5.孙震强：面向6G的空地一体网络架构的思考.pdf

1、An air-ground integrated network（AGIN）architecture for 6G1Multi-scenario 6G cloud-network architecture2A4N：Enrich 6G networks with Air platforms3N4A：3D coverage with terrestrial IMT systems3Vision&requirementsITU-R Framework and overall objectives of the future development of IMT for 2030 and beyond

2、This marks a fundamental consensus on the 6G vision researchKPI of 6G 5G Capability Connection Density Latency ReliabilityNew Capability Sensing-related AI related Sustainability CoverageUsage Scenarios of 6G Ubiquitous Connectivity Integrated AI and Communication Integrated Sensing and Communicatio

3、n 5G ScenariosNew Scenarios Requirements driven6G Network ArchitectureTechnology drivenNetwork AIFederated learningknowledge graphsLLMISACIntegrated Sensing And communicationSpace Communication SatellitesHAPSLAPSProblem drivenNew ServiceMetaverse,3D coverageNew Scenarios 2C 2B T e m p o r a r y Netw

4、orksComplex architectureToo many NF and interfacecomplex procedureRobustnessLong fault recovery timeFrequent network disasterFlexibilityCustomized demand in the 2B field多More function省more sustainable快More flexible好More better performanceOverall design principles for 6G networks4Deep Convergence：Int

5、egrated AI and Communication、Integrated Sensing and Communication and other DOICT Convergence4GCloudNetwork5GCloudNetwork6GCloudNetworkUniversal platformApplicationSensingSensingbuilt-inbuilt-inAI AI built-inbuilt-inTrustTrustbuilt-inbuilt-inComputingComputingNativeNativeCloud Network Integration，th

6、e third stage of cloud network convergenceWide Convergence：Space、air、ground and sea，3D coverageend-to-end cloud native,from RAN to whole core networkstart network cloudificationcloud-centered networkFramework of 6G network：Evolution from 5GFeature libraryApplication enabler layerNetwork function lay