Simulation of Optimal Deployment Model of Ship-based Wireless Communication Networking Nodes
In order to improve the transmission performance of ship-based wireless communication networking and reduce the data packet loss rate and bit error rate,an optimal deployment method of ship-based wireless communication networking nodes based on multiple rotation scheduling and self-organizing learning is proposed.The transmission link structure model of ship-based wireless communication network is constructed.Combining with the coverage ability analysis of link topology and transmission chan-nel characteristics analysis,the structured scheduling and spread spectrum processing of ship-based wireless communication net-work transmission layer are realized by channel balanced scheduling method,and the multi-sensor fusion tracking and identifica-tion method is used to realize multi-rotation scheduling of communication network nodes.The optimal deployment design of commu-nication network nodes is realized by combining self-organizing neural network learning and channel gain spread spectrum process-ing.The simulation analysis is carried out with parameters such as bit error rate,packet loss rate and effective coverage of communi-cation nodes as test indicators.The simulation results show that this method has higher communication coverage,lower bit error rate and packet loss rate,and improves the channel equalization ability and data security transmission ability of ship-based wireless communication networking.
ship-based wireless communication networkingnodemultiple rotationself-organizing neural networkchan-nel equalization
万方数据
维普
