A pseudo random coordinated scheduling algorithm for Bluetooth scatternets
MobiHoc '01 Proceedings of the 2nd ACM international symposium on Mobile ad hoc networking & computing
Adaptive Scatternet Support for Bluetooth Using Sniff Mode
LCN '01 Proceedings of the 26th Annual IEEE Conference on Local Computer Networks
A flexible scatternet-wide scheduling algorithm for Bluetooth networks
PCC '02 Proceedings of the Performance, Computing, and Communications Conference, 2002. on 21st IEEE International
Approximating max-min fair rates via distributed local scheduling with partial information
INFOCOM'96 Proceedings of the Fifteenth annual joint conference of the IEEE computer and communications societies conference on The conference on computer communications - Volume 2
Bluetooth: an enabler for personal area networking
IEEE Network: The Magazine of Global Internetworking
A Traffic-Aware Scheduling for Bluetooth Scatternets
IEEE Transactions on Mobile Computing
IEEE Transactions on Mobile Computing
A power-aware master and bridge scheduling scheme for bluetooth scatternets
International Journal of Ad Hoc and Ubiquitous Computing
Pervasive and Mobile Computing
Efficient Scheduling Algorithms for Bluetooth Scatternets
Wireless Personal Communications: An International Journal
Cooperative leader election algorithm for master/slave mobile ad hoc networks
WD'09 Proceedings of the 2nd IFIP conference on Wireless days
Bluetooth scatternet formation and scheduling: an integrated solution
MILCOM'06 Proceedings of the 2006 IEEE conference on Military communications
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The Bluetooth specification defines the notion of interconnected piconets, called scatternets, but does not define the actual mechanisms and algorithms necessary to set up and maintain them. The operation of a scatternet requires some Bluetooth units to be interpiconet units (gateways), which need to time-division multiplex their presence among their piconets. This requires a scatternet-scheduling algorithm that can schedule the presence of these units in an efficient manner. In this paper, we propose a distributed scatternet-scheduling scheme that is implemented using the HOLD mode of Bluetooth and adapts to non-uniform and changing traffic. Another attribute of the scheme is that it results in fair allocation of bandwidth to each Bluetooth unit. This scheme provides an integrated solution for both intra-and inter-piconet scheduling, i.e., for polling of slaves and scheduling of gateways.