Abstract
With the continuous expansion of the number of users and application scale, the existing network is facing severe challenges from mobility, security, scalability and other aspects, which is difficult to meet the development requirements of business expansion and function iteration. 5G network must be a multi-layer heterogeneous wireless network with multiple different wireless access technologies. Multipath concurrent transmission technology can integrate multiple networks using different wireless access technologies, and effectively aggregate the network bandwidth, which can greatly improve the utilization of network resources and the transmission efficiency of network services. Most of the existing researches on multi-path modeling often set the preconditions such as the independence of each path and the consistency of performance parameters of all paths, and it does not fully consider the interaction between paths in the multi-path transmission system. This paper will first study a cross-layer multi-path concurrent transmission technology, fully consider the interaction between paths in the multi-path transmission system, and then design and build the corresponding transmission system, and simulate and analyze the end-to-end delay and bandwidth performance of the system with different service sources and loads.
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Acknowledgement
This work is supported by the State Grid Henan Electric Power Company Science and Technology Project “Research on Secure Networking Technology and Service Access Simulation of 5G-integrated Energy Internet” (5217Q0210001).
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Zhao, Y., Wang, Q., Qi, X., Feng, L., Gao, J., Yu, P. (2022). Research on 5G Multipath Concurrent Transmission System and End to End Delay Measurement. In: Liu, Q., Liu, X., Chen, B., Zhang, Y., Peng, J. (eds) Proceedings of the 11th International Conference on Computer Engineering and Networks. Lecture Notes in Electrical Engineering, vol 808. Springer, Singapore. https://doi.org/10.1007/978-981-16-6554-7_168
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DOI: https://doi.org/10.1007/978-981-16-6554-7_168
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