摘要
为提升多径电子通信系统的抗干扰能力与传输可靠性,设计一种基于蝴蝶优化算法的多径电子通信环境抗干扰系统。基于SV多径信道模型,构建多径电子通信环境的信道模型。以多径电子通信网络信道干扰最小化为目标函数,选取匈牙利算法进行多径电子通信的资源分配,构建多径电子通信环境抗干扰模型。采用蝴蝶优化算法求解所构建的抗干扰模型,利用切换概率机制调控蝴蝶种群的搜索行为,进行局部开发或全局搜索,输出多径电子通信网络的最优资源分配策略,实现干扰最小化。实验结果表明,所提系统能够提升多径电子通信环境的抗干扰性能,电子通信网络的平均传输功率均为60~100 W,误码率低于0.1。
In order to improve the anti-interference ability and transmission reliability of multi-path electronic communication system,a multi-path electronic communication environment anti-interference system based on butterfly optimization algorithm is designed.A channel model for the multipath electronic communication environment is constructed based on SV multipath channel model.Taking the minimization of channel interference in multipath electronic communication networks as the objective function,the Hungarian algorithm is selected for the resource allocation in multipath electronic communication,and an anti-interference model for multipath electronic communication environment is constructed.The butterfly optimization algorithm is used to solve the constructed anti-interference model,and the switching probability mechanism is used to regulate the search behavior of the butterfly population for local development or global search.The optimal resource allocation strategy for the multipath electronic communication network is output to minimize interference.The experimental results show that the proposed system can improve the anti-interference performance of multipath electronic communication environments.The average transmission power of electronic communication networks is between 60~100 W,and the error rate is less than 0.1.
作者
马金辰
MA Jinchen(School of Computer Science and Technology,Fudan University,Shanghai 200082,China)
出处
《现代电子技术》
北大核心
2025年第12期1-5,共5页
Modern Electronics Technique
关键词
蝴蝶优化算法
多径
电子通信环境
抗干扰
匈牙利算法
资源分配
切换概率
全局搜索
butterfly optimization algorithm
multipath
electronic communication environment
anti-interference
hungarian algorithm
resource allocation
switching probability
global search
