在车载通信系统中采用双向中继协作通信可以提升系统性能。然而,车辆移动造成的链路相关性会增大车载双向中继协作通信系统的中断概率。针对这个问题,建立了车载双向链路相关性系统模型,用相关系数描述车辆移动造成的双向链路特性,简化...在车载通信系统中采用双向中继协作通信可以提升系统性能。然而,车辆移动造成的链路相关性会增大车载双向中继协作通信系统的中断概率。针对这个问题,建立了车载双向链路相关性系统模型,用相关系数描述车辆移动造成的双向链路特性,简化了系统中断性能分析。同时,在中继采用AF方式下得到系统中断性能的闭式解,且中断概率一定时,求得最优功率分配方案。数值分析表明,相关系数比功率分配系数对中断性能影响的幅度更大,相比传统单向AF中继协作通信系统的最优功率分配方案,最多可以节省4 d B的总功率。展开更多
The doubly curved shell(DCS)is a common structure in the engineering field.In a thermal environment,the vibration characteristics of the DCS will be affected by the thermal effect.The research on the vibration charact...The doubly curved shell(DCS)is a common structure in the engineering field.In a thermal environment,the vibration characteristics of the DCS will be affected by the thermal effect.The research on the vibration characteristics of DCS in thermal environment is relatively limited.In this paper,the thermal strain and the change of Young’s modulus caused by the changing of temperature are studied,and the DCS energy equation is established systematically.The displacement tolerance function of the DCS is constructed by the spectral geometry method,and the natural frequencies and mode shapes of the DCS with different structural parameters,such as thicknesses,ratios of R_(a)/R_(b) and a/b,at different temperatures are solved by the Rayleigh-Ritz method.The results show that the natural frequency of the DCS decreases with the increasing temperature,R_(a)/R_(b) and a/b ratios,and increases with the increasing thickness.展开更多
文摘在车载通信系统中采用双向中继协作通信可以提升系统性能。然而,车辆移动造成的链路相关性会增大车载双向中继协作通信系统的中断概率。针对这个问题,建立了车载双向链路相关性系统模型,用相关系数描述车辆移动造成的双向链路特性,简化了系统中断性能分析。同时,在中继采用AF方式下得到系统中断性能的闭式解,且中断概率一定时,求得最优功率分配方案。数值分析表明,相关系数比功率分配系数对中断性能影响的幅度更大,相比传统单向AF中继协作通信系统的最优功率分配方案,最多可以节省4 d B的总功率。
基金supported by the National Natural Science Foundation of China(No.51805341)the Natural Science Foundation of Jiangsu Province(No.BK20180843).
文摘The doubly curved shell(DCS)is a common structure in the engineering field.In a thermal environment,the vibration characteristics of the DCS will be affected by the thermal effect.The research on the vibration characteristics of DCS in thermal environment is relatively limited.In this paper,the thermal strain and the change of Young’s modulus caused by the changing of temperature are studied,and the DCS energy equation is established systematically.The displacement tolerance function of the DCS is constructed by the spectral geometry method,and the natural frequencies and mode shapes of the DCS with different structural parameters,such as thicknesses,ratios of R_(a)/R_(b) and a/b,at different temperatures are solved by the Rayleigh-Ritz method.The results show that the natural frequency of the DCS decreases with the increasing temperature,R_(a)/R_(b) and a/b ratios,and increases with the increasing thickness.