19,617 research outputs found
Energy Efficient Location Aided Routing Protocol for Wireless MANETs
A Mobile Ad-Hoc Network (MANET) is a collection of wireless mobile nodes
forming a temporary network without using any centralized access point,
infrastructure, or centralized administration. In this paper we introduce an
Energy Efficient Location Aided Routing (EELAR) Protocol for MANETs that is
based on the Location Aided Routing (LAR). EELAR makes significant reduction in
the energy consumption of the mobile nodes batteries by limiting the area of
discovering a new route to a smaller zone. Thus, control packets overhead is
significantly reduced. In EELAR a reference wireless base station is used and
the network's circular area centered at the base station is divided into six
equal sub-areas. At route discovery instead of flooding control packets to the
whole network area, they are flooded to only the sub-area of the destination
mobile node. The base station stores locations of the mobile nodes in a
position table. To show the efficiency of the proposed protocol we present
simulations using NS-2. Simulation results show that EELAR protocol makes an
improvement in control packet overhead and delivery ratio compared to AODV,
LAR, and DSR protocols.Comment: 9 Pages IEEE format, International Journal of Computer Science and
Information Security, IJCSIS 2009, ISSN 1947 5500, Impact factor 0.423,
http://sites.google.com/site/ijcsis
An Optimal Game Theoretical Framework for Mobility Aware Routing in Mobile Ad hoc Networks
Selfish behaviors are common in self-organized Mobile Ad hoc Networks
(MANETs) where nodes belong to different authorities. Since cooperation of
nodes is essential for routing protocols, various methods have been proposed to
stimulate cooperation among selfish nodes. In order to provide sufficient
incentives, most of these methods pay nodes a premium over their actual costs
of participation. However, they lead to considerably large overpayments.
Moreover, existing methods ignore mobility of nodes, for simplicity. However,
owing to the mobile nature of MANETs, this assumption seems unrealistic. In
this paper, we propose an optimal game theoretical framework to ensure the
proper cooperation in mobility aware routing for MANETs. The proposed method is
based on the multi-dimensional optimal auctions which allows us to consider
path durations, in addition to the route costs. Path duration is a metric that
best reflects changes in topology caused by mobility of nodes and, it is widely
used in mobility aware routing protocols. Furthermore, the proposed mechanism
is optimal in that it minimizes the total expected payments. We provide
theoretical analysis to support our claims. In addition, simulation results
show significant improvements in terms of payments compared to the most popular
existing methods
Quantifying Link Stability in Ad Hoc Wireless Networks Subject to Ornstein-Uhlenbeck Mobility
The performance of mobile ad hoc networks in general and that of the routing
algorithm, in particular, can be heavily affected by the intrinsic dynamic
nature of the underlying topology. In this paper, we build a new
analytical/numerical framework that characterizes nodes' mobility and the
evolution of links between them. This formulation is based on a stationary
Markov chain representation of link connectivity. The existence of a link
between two nodes depends on their distance, which is governed by the mobility
model. In our analysis, nodes move randomly according to an Ornstein-Uhlenbeck
process using one tuning parameter to obtain different levels of randomness in
the mobility pattern. Finally, we propose an entropy-rate-based metric that
quantifies link uncertainty and evaluates its stability. Numerical results show
that the proposed approach can accurately reflect the random mobility in the
network and fully captures the link dynamics. It may thus be considered a
valuable performance metric for the evaluation of the link stability and
connectivity in these networks.Comment: 6 pages, 4 figures, Submitted to IEEE International Conference on
Communications 201
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