Cellular V2X for Connected Automated Driving (Hardcover)

· 제목 : Cellular V2X for Connected Automated Driving (Hardcover) 
· 분류 : 외국도서 > 기술공학 > 기술공학 > 전자공학 > 일반
· ISBN : 9781119692645
· 쪽수 : 336쪽
· 출판일 : 2021-04-19

1. Introduction

1.1. Background

1.1.1. Telecom’s roadmap in connected driving

1.1.2. Automotive’s roadmap on automated driving

1.1.3. Intelligent transport systems

1.1.4. Standardization and regulation

1.2. Communication aspects of ITS

1.2.1. State of the art

1.2.2. Future developments in C-V2X

1.3. Structure of this book

1.4. References

2. Business Models

2.1. Service Definition

2.1.1. Existing Services

2.1.2. Autonomous driving features

2.1.3. Convenience services

2.2. Technical components

2.3. Practicalities

2.3.1. Profile/SIM card provisioning

2.3.2. Routing strategy

2.3.3. Roaming and Inter-operator co-operation

2.3.4. Network technologies and OEMs status

2.3.5. Possible business model evolution

2.4. Business market opportunities for V2X

2.4.1. 5GCAM business model

2.4.2. Security provision

2.4.3. Over the air updates

2.5. Business model analysis of 5G V2X technical components

2.5.1. Positioning

2.5.2. V2X radio design

2.5.3. Network procedures

2.5.4. End to end security

2.5.5. Edge computing enhancements

2.5.6. Summary

2.6. Conclusions

2.7. References

3. Standardization and regulation

3.1. Standardization process overview

3.1.1. General aspects

3.1.2. Standardization and regulation bodies relevant to ITS specifications

3.1.3. 3GPP structure and standardization process

3.2. Regulatory aspects and spectrum allocation

3.2.1. C-V2X policy and regulations in Europe

3.2.2. Radio frequency spectrum allocation for V2X communications

3.3. Standardization of V2X communication technology solutions

3.3.1. A brief history of V2X communication

3.3.2. Overview of DSRC/C-V2X specifications around the globe

3.3.3. C-V2X standardization in 3GPP; towards and within 5G

3.4. Automotive industry

3.4.1. 5GAA

3.4.2. Industry penetration

3.5. Application aspects

3.5.1. U.S. standardization

3.5.2. E.U. standardization

3.6. Summary

3.7. References

4. Spectrum and Channel Modeling

4.1. Spectrum and regulations for V2X communications

4.1.1. Spectrum bands in Europe

4.1.2. Spectrum bands in other regions

4.1.3. Spectrum Auctions worldwide

4.1.4. Spectrum harmonization worldwide

4.1.5. Summary

4.2. Channel Modeling

4.2.1. Propagation environments

4.2.2. Channel Modeling Framework and Gap Analysis

4.2.3. Path Loss Models

4.2.4. Recent V2X channel measurements and models

4.2.5. Summary

4.3. References

5. V2X Radio Interface

5.1. Introduction

5.2. Beamforming techniques for V2X communication in mm-wave spectrum

5.2.1. Beam refinement for mobile multi-user scenario

5.2.2. Beamformed multicasting

5.2.3. Beam-based broadcasting

5.3. PHY and MAC layer extensions

5.3.1. Channel state information acquisition and MU-MIMO receiver design

5.3.2. Reference signal design

5.3.3. Synchronization

5.3.4. Scheduling and power control

5.4. Technology features enabled by vehicular sidelink

5.4.1. UE Cooperation for enhancing reliability

5.4.2. Full and flexible duplex

5.5. Summary

5.6. References

6. Network Enhancements

6.1. Introduction

6.2. Network Slicing

6.2.1. Network Slicing and 3GPP

6.2.2. Network Slicing and V2X

6.3. Role of SDN and NFV in V2X

6.4. Cloudified Architecture

6.5. Local End to End Path

6.6. Multi-Operator Support

6.7. Summary

6.8. References

7. Enhancements to support V2X application adaptations

7.1. Introduction

7.2. Background

7.3. Enhanced application-network interaction for V2X use case handling

7.3.1. V2X Service negotiation

7.3.2. Use-case aware multi-RAT multi-link connectivity

7.3.3. Location-aware scheduling

7.4. Redundant scheduler for sidelink and Uu

7.4.1. Application or Facilities layer

7.4.2. Transport level

7.4.3. RRC level

7.5. Summary

7.6. References

8. Radio based positioning and video based positioning

8.1. Introduction

8.2. Radio based positioning

8.2.1. Use cases and requirements

8.2.2. Radio-based positioning in New Radio Release 16

8.2.3. Radio-based positioning beyond Release 16

8.2.4. Technology component complementation

8.2.5. Limitations of radio-based positioning

8.2.6. Summary

8.3. Video based positioning

8.3.1. Vehicle positioning system setup

8.3.2. Multi camera calibration

8.3.3. Vehicle detection

8.3.4. Vehicle tracking

8.3.5. Vehicle localization

8.3.6. Accuracy evaluation

8.3.7. Summary

8.4. Conclusions

8.5. References

9. Security and privacy

9.1. Introduction

9.2. V2N Security

9.2.1. Security Challenges

9.2.2. Isolation Challenges

9.2.3. Software-Defined Vehicular Networking Security

9.3. V2V/V2I/I2V security

9.3.1. V2X security

9.3.2. Privacy

9.3.3. E.U. V2X security architecture

9.3.4. U.S. V2X security architecture

9.4. Alternative approaches

9.5. Conclusion

9.6. References

10. Status, Recommendations and Outlook

10.1. Status of Described C-V2X Technical Concepts

10.2. Technical and Non-technical Gaps in Broad

10.3. Recommendations to Stakeholders

10.3.1. Mobile Network Operators

10.3.2. Original Equipment Manufacturers

10.3.3. Regulators

10.3.4. Suppliers and certification

10.4. Outlook

10.5. References