Since capabilities of mobile devices have been raised tremendously, user can perform multiple applications in the device simultaneously. There are some packets autonomously transfer between the user equipment (UE) and network, which are also referred as background traffic. If UE keeps in radio resource control connected (RRC_Connected) state during the background period, the handover event within this period will generate signaling overhead and reduce efficiency of radio resources. In long term evolution (LTE) system, evolved node B (eNB) will release the connection with the UE to let UE enter radio resource control idle (RRC_Idle) state in order to save network resources and reduce the signaling overhead from handover. When interactive data packet occurs, UE reenters RRC_Connected state. However RRC state transition also costs signaling overhead. In this thesis, we discuss how to determine an appropriate RRC release timer to reduce the overall signaling overhead. We found that the RRC release timer which causes the same amount of handover overhead to RRC state transition overhead is very close to optimal RRC release timer which has minimum total signaling overhead. From above observation, based on the number of handover and connection reported, we design a scheme that eNB adjusts RRC release timer dynamically to a suitable value according to the change of UE behavior. Proposed scheme can reduce the overall signaling overhead comparing to the current mechanism that a fixed RRC release timer is used by eNB.