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| What are the key QoS requirements for future applications and scenarios? What are the shortcomings of today's 5G network? Where are the bottlenecks? How can performance be improved? In this topic, you will build an open-source 5G communication network from the core to the edge, test and analyze the real performance of 5G. | | What are the key QoS requirements for future applications and scenarios? What are the shortcomings of today's 5G network? Where are the bottlenecks? How can performance be improved? In this topic, you will build an open-source 5G communication network from the core to the edge, test and analyze the real performance of 5G. | ||
| Network protocol stack & 5G architecture | | Network protocol stack & 5G architecture | ||
| [Wanghong Yang, wanghong.yang@cs.uni-goettingen.de] | |||
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| Yes | |||
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| Low latency transmission mechanism for real-time interactive application | |||
| There are so many mechanisms designed for providing low latency transmission from application layer adaptive algorithms to transport layer protocols, even from network assistance. However, the incoordination between the upper and lower layers may lead to "negative optimization". How is the transmission performance of the current protocol stack? Which combination performs best? Does the new technology really improve performance? In this topic, you will build a 5G communication simulation network from the core to the edge, test and analyze the latency performance of current mechanisms. | |||
| Network Transmission Improvement & 5G architecture | |||
| [Wanghong Yang, wanghong.yang@cs.uni-goettingen.de] | | [Wanghong Yang, wanghong.yang@cs.uni-goettingen.de] | ||
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