Advanced Lectures on Networking, NETWORKING 2002 [This book presents the revised version of seven tutorials given at the NETWORKING 2002 Conference in Pisa, Italy in May 2002]
Advanced lectures on networking
dBBlue: low diameter and self-routing bluetooth scatternet
DIALM-POMC '03 Proceedings of the 2003 joint workshop on Foundations of mobile computing
Partial Delaunay Triangulation and Degree Limited Localized Bluetooth Scatternet Formation
IEEE Transactions on Parallel and Distributed Systems
dBBlue: low diameter and self-routing Bluetooth scatternet
Journal of Parallel and Distributed Computing
Bottom-Up Construction of Bluetooth Topology under a Traffic-Aware Scheduling Scheme
IEEE Transactions on Mobile Computing
Intra-communication for banking using bluetooth communication
EC'09 Proceedings of the 10th WSEAS international conference on evolutionary computing
Multi-hop scatternet formation and routing for large scale Bluetooth networks
International Journal of Ad Hoc and Ubiquitous Computing
Bluetooth scatternet formation: A survey
Ad Hoc Networks
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The paper concerns device discovery in multi-hop networks of Bluetooth devices. We start from the observation that forming a Bluetooth scatternet (i.e., a multi-hop wireless topology) requires each pair of neighboring nodes to have a "symmetric" knowledge of each other, i.e., if node u knows node v then note v know note u. We investigate the use of the Bluetooth procedures for device discovery (inquiry procedures) in order to guarantee the needed symmetric knowledge for scatternet formation. Through the use of simulations we observed that despite the long time required for each node to become aware of the presence of all its neighbors, the Bluetooth topologies obtained bu using the devices dicovered after just 6 seconds are connected. The average number of neighbors of each node and the average route length are also consistently colse to the values that we would obtain if all the neighbors of a device were discovered.