摘要
为减轻物理通信环境的分配处理压力,实现传输数据的层次化存储,设计多址通信链路功率层次化分配系统。在通信链路结构中,确定链路极点的分布状态,并根据极点所处的分布行为,设置与分配处理相关的多址功率观测器,完成新型分配系统的硬件运行环境搭建。在此基础上,建立特有的通信分配链路,通过多址通信目标决策的方式,计算功率层次化分配参数,实现新型分配系统的软件运行环境搭建,结合相关硬件执行结构,完成多址通信链路功率层次化分配系统设计。对比实验结果表明,与传统分配系统相比,应用功率层次化分配系统后,单位时间内的数据分配量超过7.0×1015 T,传输数据层次化存储功率达到90%,物理通信环境的分配处理压力得到有效缓解。
In order to reduce the distribution processing pressure of physical communication environment and realize the hierarchical storage of transmitted data,a multi-access communication link power hierarchical distribution system is designed.In the communication link structure,the distribution state of the link poles is determined,and according to the distribution behavior of the poles,the multiple access power observers related to the allocation processing are set to complete the construction of the hardware operating environment of the new distribution system.On this basis,a unique communication distribution link is established,and the hierarchical power distribution parameters are calculated by means of multiaccess communication target decision.The software operating environment of the new distribution system is set up,and the multi-access communication link power hierarchical distribution system design is completed by combining the relevant hardware execution structure.Compared with the traditional distribution system,the experimental results show that after the application of the power hierarchical distribution system,the data distribution amount per unit time exceeds 7.0×1015 T,the transmitted data hierarchical storage power reaches 90%,and the distribution and processing pressure in the physical communication environment is effectively alleviated.
作者
黄宗伟
HUANG Zong⁃wei(Guangdong Vocational College of Post and Telecom,Guangzhou 510630,China)
出处
《电子设计工程》
2020年第2期64-68,共5页
Electronic Design Engineering
基金
湖南省教育厅科研优秀青年项目(16B106)
关键词
多址通信
链路功率
层次化分配
链路极点
功率观测器
目标决策
分配参数
multiple access communication
link power
hierarchical distribution
link pole
power observer
goal decision
assignment parameters
