Providing Efficient Secured Mobile IPv6 by SAG and Robust Header Compression


Tin-Yu Wu, Han-Chieh Chao, Chi-Hsiang Lo, Journal of Information Processing Systems Vol. 5, No. 3, pp. 117-130, Sep. 2009  

10.3745/JIPS.2009.5.3. 117
Keywords: SAG, RoHC, MIPv6, Handoff Latency, Early Binding Update
Fulltext:

Abstract

By providing ubiquitous Internet connectivity, wireless networks offer more convenient ways for users to surf the Internet. However, wireless networks encounter more technological challenges than wired networks, such as bandwidth, security problems, and handoff latency. Thus, this paper proposes new technologies to solve these problems. First, a Security Access Gateway (SAG) is proposed to solve the security issue. Originally, mobile terminals were unable to process high security calculations because of their low calculating power. SAG not only offers high calculating power to encrypt the encryption demand of SAG¡¯s domain, but also helps mobile terminals to establish a multiple safety tunnel to maintain a secure domain. Second, Robust Header Compression (RoHC) technology is adopted to increase the utilization of bandwidth. Instead of Access Point (AP), Access Gateway (AG) is used to deal with the packet header compression and de-compression from the wireless end. AG¡¯s high calculating power is able to reduce the load on AP. In the original architecture, AP has to deal with a large number of demands by header compression/de-compression from mobile terminals. Eventually, wireless networks must offer users ¡°Mobility¡± and ¡°Roaming¡±. For wireless networks to achieve ¡°Mobility¡± and ¡°Roaming,¡± we can use Mobile IPv6 (MIPv6) technology. Nevertheless, such technology might cause latency. Furthermore, how the security tunnel and header compression established before the handoff can be used by mobile terminals handoff will be another great challenge. Thus, this paper proposes to solve the problem by using Early Binding Updates (EBU) and Security Access Gateway (SAG) to offer a complete mechanism with low latency, low handoff mechanism calculation, and high security.


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Cite this article
[APA Style]
Wu, T., Chao, H., & Lo, C. (2009). Providing Efficient Secured Mobile IPv6 by SAG and Robust Header Compression. Journal of Information Processing Systems, 5(3), 117-130. DOI: 10.3745/JIPS.2009.5.3. 117.

[IEEE Style]
T. Wu, H. Chao, C. Lo, "Providing Efficient Secured Mobile IPv6 by SAG and Robust Header Compression," Journal of Information Processing Systems, vol. 5, no. 3, pp. 117-130, 2009. DOI: 10.3745/JIPS.2009.5.3. 117.

[ACM Style]
Tin-Yu Wu, Han-Chieh Chao, and Chi-Hsiang Lo. 2009. Providing Efficient Secured Mobile IPv6 by SAG and Robust Header Compression. Journal of Information Processing Systems, 5, 3, (2009), 117-130. DOI: 10.3745/JIPS.2009.5.3. 117.