Computer Networks: The International Journal of Computer and Telecommunications Networking
Exploiting diversity for coverage extension of Bluetooth-based mobile services
EURASIP Journal on Wireless Communications and Networking
Channel assessment for plant-floor wireless sensors operating in unlicensed band
International Journal of Computer Applications in Technology
Coexistence of IEEE 802.11b and bluetooth: an integrated performance analysis
Mobile Networks and Applications
Taking the sting out of carrier sense: interference cancellation for wireless LANs
Proceedings of the 14th ACM international conference on Mobile computing and networking
Robust and scalable transmission of arbitrary 3D models over wireless networks
Journal on Image and Video Processing - 3D Image and Video Processing
IEEE Transactions on Communications
A unified model for interference analysis in unlicensed frequency bands
IEEE Transactions on Wireless Communications
Analysis of the Bluetooth device discovery protocol
Wireless Networks
A unified framework for interference analysis of noncoherent MFSK wireless communications
IEEE Transactions on Communications
A Two-State Markov-Based Wireless Error Model for Bluetooth Networks
Wireless Personal Communications: An International Journal
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In this paper, the issue of Bluetooth and IEEE802.11b coexistence in a heterogeneous environment is addressed by means of an integrated analytical approach. The methodology proposed carefully takes both physical (i.e., thermal noise, propagation, interference, modulation formats, and coding techniques) and medium access control (frequency hopping, packet structures, traffic loads) aspects into account. This model can be easily implemented when developing network simulators, thus avoiding the need of extensive bit level Monte Carlo simulations at the physical level. The mean packet error probability is evaluated as a function of the relative distance between the two systems for different conditions (e.g., propagation, packet type, traffic loading, etc). In particular, how the presence or absence of line-of-sight propagation significantly affects the coexistence distance is emphasized. Furthermore, for a fixed quality-of-service level we derive the coexistence domain of the two considered systems in terms of relative distance.