A scalable architecture for emulating dynamic resource allocation in wireless networks

Authors:
Devanshu Mehta;Jerold Jaeger;Arthur Faden;Kim Hebert;Navid Yazdani;Huan Yao
Affiliations:
Massachusetts Institute of Technology, Lincoln Laboratory, Lexington, MA;Massachusetts Institute of Technology, Lincoln Laboratory, Lexington, MA;Massachusetts Institute of Technology, Lincoln Laboratory, Lexington, MA;Massachusetts Institute of Technology, Lincoln Laboratory, Lexington, MA;Massachusetts Institute of Technology, Lincoln Laboratory, Lexington, MA;Massachusetts Institute of Technology, Lincoln Laboratory, Lexington, MA
Venue:
MILCOM'09 Proceedings of the 28th IEEE conference on Military communications
Year:
2009

Citing 2
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Abstract

With the increasing size and complexity of emerging military communication networks, low footprint emulation methods are required to evaluate protocols, algorithms and user performance. In this paper we describe a new emulation architecture that is scalable, modular, and responds to real-time changes in topology and link characteristics. We use this scalable emulation testbed to evaluate system performance in a simple Satcom network topology, and enhance it to emulate Dynamic Resource Allocation using distributed software architecture.