摘要
多径效应会造成信号的传播衰减,降低传输速率和通信质量。以电力线多径传输函数为信道模型,在l~30MHz的频带上分析了信道分支数、分支长度对低压电力线信道容量的影响。采用约束注水法导出了信道容量的闭式最大解,在输入总功率受限的情况下,动态调整子信道功率约束值,保证了输入功率的优化分配。仿真结果表明:多径效应的信道分支数是影响低压电力线信道容量的主要因素。约束注水法控制下的信道容量最大可达700Mbps,可以实现高速数据的传输。
Muhipath effect will attenuate the signal propagation, reduce the transmission rate and the quality of com- munication. Set power-line muhipath transmission function as channel model,the influence of channel branches and branch length on channel capacity of low power-line in the frequenee band of 1 - 30MHz is analyzed. Bound water injection is uti- lized to calculate the maximum channel capacity and ensure the optimal distribution of input power in each sub-channel in the condition of limited input power. Simulation result shows that the mainly factor which affects the low power-line channel capacity is channel branch number. Under the control of bound water rejection, the maximum channel capacity can reach 700Mbps which can transmit high speed data.
出处
《现代机械》
2013年第6期25-27,32,共4页
Modern Machinery
基金
贵州省科学技术基金项目(黔科合J字[2013]2125号)
贵州省教育厅自然科技基金合同号(2009)0028
贵州大学研究生创新基金(研理工201302)
关键词
多径效应
信道容量
约束注水法
高速数据
multipath effect
channel capacity
bound water rejection
high speed data
