Rafa Marin Lopez scite author profile

Dual-mode handsets and multimode terminals are generating demand for solutions that enable convergence and seamless handover across heterogeneous access networks. The IEEE 802.21 working group is creating a framework that defines a Media Independent Handover Function (MIHF), facilitates handover across heterogeneous access networks, and helps mobile users experience better performance during mobility events. In this paper, we describe this 802.21 framework and also summarize a Media-independent Pre-Authentication (MPA) mechanism currently under discussion within the IRTF that can further optimize handover performance. We discuss how the 802.21 framework and the MPA technique can be integrated to improve handover performance. Finally, we describe a test-bed implementation and validate experimental performance results of the combined mobility technique.

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Media-independent pre-authentication supporting secure interdomain handover optimization

Dutta¹,

Famolari²,

Das³

et al. 2008

IEEE Wireless Commun.

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Network-Layer Assisted Mechanism to Optimize Authentication Delay during Handoff in 802.11 Networks

Lopez

Ohba

Schulzrinne

et al. 2007

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Protocol for Carrying Authentication for Network Access (PANA) Framework

Lopez¹,

Ohba²,

Parthasarathy³

et al. 2008

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PANATIKI: A Network Access Control Implementation Based on PANA for IoT Devices

Moreno-Sanchez

Lopez

Skarmeta

2013

Sensors

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Internet of Things (IoT) networks are the pillar of recent novel scenarios, such as smart cities or e-healthcare applications. Among other challenges, these networks cover the deployment and interaction of small devices with constrained capabilities and Internet protocol (IP)-based networking connectivity. These constrained devices usually require connection to the Internet to exchange information (e.g., management or sensing data) or access network services. However, only authenticated and authorized devices can, in general, establish this connection. The so-called authentication, authorization and accounting (AAA) services are in charge of performing these tasks on the Internet. Thus, it is necessary to deploy protocols that allow constrained devices to verify their credentials against AAA infrastructures. The Protocol for Carrying Authentication for Network Access (PANA) has been standardized by the Internet engineering task force (IETF) to carry the Extensible Authentication Protocol (EAP), which provides flexible authentication upon the presence of AAA. To the best of our knowledge, this paper is the first deep study of the feasibility of EAP/PANA for network access control in constrained devices. We provide light-weight versions and implementations of these protocols to fit them into constrained devices. These versions have been designed to reduce the impact in standard specifications. The goal of this work is two-fold: (1) to demonstrate the feasibility of EAP/PANA in IoT devices; (2) to provide the scientific community with the first light-weight interoperable implementation of EAP/PANA for constrained devices in the Contiki operating system (Contiki OS), called PANATIKI. The paper also shows a testbed, simulations and experimental results obtained from real and simulated constrained devices.

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Rafa Marin Lopez

Seamless proactive handover across heterogeneous access networks

Media-independent pre-authentication supporting secure interdomain handover optimization

Network-Layer Assisted Mechanism to Optimize Authentication Delay during Handoff in 802.11 Networks

Protocol for Carrying Authentication for Network Access (PANA) Framework

PANATIKI: A Network Access Control Implementation Based on PANA for IoT Devices

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