A cosimulation platform was established for distributed control systems via heterogeneous network,which integrated OPNET and Matlab/Simulink.The communication node in this cosimulation platform was built based on OSI ...A cosimulation platform was established for distributed control systems via heterogeneous network,which integrated OPNET and Matlab/Simulink.The communication node in this cosimulation platform was built based on OSI model and UDP protocol,which was adopted as the transportation layer protocol.Data exchanged between the data source module and the specified node.It was fulfilled by revising the corresponding protocol modules based on the characteristics of UDP.The effectiveness of the constructed simulation platform was demonstrated by a numerical example.展开更多
Congestion may decrease throughput and transfer efficiency of network,and lead to serious degradation of quality of service(QoS)acquired by end users.Present routing adjustment methods against congestion mostly consid...Congestion may decrease throughput and transfer efficiency of network,and lead to serious degradation of quality of service(QoS)acquired by end users.Present routing adjustment methods against congestion mostly consider single-point congestion.They cannot deal with multi-point congestion.This paper presents a probability-based routing adjustment algorithm,which solves the interference problem when several flows are adjusted simultaneously.While multiple points in the network are being or about to be congested,several key flows are rerouted by this algorithm at the same time to make traffic distribution more reasonable so as to avoid congestion.Meanwhile,the algorithm in this paper confines the path length of key flows to avoid QoS reduction due to overlength of key flows.Simulation shows that this method,compared with present algorithms,maintains better load balance and path length.Therefore it effectively increases the throughput of the network.展开更多
基金National Natural Science Foundation of China(No.61573237)Natural Science Foundation of Shanghai,China(No.13ZR1416300)
文摘A cosimulation platform was established for distributed control systems via heterogeneous network,which integrated OPNET and Matlab/Simulink.The communication node in this cosimulation platform was built based on OSI model and UDP protocol,which was adopted as the transportation layer protocol.Data exchanged between the data source module and the specified node.It was fulfilled by revising the corresponding protocol modules based on the characteristics of UDP.The effectiveness of the constructed simulation platform was demonstrated by a numerical example.
基金supported by the National Natural Science Foundation of China (Grant Nos.90604019 and 60502037)the National High Technology Research and Development Program of China (Nos.2006AA01Z235 and 2007AA01Z206)+1 种基金the Specialized Research Fund for the Doctoral Program of Higher Education of China (No.200800131019)Program for New Century Excellent Talents in University。
文摘Congestion may decrease throughput and transfer efficiency of network,and lead to serious degradation of quality of service(QoS)acquired by end users.Present routing adjustment methods against congestion mostly consider single-point congestion.They cannot deal with multi-point congestion.This paper presents a probability-based routing adjustment algorithm,which solves the interference problem when several flows are adjusted simultaneously.While multiple points in the network are being or about to be congested,several key flows are rerouted by this algorithm at the same time to make traffic distribution more reasonable so as to avoid congestion.Meanwhile,the algorithm in this paper confines the path length of key flows to avoid QoS reduction due to overlength of key flows.Simulation shows that this method,compared with present algorithms,maintains better load balance and path length.Therefore it effectively increases the throughput of the network.
