T8: V2X Communications and Security

Presented by: Yi Qian (University of Nebraska-Lincoln)

Time: 14:00–17:30
Room: Honolulu

Abstract—A wide variety of work has been down in vehicle-to-everything (V2X) communications to enable various applications for road safety, traffic efficiency and passenger infotainment. Although IEEE 802.11p used to be considered as the main technology for V2X, new research trends nowadays are considering cellular technology as the future of V2X due to its rapid development and ubiquitous presence. This tutorial surveys the recent development and challenges on 4G LTE and 5G mobile wireless networks to support efficient V2X communications & security for V2X communications. In the first part, we highlight the 4G LTE V2X architecture and operating scenarios for V2X communications. In the second part, we discuss the challenges and the new trends in 4G and 5G for supporting V2X communications such as physical layer structure, synchronization, resource allocation, multimedia broadcast multicast services (MBMS), as well as possible solutions to these challenges. In the third part, we survey the state-of-the-art solutions for security in V2X communications. Finally, we discuss some open research issues for future 5G based V2X communications and security.

Tutorial Objectives
There have been many recent research activities to address the communication capabilities in vehicles and transportation infrastructure, which mainly include vehicle-to-vehicle (V2V), vehicle-to-infrastructure (V2I), vehicle-to-pedestrian (V2P) and vehicle-to-network (V2N) communications collectively termed as vehicle-to-everything (V2X) communications. This V2X communications can improve the efficiency and safety of transportation systems. V2X communications together with existing vehicle sensing capabilities provide support for enhanced safety use cases, passenger infotainment and vehicle traffic optimization. V2X communications should support variety of use cases like forward collision warning, do not pass warning, queue warning, parking discovery, optimal speed advisory, curve speed warning, etc.

Currently there exists two main technologies to support V2X communications: dedicated short-range communications (DSRC) and cellular network technologies. DSRC technology is mainly considered to support intelligent transportation system (ITS) applications in V2V scenarios. LTE based V2X communications can make use of high capacity, large cell coverage range and widely deployed infrastructure to support vehicular communications. Due to which the 3rd Generation Partnership Project (3GPP) is currently working on cellular technology based V2X service and aims to provide a variety of V2X services. 3GPP has already completed its Release 14 with LTE based V2X service as one of the main features including other features like license assisted access, machine type communications, massive MIMO. Cellular-V2X Release 14 provides highly reliable, real time communications for automotive safety use cases. It will continue to evolve to Release 15 along with 5G to provide complementary and new capabilities like sensor sharing while maintaining backward compatibility. The technical organizations like 3GPP and Qualcomm have already prepared the roadmap towards 5G based V2X services. There is also active research being conducted in interworking between DSRC and cellular technology to support efficient V2X communications.

In this tutorial, we provide a comprehensive survey on state-of-the-art of various works on 4G LTE and 5G to support V2X communications, and security for V2X communications. We show that several challenges lie ahead before LTE can be massively deployed in vehicular environment. The main challenge identified in supporting V2X services will be high relative mobility causing Doppler Effect and dense UEs. LTE systems need to be enhanced especially physical layer structure to address the problem of this Doppler Effect. Resource allocation will be another challenge where resources being used by the vehicular system should not conflict with the resources being used by cellular users. Interference from vehicular user to the existing cellular user need to be taken care while assigning resources. Another main challenge will be the security. As V2X network will be controlled by operator, operator can easily track the vehicular users. Several solutions have been proposed in 3GPP to address this security problem. Broadcast system MBMS should be enhanced in order to better support the safety message dissemination. 3GPP has already completed work for Release 14 and is currently working for further LTE evolution and new air interface design to support vehicular communication based on 5G.

Tutorial Outline
Syllabus: 1. Motivation for 4G LTE based V2X Communications (10 minutes) a. DSRC based V2X communications b. LTE based V2X communications and the advantages 2. LTE V2X infrastructure and operating scenarios (60 minutes) a. 4G LTE V2X communication model b. 3GPP LTE V2X communication architecture c. Operating scenarios i. Multiple operators for a given area with each UE using spectrum of its own operator ii. Multiple operators for a given area with dedicated spectrum for V2X iii. Single operator for a given area iv. Out of cellular coverage 3. Challenges and solutions in 4G and 5G for supporting V2X communications (40 minutes) a. Physical layer structure b. Synchronization c. Resource allocation d. Multimedia broadcast multicast services 4. Security and privacy for V2X communications (60 minutes) a. Attacks and security services in V2X communications b. State-of-the-art security solutions i. Group signature based schemes ii. Identity based schemes iii. Hybrid schemes iv. Trust based schemes v. Solutions for privacy issues 5. Open research issues for future 5G based V2X communications (30 minutes) a. Emerging 5G technologies and V2X communications b. Vehicular cloud computing c. Vehicular fog computing d. Security and privacy in 5G V2X communications 6. Conclusion (10 minutes)

Primary Audience
Graduate students, professors, researchers, scientists, practitioners, engineers, industry managers, consultants, and government agencies.

Novelty
This tutorial not only covers the current research and development on 4G LTE based V2X communications and security, but also the latest development on V2X communications and security for 5G mobile wireless systems, and the unique discussions on the challenges and open research issues in the area, based on the tutorial speaker’s own research experience and comprehensive surveys on the subject.

Biography
Yi Qian received a Ph.D. degree in electrical engineering from Clemson University, South Carolina. He is currently a professor in the Department of Electrical and Computer Engineering, University of Nebraska-Lincoln (UNL). Prior to joining UNL, he worked in the telecommunications industry, academia, and government. Some of his previous professional positions include serving as a senior member of scientific staff and a technical advisor at Nortel Networks, a senior systems engineer and a technical advisor at several startup companies, an assistant professor at the University of Puerto Rico at Mayaguez, and a senior researcher at the National Institute of Standards and Technology. His research interests include communications and systems, and information and communication network security.

Prof. Yi Qian is a Fellow of IEEE. He was previously Chair of the IEEE Technical Committee for Communications and Information Security. He was the Technical Program Chair for IEEE International Conference on Communications 2018. He serves on the Editorial Boards of several international journals and magazines, including as the Editor-in-Chief for IEEE Wireless Communications. He was a Distinguished Lecturer for IEEE Vehicular Technology Society. He is currently a Distinguished Lecturer for IEEE Communications Society.

Prof. Qian received the Henry Y. Kleinkauf Family Distinguished New Faculty Teaching Award in 2011, the Holling Family Distinguished Teaching Award in 2012, Holling Family Distinguished Teaching Award for Innovative Use of Instructional Technology in 2018, and Holling Family Distinguished Teaching/Advising/Mentoring Award in 2018, all from University of Nebraska-Lincoln. In the recent years, he has been a frequent speaker on many topics in his research areas in various venues and forums, as a keynote speaker, a tutorial presenter, and an invited lecturer.