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NR: Practical Strategies using Smart Antennas for Mobile Ad Hoc Networking

$299,989FY2003CSENSF

Drexel University, Philadelphia PA

Investigators

Abstract

This project will establish a novel, interdisciplinary framework for multiple layers of smart antenna equipped mobile ad-hoc networks (MANETs). A smart antenna system uses an antenna array with a digital signal-processing capability to transmit and receive in an adaptive directional manner for reduced interference and higher throughput. A smart antenna system also has the ability to change its directionality in response to the environment. The main contribution of this project will be in the design and simulation of practical MANET systems making use of smart antennas. In particular, this research effort will build a new model for MANET system study based upon thorough multi-layer modeling of realistic system operation. While cross-layer optimizations have been considered across higher-level layers (including the application layer), little research effort has gone into optimizing the physical layer for improved higher layer functionality. Meeting dynamic Quality of Service (QoS) requirements in MANETs as well as increasing scalability, security, and energy efficiency are recognized cross-layer MANET design issues that can be enabled by the proposed research. Numerous theoretical developments in the area of Multiple-Input Multiple-Output (MIMO) systems provide an opportunity to characterize MANETs in which nodes make use of smart antennas at both ends of the communications link. Through this project, a relationship will be established between antenna designs, antenna placements, scattering environments, and MIMO channel capacities on MANET links in actual systems. Space-time coding techniques and beamforming strategies will need to be coupled, for the first time, with dynamic neighbor discovery algorithms to create and maintain ad-hoc links in a dynamic propagation environment. The user density, mobility, and channel characteristics unique to dense urban environments and hybrid indoor/outdoor environments will be taken into account when designing these MANET links. Finally, this project will develop novel routing algorithms that will consider the unique requirements imposed, and the potential advantages gained, by the use of smart antennas. The goals of this effort will include stable routes as well as maximal sharing of routes amongst multiple sources for increased computational efficiency and non-aligned directional paths for reduced interference.

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