TY - GEN
T1 - Low latency of re-authentication during handover
T2 - 10th International Conference on Wireless Information Networks and Systems, WINSYS 2013
AU - Aissaoui, Hassane
AU - Urien, Pascal
AU - Pujolle, Guy
N1 - Publisher Copyright:
© 2013 SCITEPRESS.
PY - 2015/8/25
Y1 - 2015/8/25
N2 - Wireless networks provide several advantages over wired networks. They offer: a satisfactory bandwidth, mobility, easy deployment in difficult areas, long-term savings and the speed more and more higher. However, they also have some disadvantages in regard to security, performances during re-authentication, execution of real-time applications and interference from other electromagnetic sources (Bluetooth, microwave, etc.). The existing solutions to reduce delays of Handover intercellular are specific solutions to a particular network or manufacturer of this technology. The main objective of this paper is to propose novel mechanisms based on digital signatures to obtain low latency re-authentication during Handover in Wireless Access Networks. Our infrastructure will be based on trusted relationship between the heterogeneous access points and the authentication servers, in order to allow the mobility anytime anywhere to any user, and the ubiquitous access to the Future Internet, while ensuring the right level of security to both the end users as well to the wireless networks. In this context, the main issues are to resolve the seamless Handover and the re-authentication during mobility of station. By using a signed token in our trusted infrastructure, we achieve a unique authentication and a fast re-authentication. Therefore, the requests to the authentication server are considerably limited.
AB - Wireless networks provide several advantages over wired networks. They offer: a satisfactory bandwidth, mobility, easy deployment in difficult areas, long-term savings and the speed more and more higher. However, they also have some disadvantages in regard to security, performances during re-authentication, execution of real-time applications and interference from other electromagnetic sources (Bluetooth, microwave, etc.). The existing solutions to reduce delays of Handover intercellular are specific solutions to a particular network or manufacturer of this technology. The main objective of this paper is to propose novel mechanisms based on digital signatures to obtain low latency re-authentication during Handover in Wireless Access Networks. Our infrastructure will be based on trusted relationship between the heterogeneous access points and the authentication servers, in order to allow the mobility anytime anywhere to any user, and the ubiquitous access to the Future Internet, while ensuring the right level of security to both the end users as well to the wireless networks. In this context, the main issues are to resolve the seamless Handover and the re-authentication during mobility of station. By using a signed token in our trusted infrastructure, we achieve a unique authentication and a fast re-authentication. Therefore, the requests to the authentication server are considerably limited.
KW - (Re)-association
KW - (Re)-authentication
KW - AAA Framework
KW - Digital Signature
KW - Handover
KW - IEEE802.1x/EAP Protocol
KW - Low Latency
KW - Mobility Anytime Anywhere
KW - Real-time Applications
KW - Roaming
KW - Signed Token
KW - Trusted Infrastructure
KW - Ubiquitous Access
KW - Wirless
UR - https://www.scopus.com/pages/publications/84959563755
M3 - Conference contribution
AN - SCOPUS:84959563755
T3 - WINSYS 2013 - 10th International Conference on Wireless Information Networks and Systems, Part of the ICETE 2013 - 10th International Joint Conference on E-Business and Telecommunications, Proceedings
BT - WINSYS 2013 - 10th International Conference on Wireless Information Networks and Systems, Part of the ICETE 2013 - 10th International Joint Conference on E-Business and Telecommunications, Proceedings
A2 - Obaidat, Mohammad S.
A2 - Ji, Hong
A2 - Nicopolitidis, Petros
A2 - Vergados, Dimitrios D.
PB - Institute of Electrical and Electronics Engineers Inc.
Y2 - 29 July 2013 through 31 July 2013
ER -