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Service chain embedding with maximum flow in software defined network and application to the next-generation cellular network architecture.

, , , , , и . INFOCOM, стр. 1-9. IEEE, (2017)

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Multi-Tree Multicast Traffic Engineering for Software-Defined Networks., , , , и . CoRR, (2015)FlowSpy: An Efficient Network Monitoring Framework Using P4 in Software-Defined Networks., и . VTC Fall, стр. 1-5. IEEE, (2019)NQ/ATP: Architectural Support for Massive Aggregate Queries in Data Center Networks., , , и . IWQoS, стр. 1-10. IEEE, (2022)Privacy-preserving deep packet filtering over encrypted traffic in software-defined networks., , , , и . ICC, стр. 1-7. IEEE, (2016)Service Overlay Forest Embedding for Software-Defined Cloud Networks., , , , , и . ICDCS, стр. 720-730. IEEE Computer Society, (2017)Multicast Traffic Engineering with Segment Trees in Software-Defined Networks., , , , и . INFOCOM, стр. 1808-1817. IEEE, (2020)Multicast traffic engineering for software-defined networks., , , , и . INFOCOM, стр. 1-9. IEEE, (2016)REfactor-ing content overhearing to improve wireless performance., , , и . MobiCom, стр. 217-228. ACM, (2011)A Real-time and Memory-saving Link Recovery Mechanism for Green Software-Defined Networking., , , и . GlobalSIP, стр. 853-857. IEEE, (2018)An Efficient Joint Node and Link Mapping Approach Based on Genetic Algorithm for Network Virtualization., , , , и . VTC Fall, стр. 1-5. IEEE, (2019)