Abstract
The current deployment of wireless mesh networks requires mobility management to track the current locations of mobile nodes around the network without service interruption. To do so, the Hierarchical Mobile IPv6 protocol has been chosen, which minimises the required signalling by introducing a new entity called the mobile anchor point to act as a local home agent for all visiting mobile nodes in a specific domain. It allows a mobile node to register its local/regional care-of addresses with a mobile anchor point by sending a local binding update message. However, the local binding update is quite sensitive; it modifies the routing to enable mobility in the wireless mesh networks. When a local binding update message is spoofed, an attacker can redirect traffic that is destined for legitimate mobile node either to itself or to another node. This situation leads to an increased risk of attacks. Therefore, this paper contributes to addressing this security issue based on wireless mesh networks by cryptography generation and verification of a mobile node’s local and regional care-of addresses, as well as the application of a novel method to verify the reachability of mobile node at claimed local care-of address. This is called the enhanced mobile anchor point registration protocol. The Scyther tool has been used to ensure the proposed protocol accuracy. Furthermore, the performance, in terms of the mobile anchor point registration delay and signalling overhead, is evaluated by using the OPNET modeller simulator.
Highlights
The number of wireless devices, such as laptops, PDAs, Bluetooth devices and so on, is substantially increasing all over the world
In the Hierarchical Mobile IPv6 (HMIPv6) protocol, an mobile node (MN) has three IPv6 addresses, including a permanent home-of-address, which identifies the MN in its home link and remains the same during the MN‟s movement, and two transients: the regional care-of address (RCoA), which is generated based on the mobile anchor point (MAP) option that is included in the router advertisement (RA) message, and the local care-of address (LCoA), which is generated based on an access routers (ARs) advertisement
This paper presents a novel scheme, called the Enhanced Mobile Anchor Point (E-MAP) registration protocol, to support the location authentication of MNs in the MAP in the wireless mesh networks (WMNs) domain and to authorise the MN to use the services of the WMN domain
Summary
The number of wireless devices, such as laptops, PDAs, Bluetooth devices and so on, is substantially increasing all over the world. The HMIPv6 protocol requires minimal bandwidth and computational resources, as well as reduces registration delays when tracking the current location of the MNs. the HMIPv6 protocol enables the deployment of a group of ARs into different subnets for easy employment of WMNs. In the HMIPv6 protocol, an MN has three IPv6 addresses, including a permanent home-of-address, which identifies the MN in its home link and remains the same during the MN‟s movement, and two transients: the regional care-of address (RCoA), which is generated based on the MAP option that is included in the router advertisement (RA) message, and the local care-of address (LCoA), which is generated based on an AR advertisement.
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