Abstract
In order to improve the bandwidth utilization of the satellite communication link and the performance of the SCPS-TP transmission protocol, an improvement of TCP Vegas algorithm is proposed in this paper. For the satellite link bandwidth asymmetry, the proposed algorithm distinguishes the relative queue delay congestion state on the satellite network reverse link. The forward and reverse link states are subdivided and correspondingly improved in the congestion avoidance phase. On this basis, the reverse link acknowledgement packet transmission frequency is dynamically adjusted. The OPNET simulation result shows that the algorithm improves the satellite link throughput when the bit error rate is high. The algorithm has low complexity and obvious improvement in effect.
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References
Li, L.Q., Zhu, J., Yang, Y.T., Hu, Z.: Performance analysis of TCP congestion control algorithm for satellite IP network. Shanghai Aerosp. 33(6), 109 (2016)
Dai, S., Xiao, N., Liang, J., Yuan, T.: TCP congestion control algorithm for satellite networks based on processing delay. Mod. Def. Technol. 42(3), 128 (2014)
Du, L.H., Wu, X.J.: Research and implementation of TCP protocol accelerator based on SCPS-TP. Radio Eng. 47(9), 13 (2017)
Li, L.Q., Zhu, J., Yang, Y.T., Hu, Z.: Performance analysis of TCP congestion control algorithm for satellite IP network. Shanghai Aerosp. 6, 110 (2016)
Jiang, H., Huang, J.Q., Wang, X.: Simulation of TCP congestion control based on bandwidth estimation of MANET. Comput. Eng. Des. 37(1), 201 (2016)
Hu, J.L., Wang, R.H., Sun, X., Yu, Q.: Memory dynamics for DTN protocol in deep-space communications. Aerosp. Electron. Syst. Mag. 29(2), 22 (2014)
Cheng, R.S., Deng, D.J.: Congestion control with dynamic threshold adaptation and cross-layer response for TCP vegas over IEEE802.11 wireless networks. Int. J. Commun Syst 27, 2919 (2014)
Sreekumari, P., Chung, S.H., Lee, M., Kim, W.S.: Detection of fast retransmission losses using TCP timestamp for improving the end-to-end performance of TCP over wireless networks. Int. J. Distrib. Sens. Netw. 11(9), 1 (2013)
Jamali, S., Alipasandi, N., Alipasandi, B.: TCP pegas: a PSO-based improvement over TCP vegas. Appl. Soft Comput. 32, 165–166 (2015)
Acknowledgements
This work was supported by the National Natural Science Foundation of China (6150130), Postdoctoral Science Foundation of Shenyang Ligong University (2016), Leading Academic Discipline Open-ended Foundation of Shenyang Ligong University (4771004kfx24), Middle-aged and Young Science and Technology Innovation Talents Support Program Project of Shenyang (2017).
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Jiang, Y., Yang, L., Guan, Q., Guan, S. (2020). Research on the Confirmation Mechanism of SCPS-TP Protocol in Satellite Network. In: Liu, Q., Mısır, M., Wang, X., Liu, W. (eds) The 8th International Conference on Computer Engineering and Networks (CENet2018). CENet2018 2018. Advances in Intelligent Systems and Computing, vol 905. Springer, Cham. https://doi.org/10.1007/978-3-030-14680-1_96
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DOI: https://doi.org/10.1007/978-3-030-14680-1_96
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