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Introduction 01
1 Trends and Challenges of Smart Grid Development 02
2 Typical Service Scenarios of a 5G Network Slicing Enabled Smart Grid 04
2.1 Scenario 1: Intelligent Distributed Feeder Automation 04
2.1.1 Service Scenario 04
2.1.2 Development Trends and Characteristics 05
2.1.3 Key Requirements for Communications Networks 06
2.2 Scenario 2: Millisecond-Level Precise Load Control 06
2.2.1 Service Scenario 06
2.2.2 Development Trends and Characteristics 07
2.2.3 Key Requirements for Communications Networks 07
2.3 Scenario 3: Information Acquirement of Low Voltage Distribution Systems 08
2.3.1 Service Scenario 08
2.3.2 Development Trends and Characteristics 08
2.3.3 Key Requirements for Communications Networks 09
2.4 Scenario 4: Distributed Power Supplies 10
2.4.1 Service Scenario 10
2.4.2 Development Trends and Characteristics 10
2.4.3 Key Requirements for Communications Networks 11
3 5G Network Slicing 12
3.1 Concepts and Features of 5G Network Slicing 13
3.2 E2E Architecture of 5G Network Slicing 14
3.3 Benefits of 5G Network Slicing 15
4 Discussion on 5G Slicing Solution of the Smart Grid 16
4.1 Smart Grid Enabled by 5G Network Slicing 17
4.1.1 Technical Perspective 18
4.1.2 Service Perspective 18
4.1.3 Deployment Perspective 18
4.2 Smart Grid's Multi-Slice Architecture 19
4.3 Life Cycle Management of the Smart Grid 20
4.3.1 Slice Design on the Smart Grid 20
4.3.2 Slice Deployment and Enabling on the Smart Grid 20
4.3.3 Operation of Smart Grid Slices 20
4.3.4 Slice O&M Monitoring on the Smart Grid 21
4.3.5 Closed-Loop Optimization of Smart Grid Slices 21
4.3.6 Slice Capability Exposure on the Smart Grid 22
5 Conclusion and Outlook 23