As technologies for the high quality multimedia application and 4G WiMAX network prevail, one can easily be under services everywhere through WiMAX wireless network. However, the service disruption time (SDT) and packet loss caused by handover procedure leads to an unacceptable quality of Service (QoS) for mobile users in WiMAX wireless net-work, especially in IEEE 802.16j mobile relay station (MRS) mode. Therefore, minimizing SDT and packet loss are necessary in supporting seamless mobility and satisfactory QoS for mobile users in WiMAX network. For supporting seamless mobility, several notable mobility schemes were proposed. Mobile IPv6 (MIPv6) provides the fundamental handover methods for mobility management at IP layer. Fast MIPv6 (FMIPv6) provides a parallel handover mechanism between link-layer and IP layer to reduce the SDT. Hierarchical MIP (HMIP) employs hierarchical architecture to perform local mobility management. Proxy MIPv6 (PMIPv6) provides a network-based mobility scheme in which mobile station (MS) needs not participate in the IP layer handover procedure. However, the above schemes are general solutions and do not aim at WiMAX network. They still suffer high SDT and packet loss problem in IEEE 802.16j MRS mode in which the link-layer handover is performed by the MRS instead of MS. In this dissertation, for supporting seamless mobility, we proposed three enhanced mechanisms to reduce the SDT and packet loss in the IEEE 802.16e and IEEE 802.16j MRS mode. The first proposed scheme aims at IEEE 802.16e. The proposed cross-layer IPv6 fast handover scheme which features integrated layer 2/layer 3 messages and pre-layer 2 network re-entry procedure (Pre-L2NR). It can reduce the SDT and the numbers of control messages during handover. In the proposed scheme, the MS will negotiate with the base station (BS) to perform the layer 2 network re-entry procedure in advance. The Pre-L2NR includes acquire-ment of dedicated ranging time slot, temporary authentication mechanism, and pre-service flow construction. Therefore, the MS can resume receiving/sending packets after it completes the ranging procedure, leading to the reduced SDT. The second proposed scheme is for IEEE 802.16j MRS mode. It is a host-based mobility approach. It utilizes the cooperation between the MRS’s link-layer and MS’s IP layer to achieve the parallel handover. The MRS’s link-layer will notify the MS’s IP layer to perform IP layer handover procedure when the MRS performs link-layer handover. The parallel handover reduces the SDT efficiently. On the other hand, the proposed buffering mechanism can avoid packet loss during handover. We also integrated the first mechanism into the second mechanism to further reduce the SDT. The third proposed scheme also aims at IEEE 802.16j MRS mode. A network-based mobility approach is presented to improve the SDT and packet loss in the MRS mode. Through the cooperation between the MRS’s link-layer and access router’s (AR’s) IP layer, the parallel handover can be achieved, and the MS needs not participate in the IP layer handover procedure. The proposed network-based mobility approach can reduce the time for considerably longer duplicate address detection (DAD) process in the host-based mobility approach. The third proposed scheme further reduces SDT by Pre-L2NR. According to the results of analyses and simulations, the proposed schemes can reduce the SDT and packet loss efficient. As a result, the seamless mobility and satisfactory QoS can be achieved for mobile users in WiMAX network.