대한전자공학회논문지TC (Journal of the Institute of Electronics Engineers of Korea TC)

대한전자공학회 (The Institute of Electronics and Information Engineers)
권호 표지

u-TSN에서의 안전한 차량 통신 시스템 구현

Implementation of Secure Vehicular Communication System in u-TSN

  • 투고 : 2010.12.20
  • 심사 : 2011.04.14
  • 발행 : 2011.04.25
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

u-TSN은 운전자들과 보행자들을 위하여 도로 안전과 교통 관리를 용이하게 하는 차세대 기술이다. u-TSN을 실제 환경에 사용하기 위해서는 개인의 정보와 통신상의 데이터를 위부 공격자로부터 안전하게 보호해야 한다. 상대적으로 무능한 공격자라도 u-TSN이 가질 수 있는 장점들을 방해하고 사용 불가능하게 만들 수 있다. 따라서 안전한 u-TSN을 구현하기 위해서는 악의적인 공격자의 공격들은 방어하는 것이 중요한 과제 중의 하나이다. 본 논문에서는 u-TSN 환경에서의 보안 시나리오를 소개하고 이를 IXP425 보드에 구현한다. 보안 모듈로 구현된 보안 시스템은 u-TSN 환경에서 안전하고 효율적인 통신을 제공한다.

u-TSN is a promising technology facilitating road safety and traffic management for drivers and passengers. To deploy this technology in a real environment, personal information and communicated data should be protected against malicious adversaries. Even though such adversaries would appear relatively infrequently, in such cases, the benefits of u-TSN could be disrupted and disabled. Therefore, one of the ultimate goals in the design of secure u-TSN is to protect against attacks of malicious adversaries. In this paper, we present secure communication scenario for u-TSN and implement security protocols and algorithms that are the components of the scenario on an IXP425 board. The security systems, implemented as a security module, supports secure and efficient communication for the u-TSN.

키워드

참고문헌

  1. IEEE Trial-use Standard for Wireless Access in Vehicular Environments (WAVE) - Networking Services, 2007.
  2. J. K. Bae, and D. S. Han, "Packet Transmissin Scheme for Collecting Traffic Information based on Vehicle Speed in u-TSN System," Journal of IEEK, vol.47, no.6, 2010.
  3. X. Lin, R. Lu, C. Zhang, H. Zhu, P. H. Ho, and X. Shen, "Security in Vehicular Ad Hoc Networks," IEEE Communications Magazine, April, pp. 88-95, 2008.
  4. M. Raya, P. Papadimitratos, and J. P. Hubaux, "Securing Vehicular Communications," IEEE Wireless Communications Magazine, Oct., pp. 8-15, 2006.
  5. Hannes Hartenstein, and Kenneth P. Laberteaux, "A Tutorial Survey on Vehicular Ad Hoc Networks," IEEE Communication Magazine, June, pp.164-171, 2008.
  6. A. Aijaz, B. Bochow, F. D¨otzer, A. Festag, M. Gerlach, R. Kroh, and T. Leinm¨uller, "Attacks on Inter Vehicle Communication Systems and Analysis," The Network on Wheels Project, Tech. Rep., 2005.
  7. M. Gerlach, "Assessing and Improving Privacy in VANETs," in Proceedings of Fourth Workshop on Embedded Security in Cars (ESCAR), November, 2006.
  8. U.S. Dept. of Transportation, "National Highway Traffic Safety Administration, Vehicle Safety Communications Project," April, 2006
  9. IEEE Std. 1609.2-2006, IEEE Trial-Use Standard for Wireless Access in Vehicular Environments-Security Services for Applications and Management Messages, 2006.
  10. IEEE Std. 1363a, IEEE Standard Specification for Public-Key Cryptography-Amendment 1 : Additional Techniques, 2004.
  11. NIST, Announcing the advanced Encryption Standard (AES), FIPS PUB197, 2001.
  12. NIST, Recommendation for Block Cipher Modes of Operation, NIST Special Publication 800-38A, 2001.
  13. H. Wang and A. R. Prasad, "Fast Authentication for Inter-domain Handover," International Conference on Telecommunications 2004, August, pp.973-982, Springer-Verlag, 2004
  14. J. Kempf and R. Koodli, Distributing a symmetric FMIPv6 Handover Key using SEND, IETF draft-ietf-mipshop-handover-key-03, Nov., 2007.
  15. Certicom Research, SEC2: Recommended Elliptic Curve Domain Parameters, Standard For Efficient Cryptography, 2000.