Dynamic channel allocation can reduce the blocking probability of cellular networks. This paper aims atestimating the blocking probability for cellular networki with dynamic channel allocation. Traffic analysis models...Dynamic channel allocation can reduce the blocking probability of cellular networks. This paper aims atestimating the blocking probability for cellular networki with dynamic channel allocation. Traffic analysis modelsare presented to evaluate performance of cellular networkS, The blocking probabilities versus traffic offered to eachcell are analyzed and simulated Comparisons between analysis and simulation results are made.展开更多
The combined effects of chromatic dispersion, self-phase modulation and laser chirp are numericallyinvestigated for a 10 Gb/s IM-DD system over 100 km of standard single-mode (SSM)fiber. Pre-compensation and
This contribution deals with the outage probability in a hierarchical macrocell/microcell CDMA cellularsystem.We consider different attenuation models and imperfection of power control with log-normal distribution.Bas...This contribution deals with the outage probability in a hierarchical macrocell/microcell CDMA cellularsystem.We consider different attenuation models and imperfection of power control with log-normal distribution.Based on IS-95 protocol, the impacts of imperfect sectorization and imperfection of power control on outageProbability are fully investigated From the numerical results, we conclude that the high user capacity may beexpected in the case of relatively tight power control and narrower overlap betWeen sectors and the hierarchicalmacrocell/microcell cellular systems are potential for the future cellular mobile communication.展开更多
文摘Dynamic channel allocation can reduce the blocking probability of cellular networks. This paper aims atestimating the blocking probability for cellular networki with dynamic channel allocation. Traffic analysis modelsare presented to evaluate performance of cellular networkS, The blocking probabilities versus traffic offered to eachcell are analyzed and simulated Comparisons between analysis and simulation results are made.
文摘The combined effects of chromatic dispersion, self-phase modulation and laser chirp are numericallyinvestigated for a 10 Gb/s IM-DD system over 100 km of standard single-mode (SSM)fiber. Pre-compensation and
文摘This contribution deals with the outage probability in a hierarchical macrocell/microcell CDMA cellularsystem.We consider different attenuation models and imperfection of power control with log-normal distribution.Based on IS-95 protocol, the impacts of imperfect sectorization and imperfection of power control on outageProbability are fully investigated From the numerical results, we conclude that the high user capacity may beexpected in the case of relatively tight power control and narrower overlap betWeen sectors and the hierarchicalmacrocell/microcell cellular systems are potential for the future cellular mobile communication.
