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A Privacy Preserving Vertical Handover Authentication Scheme for WiMAX-WiFi Networks 원문보기

KSII Transactions on internet and information systems : TIIS, v.8 no.9, 2014년, pp.3250 - 3265  

Fu, Anmin (School of Computer Science and Engineering, Nanjing University of Science and Technology) ,  Zhang, Gongxuan (School of Computer Science and Engineering, Nanjing University of Science and Technology) ,  Yu, Yan (School of Computer Science and Engineering, Nanjing University of Science and Technology) ,  Zhu, Zhenchao (State Key Laboratory of Information Security, Institute of Information Engineering, Chinese Academy of Sciences)

Abstract AI-Helper 아이콘AI-Helper

Integrated WiMAX and WiFi networks is of great potential for the future due to the wider coverage of WiMAX and the high data transport capacity of WiFi. However, seamless and secure handover (HO) is one of the most challenging issues in this field. In this paper, we present a novel vertical HO authe...

주제어

#Heterogeneous Network   #Handover   #Privacy Preserving  

AI 본문요약
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제안 방법

  • 9GHz AMD (A4-3300M) processor. In our simulation, the propagation model is LOG_DISTANCE_PROPAGATION and the propagation loss model is the LOG_DISTANCE_PASS_LOSS, the loss in the Signal-to-Noise-Ratio is 5 dB, the transmission power is 30 dB, the transmission/reception gain is 0 dB, the ratio of CP time to useful time is 0.25, the FFT size is 256 and the number of hops between the ASN-GW/WIF and AAA server is 3. In addition, the connection between the BS/AP and the ASN-GW/WIF is via wired links with bandwidth of 50Mbps, the connection between two ASN-GWs is via wired links with bandwidth of 500Mbps and the connection between the ASN-GW/WIF and the AAA server is via wired links with bandwidth of 2Gbps.
  • In this section, we will elaborate the pre-deployment, WiMAX to WiFi (WMWF) HO authentication and WiFi to WiMAX (WFWM) HO authentication phases in the proposed scheme, respectively. It is noted that an MS still need to perform a full EAP authentication when it first accesses to the WiMAX network.
  • Taking into account the above problems, this paper presents an efficient and secure VHO authentication scheme with privacy preserving for WiMAX-WiFi heterogeneous networks. In our scheme, MS can show its corresponding credential ticket to the target BS/AP whenever a VHO occurs, and then the MS and target BS/AP can use the credential ticket to perform one authenticated key agreement like 3-handshake/4-handshake to derive a shared session key for the future communication without interacting with the AAA server.
  • To evaluate the overall performance of our proposed VHO authenication protocols, we simulate the nine different HO authentication processes of the above three schemes on the WiMAX-WiFi topology by ns-3.9 network simulator on the 64-bit, 1.9GHz AMD (A4-3300M) processor. In our simulation, the propagation model is LOG_DISTANCE_PROPAGATION and the propagation loss model is the LOG_DISTANCE_PASS_LOSS, the loss in the Signal-to-Noise-Ratio is 5 dB, the transmission power is 30 dB, the transmission/reception gain is 0 dB, the ratio of CP time to useful time is 0.
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참고문헌 (16)

  1. Y.Chen, J. Hsia and Y. Liao, "Advanced seamless vertical handoff architecture for WiMAX and WiFi heterogeneous networks with QoS guarantees," Comput. Commun., vol. 32, no. 2, pp. 281-293, Feb. 2009. 

    상세보기 crossref

  2. A. Pontes, D. dos Passos Silva and J. Jailton et al., "Handover management in integrated WLAN and mobile WiMAX networks," IEEE Wirel. Commun., vol. 15, no. 5, pp. 86-95, Oct. 2008. 

  3. A.Fu, Y.Zhang and Z. Zhu et al., "An Efficient Handover Authentication Scheme with Privacy Preservation for IEEE 802.16m Network," Comput. Secur., vol. 31, no. 6, pp. 741-749, Sept. 2012. 

    상세보기 crossref

  4. A. Fu, Y. Zhang and Z. Zhu et al., "EKMP: An Enhanced Key Management Protocol for IEEE 802.16m," in Proc. of WCNC'11, pp. 1872-1877, Mar. 2011. 

  5. D. He, C. Chen, and J. Bu et al., "Security and efficiency in roaming services for wireless networks: challenges, approaches, and prospects," IEEE Commun. Mag., vol. 51, no. 2, pp. 142-150, Feb. 2013. 

    상세보기

  6. J.Choi and S. Jung, "A Handover Authentication Using Credentials Based on Chameleon Hashing," IEEE Commun. Lett., vol. 14, no. 1, pp. 54-56, Jan. 2010. 

    상세보기 crossref

  7. Q. Jing, Y. Zhang and A. Fu et al., "A Privacy Preserving Handover Authentication Scheme for EAP-based Wireless Networks," in Proc. of Globecom'11, pp. 1769-1774, Dec. 2011. 

  8. D.He, C. Chen and S. Chan et al., "Secure and Efficient Handover Authentication Based on Bilinear Pairing Functions," IEEE Trans. Wireless Commun., vol.11, no. 1, pp. 48-53, Jan. 2012. 

    상세보기 crossref

  9. A. Fu, G. Zhang and Y. Zhang et al., "GHAP: An Efficient Group-based Handover Authentication Mechanism for IEEE 802.16m Networks," Wireless Pers. Commun., vol. 70, no. 4, pp. 1793-1810, Jun. 2013. 

    상세보기 crossref

  10. A.Shidhani, and V. Leung, "Fast and secure reauthentications for 3GPP subscribers during WiMAX-WLAN handovers," IEEE Trans.Depend.Secure.,vol.8, no.5,pp.699-713,Sep. 2011. 

    상세보기 crossref

  11. K. Huang, K. Chi and J. Wang et al., "A Fast Authentication Scheme for WiMAX-WLAN Vertical Handover," Wireless Pers. Commun., vol. 71, no. 1, pp. 555-575, Jul. 2013. 

    상세보기 crossref

  12. WiMAX Forum, "Wi-Fi - WiMAX Interworking," WMF-T37-010-R016v01, Nov. 2010. 

  13. J. Sun, C. Zhang and Y. Zhang et al., "An Identity-Based Security System for User Privacy in Vehicular Ad Hoc Networks," IEEE Trans. Parallel Distrib. Syst., vol. 21, no. 9, pp. 1227-1239, Sept. 2010. 

    상세보기 crossref

  14. IEEE 802.16 Work Group, "IEEE standard 802.16m: Air Interface for Broadband Wireless Access Systems - v3: Advanced Air Interface," IEEE, Tech. Rep., May, 2011. 

  15. IEEE 802.11 Work Group, "IEEE standard 802.11n: Wireless LAN Medium Access Control and Physical Layer Specifications Amendment 5: Enhancements for Higher Throughput," IEEE Tech. Rep., Oct. 2009. 

  16. AVISPA v1.1, http://www.avispa-project.org/ 

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