We analyze the performance of soft handoff used as intergroup handoff in the fiber-optic cellular system. Performance is evaluated in view of blocking and handoff refused probability. The numerical results show that the smaller the handoff region or the more the channel, the larger the system capacity.

We analyze the performance of soft handoff used as intergroup handoff in the fiber-optic cellular system. Performance is evaluated in view of blocking and handoff refused probability. The numerical results show that the smaller the handoff region or the more the channel, the larger the system capacity.

Various co-sited wireless communication systems may share the same frequency band. This causes mutual interference between the wireless communication systems, and degrades the performance of each wireless communication system. In this paper, we analyze the effect of mutual interference between WiFi and WiMAX systems sharing the same frequency band. We propose novel methods based on a proposed coexistence zone within the WiMAX frame structure and a modified power saving mode of the WiFi system to solve the problem. We evaluate the performance of the proposed methods by computer simulation.

We describe a new characteristic of soft handoff, call failure when a mobile moves from the handoff region to the normal region, and introduce the metric of region-transition failure probability to more accurately assess the performance of CDMA systems that support real-time video streaming services. This characteristic has not been considered in previous research. Simulations show that this failure must be considered since it significantly degrades system performance.