Performance of a new Bluetooth scatternet formation protocol
MobiHoc '01 Proceedings of the 2nd ACM international symposium on Mobile ad hoc networking & computing
Proximity awareness and fast connection establishment in Bluetooth
MobiHoc '00 Proceedings of the 1st ACM international symposium on Mobile ad hoc networking & computing
Bluetooth: Connect Without Cables
Bluetooth: Connect Without Cables
Bluetooth Revealed
Constructing Long-Lived Scatternets in Bluetooth Networks
ICITA '05 Proceedings of the Third International Conference on Information Technology and Applications (ICITA'05) Volume 2 - Volume 02
Development and Evaluation of a Bluetooth EKG Monitoring Sensor
CBMS '06 Proceedings of the 19th IEEE Symposium on Computer-Based Medical Systems
IEEE Transactions on Mobile Computing
Relay reduction and disjoint routes construction for scatternet over Bluetooth radio system
Journal of Network and Computer Applications
Energy-aware on-demand scatternet formation and routing for Bluetooth-based wireless sensor networks
IEEE Communications Magazine
Dynamic Congestion Control through backup relay in Bluetooth scatternet
Journal of Network and Computer Applications
The Bluetooth Honeypot Project: Measuring and Managing Bluetooth Risks in the Workplace
International Journal of Interdisciplinary Telecommunications and Networking
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In this paper, we propose an overlapping communication protocol using improved time-slot leasing in the Bluetooth WPANS. One or many slave-master-slave communications usually exist in a piconet of the Bluetooth network. A fatal communication bottleneck is incurred in the master node if many slave-master-slave communications are required at the same time. To alleviate the problem, an overlapping communication scheme is presented to allow slave node directly and simultaneously communicates with another slave node to replace with the original slave-master-slave communication works in a piconet. This overlapping communication scheme is based on the improved time-slot leasing (TSL) scheme which modified from the original TSL, while the original TSL scheme only provides the slave-to-slave communication capability. The key contribution of our improved TSL scheme is to offer the overlapping communication capability. With the overlapping communication scheme, we developed an overlapping communication protocol in a Bluetooth WPANs. Finally, simulation results demonstrate that our developed communication protocol achieves the performance improvements on bandwidth utilization, transmission delay time, network congestion, and energy consumption.