Supervisory control design for congestion control and bandwidth management

被引:0
作者
Azami G. [1 ]
Gholizade-Narm H. [2 ]
机构
[1] Shahrood University of Technology, Kharazmi Campus, Haft Tir Square, Shahrood
[2] Faculty of Electrical Engineering and Robotics, Shahrood University of Technology, Haft Tir Square, Shahrood
来源
International Journal of Systems, Control and Communications | 2021年 / 12卷 / 01期
关键词
Adaptive PID congestion control; Bandwidth management; Congestion control; Hybrid; Supervisory control; TCP/IP networks;
D O I
10.1504/IJSCC.2021.113256
中图分类号
学科分类号
摘要
One of the major problems of today's TCP/IP network is the transmission system. If the bandwidth is full, we should use a new high-capacity transmission system. In the present paper, we put forward a method that besides the optimal use of available bandwidth, if the capacity is filled, the network will be automatically transferred to another network with higher bandwidth. In this regard, first design an adaptive PID controller to control the congestion for the existing network to get the most use of it. If the input data to the network is increased, more packets will be lost. Toward removing this problem through designing a supervisory and hybrid control system as well as considering the standard threshold limit for packets loss in each network, if this limit is exceeded, the existing network will be switched to a higher capacity network as it solves the problem of bandwidth and network quality. Copyright © 2021 Inderscience Enterprises Ltd.
引用
收藏
页码:46 / 59
页数:13
相关论文
共 20 条
[1]  
Alrshah M.A., Al-Maqri M.A., Othman M., Elastic-TCP: flexible congestion control algorithm to adapt for high-BDP networks, IEEE Systems Journal, 13, 2, pp. 1336-1346, (2019)
[2]  
Barzamini R., Shafiee M., A new sliding mode controller for TCP congestion control, 19thTelecommunications Forum (TELFOR) Proceedings of Papers, (2011)
[3]  
Bisoy S.K., Pattnaik P.K., Design of feedback controller for TCP/AQM networks, Engineering Science and Technology, An International Journal, 20, 1, pp. 116-132, (2017)
[4]  
Bisoy S.K., Pattnaik P.K., An AQM controller based on feed-forward neural networks for stable internet, Computer Engineering and Computer Science, Arab JSciEng, 43, 8, pp. 3993-4004, (2018)
[5]  
Chrisiansen M., Jeffay K., Ott D., Smith F.D., Tuning RED for web traffic, Proceedings of ACM/SIGCOMM'00, pp. 139-150, (2000)
[6]  
Clark D., Design philosophy of the DARPA internet protocols, Proc. of SIGCOMM, 88, pp. 106-114, (1988)
[7]  
Daigavhane M.U., Chawhan M.D., Congestion control algorithm for TCP in wireless network, 2018 4th International Conference on Recent Advances in Information Technology (RAIT), (2018)
[8]  
Feng C.W., Huang L.F., Xu C., Chang Y.C., Congestion control scheme performance analysis based on nonlinear RED, IEEE Systems Journal, 11, 4, pp. 2247-2254, (2017)
[9]  
Feng W., Shin K., Kandlur D., Saha D., The BLUE active queue management algorithm, IEEE/ACM Trans. on Networking, 10, 4, pp. 513-528, (2002)
[10]  
Floyd S., Jacobson V., Random early detection gateways for congestion avoidance, IEEE/ACM Trans on Networking, 1, 4, pp. 397-413, (1993)
12