A Traffic-Aware Scheduling for Bluetooth Scatternets
IEEE Transactions on Mobile Computing
Relay reduction and disjoint routes construction for scatternet over Bluetooth radio system
Journal of Network and Computer Applications
A power-aware master and bridge scheduling scheme for bluetooth scatternets
International Journal of Ad Hoc and Ubiquitous Computing
Efficient Scheduling Algorithms for Bluetooth Scatternets
Wireless Personal Communications: An International Journal
Reducing inter-piconet delay for large-scale bluetooth scatternets
PAKDD'07 Proceedings of the 2007 international conference on Emerging technologies in knowledge discovery and data mining
Recent developments and experimental guidelines in mobile ad-hoc networks
International Journal of Wireless and Mobile Computing
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Bluetooth enables wireless communication via ad hoc networks. The basic topology (piconet) is a collection of slaves controlled by a master. A scatternet is a multihop network of piconets. We anticipate that most scatternets will be composed of only a few piconets. However, even in small scatternets, efficient data flow requires the design of inter-piconet scheduling algorithms. Thus, this article presents and evaluates a load adaptive scheduling algorithm tailored for small-scale scatternets. The main advantage of this algorithm is the use of the Bluetooth low-power hold mode, which allows greater flexibility than other low-power modes. A simulation model has been developed in order to evaluate the performance of the algorithm. We show that the results obtained by the model are very close to the analytic results. Then we evaluate the performance of various intra-piconet scheduling algorithms. Finally, we present simulation results regarding inter-piconet scheduling, and compare the proposed algorithm to algorithms using the sniff mode.