Long Term Evolution (LTE) is expected to ensure 3GPP's competitive edge over other cellular technologies. The advantages of LTE include improving end-user throughputs, and reducing latency. LTE systems utilize a network-controlled and the user equipment (UE) assisted handover procedure for mobility in the connected mode. When a user equipment (UE) is in the connected mode, it sends measurement reports to its source eNB. The source eNB, based on these measurement reports, determines the suitable target eNB for that UE and queries the target eNB if it has enough resources to accommodate the UE. The target eNB prepares radio resources before the source eNB commands the UE to handover to the target eNB. In this thesis, we first introduce the measurement report mechanism defined in the specification of LTE systems. We further explore possible problems and the impact on handover decisions made by the source eNB. Followed, we propose rules for timer adjustment, including timeToTrigger and reportInterval. Our mechanism aims at reducing incorrect handover decisions and shortening the end-to-end data delivery time. By conducting simulation, we evaluate the designed mechanism. The simulation results show that our proposed mechanism does achieve our design goals.