of transmission could achieve the main purpose of increasing performance in data transmission. In this work, we pay our attention to the multiple-users-multiple-relays relay assignment on LTE-Advanced (4G) , the future communication technology, because relay transmission is an important concept in LTE-Advanced system. We will proposed a strategy called RIMM for assignment of multiple relay nodes (RN) to multiple users (UE): We want to maximize UEsawareness of performance improvement overall system after introducing the relay nodes (RN). Instead of maximizing the aggregate performance, we want to take our main purpose on maximizing the relative improvement of users (UE) overall system, that is a ratio of performance improvement to the corresponding original performance value and achieve the max-min feature simultaneously. By that relay strategy, it will take advantage of increasing the spatial diversity and the performance of transmission to achieve the perspective of improving the inferior users’ (UE) transmission performance. Then we will transform the relay assignment problem with this relay strategy into bipartite matching problem and introduce the Hungarian algorithm to get the optimal solutions.