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  Adaptive physical layer security for connected autonomous vehicles


   School of Computing, Engineering & the Built Environment

  Assoc Prof Petros Karadimas  Sunday, January 05, 2025  Funded PhD Project (Students Worldwide)

About the Project

Secure data exchange between vehicles is one of the greatest technical challenges pending to be addressed prior to mass production of fully autonomous vehicles. The security solution has to be energy-efficient and adaptable to any wireless propagation environment in which connected autonomous vehicles (CAVs) operate. The proposed communication security solution relies on symmetric cryptographic key establishment by exploiting the physical layer characteristics of the wireless propagation environment. In the international literature, it has been named as physical layer security (PLS) and proven to be an ideal candidate for secure communications with strict constrains on computational resources and power consumption. Starting from a very thorough literature review, the PhD candidate will have to understand and become familiar with the most recent advances of PLS and how PLS can be applied in CAVs. Accordingly, the PhD candidate will have to understand the state-of-the-art algorithms and steps involved in the key establishment process, including vehicular channel modeling, estimation, and simulation, received signal quantization, information reconciliation, privacy amplification. The ultimate goal is to devise a symmetric cryptographic key establishment algorithm and adapt it to the state-of-the-art standards of future vehicular communications, that is, the IEEE 80211.bd and NR V2X evolutions. The symmetric keys can then be used for essential security operations in CAVs, such as encryption and authentication.  

Academic qualifications

A first-class honours degree, or a distinction at master level, or equivalent achievements ideally in Electrical/Electronic/Communications Engineering, Computer Science/Engineering, Mathematics 

English language requirement

If your first language is not English, comply with the University requirements for research degree programmes in terms of English language.

Application process

Prospective applicants are encouraged to contact the supervisor, Prof Petros Karadimas () to discuss the content of the project and the fit with their qualifications and skills before preparing an application. 

Contact details

Should you need more information, please email .

The application must include: 

Research project outline of 2 pages (list of references excluded). The outline may provide details about

  • Background and motivation, explaining the importance of the project, should be supported also by relevant literature. You can also discuss the applications you expect for the project results.
  • Research questions or
  • Methodology: types of data to be used, approach to data collection, and data analysis methods.
  • List of references

The outline must be created solely by the applicant. Supervisors can only offer general discussions about the project idea without providing any additional support.

  • Statement no longer than 1 page describing your motivations and fit with the project.
  • Recent and complete curriculum vitae. The curriculum must include a declaration regarding the English language qualifications of the candidate.
  • Supporting documents will have to be submitted by successful candidates.
  • Two academic references (but if you have been out of education for more than three years, you may submit one academic and one professional reference), on the form can be downloaded here.

Applications can be submitted here. To be considered, the application must use:

  • “SCEBE1124” as project code.
  • the advertised title as project title 

Download a copy of the project details here

Engineering (12)

References

M. Bloch and J. Barros, “Physical-layer security: from information theory to security engineering,” Cambridge University Press, 2011.
M. Bottarelli, P. Karadimas, G. Epiphaniou, D. K. B. Ismail and C. Maple, “Adaptive and Optimum Secret Key Establishment for Secure Vehicular Communications,” IEEE Transactions on Vehicular Technology, vol. 70, no. 3, pp. 2310-2321, March 2021.
M. A. Shawky, M. Bottarelli, G. Epiphaniou and P. Karadimas, “An Efficient Cross-Layer Authentication Scheme for Secure Communication in Vehicular Ad-Hoc Networks,” IEEE Transactions on Vehicular Technology, vol. 72, no. 7, pp. 8738-8754, July 2023.
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