Analysis of polling systems
Queuing analysis of polling models
ACM Computing Surveys (CSUR)
Wide area traffic: the failure of Poisson modeling
IEEE/ACM Transactions on Networking (TON)
Analysis of an asymmetric polling system
Computers and Operations Research
Performance evaluation of scheduling algorithms for Bluetooth
Broadband communications
A new approach of polling efficiency based on network topology
International Journal of Network Management
Bluetooth: Connect Without Cables
Bluetooth: Connect Without Cables
Bluetooth: Architecture, Protocols and Scheduling Algorithms
Cluster Computing
On Delay Times in a Bluetooth Piconet: The Impact of Different Scheduling Policies
EurAsia-ICT '02 Proceedings of the First EurAsian Conference on Information and Communication Technology
Bluetooth dynamic scheduling and interference mitigation
Mobile Networks and Applications
Performance evaluation of Bluetooth polling schemes: an analytical approach
Mobile Networks and Applications
Performance Modeling And Analysis Of Bluetooth Networks: Polling, Scheduling, and Traffic Control
Performance Modeling And Analysis Of Bluetooth Networks: Polling, Scheduling, and Traffic Control
Analysis of Packet Interference and Aggregated Throughput of Bluetooth Piconets
NSWCTC '09 Proceedings of the 2009 International Conference on Networks Security, Wireless Communications and Trusted Computing - Volume 02
IEEE Transactions on Communications
A mathematical framework for the performance analysis of Bluetooth with enhanced data rate
IEEE Transactions on Communications
Analytical characterisation of the performance of Bluetooth piconets using serial port profile
Proceedings of the 6th International Wireless Communications and Mobile Computing Conference
Modeling and queueing analysis of variable-bit-rate coded video sources in ATM networks
IEEE Transactions on Circuits and Systems for Video Technology
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In recent years Bluetooth has been a growing technology for ad-hoc wireless communication between embedded devices, in a range of 10m. Such a network is called a piconet, in which a master employs round-robin mechanism to poll and serve the slaves. Many new products have become Bluetooth enabled recently, which may cause a complex mix of traffic. Two types of connection are being offered in this network: the Synchronous Connection-Oriented (SCO), and the Asynchronous Connection-Less (ACL). ACL is proper for best-effort service as in IP networks, which has gained more importance as now a day's most of the applications have moved to IP, and may carry bursty traffic. In this paper, to analyze the Bluetooth ACL, a general model for complex mix of traffic, which is the superposition of many ON-OFF mini-sources, is considered. Moreover, due to unreliable nature of wireless media, a Channel Failure Rate (CFR) has been assumed. This system has been investigated analytically and its performance has been evaluated. The effects of channel failure and packet size on the mean delay and waiting time have been studied by simulations as well.