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2 June 2005 Bounded-diameter tree scatternets for Bluetooth WPANs
Muralidhar Medidi, Jonathan Campbell, Yuanyuan Zhou, Sirisha Medidi
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Proceedings Volume 5819, Digital Wireless Communications VII and Space Communication Technologies; (2005) https://doi.org/10.1117/12.606401
Event: Defense and Security, 2005, Orlando, Florida, United States
Abstract
Bluetooth is a promising wireless technology that enables devices to form short-range multihop wireless ad-hoc networks, or personal area networks. However, the Bluetooth scatternet formation is one of the challenges that need to be resolved since the performance of a Bluetooth network depends largely on the scatternet topology used. We first present a height-balanced binary tree, termed ACB-tree for almost-complete-binary tree, that allows two such trees to be combined to create a larger ACB-tree retaining the height-balance requirements. And, then propose a distributed scatternet formation algorithm to create ACB-trees: the generated scatternet is shown to minimize the number of piconets and provide a logarithmic-diameter in the multihop interconnection network. We also present simulations, conducted using Blueware simulator, to provide experimental results to study and compare the performance of the resulting scatternets.
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Muralidhar Medidi, Jonathan Campbell, Yuanyuan Zhou, and Sirisha Medidi "Bounded-diameter tree scatternets for Bluetooth WPANs", Proc. SPIE 5819, Digital Wireless Communications VII and Space Communication Technologies, (2 June 2005); https://doi.org/10.1117/12.606401
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KEYWORDS
Bridges
Detection and tracking algorithms
Computer simulations
Evolutionary algorithms
Energy efficiency
Computer science
Data communications
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