University of Padova Department of Information Engineering On the Optimal Topology of Bluetooth Piconets: Roles Swapping Algorithms Med-Hoc-Net 2002, Chia (Italy), 6 September 2002 Daniele Miorandi & Andrea Zanella {daniele.miorandi,
Med-Hoc-Net, Chia, 6 September 2002 D. Miorandi & A. Zanella Overview Intro to Bluetooth system Mathematical model Stability issues & delay analysis Optimal criterion for off-line topologies design Suboptimal criterion for real-time network reconfiguration Conclusion & discussion
Med-Hoc-Net, Chia, 6 September 2002 D. Miorandi & A. Zanella Background: BT system architecture Two up to eight active Bluetooth devices sharing the same FH channel form a piconet In each piconet, a unit acts as a master, the others act as slaves Channel access is based on a centralized polling scheme Full duplex is achieved by means of time division duplexing (TDD). active slave master parked slave standby slave1 slave2 slave3 master
Med-Hoc-Net, Chia, 6 September 2002 D. Miorandi & A. Zanella System Model Cluster of N+1 nodes (N 7) Assumptions All nodes are in-range Independent Poisson traffic model Definitions Δ={δ i,j }: End-to-end traffic matrix Λ={λ i,j }: Effective traffic pattern matrix k: master unit P={k, Δ}: piconet
Med-Hoc-Net, Chia, 6 September 2002 D. Miorandi & A. Zanella System Model (2) Stability condition for the PRR polling scheme: Definition : A traffic matrix is admissible if there is a master choice k s.t. the stability condition holds (i.e. there is a stable topology). Definition : A traffic matrix is fully admissible if the stability conditions hold for any choice of the master k. Proposition : A traffic matrix is fully admissible if and only if the following conditions hold: P roposition : A traffic matrix is admissible if and only if the following conditions hold:
Med-Hoc-Net, Chia, 6 September 2002 D. Miorandi & A. Zanella Optimal Criterion Link delay: Up to a randomization of the polling order the average packet delay may be expressed as: Defining as the total offered traffic we have: Criterion I : choose k s.t.
Med-Hoc-Net, Chia, 6 September 2002 D. Miorandi & A. Zanella Suboptimal Criterion The effective offered traffic is given by: Reasoning: The more the effective traffic, the closer we get to the stability limit. The closer to the stability limit, the higher the delay. Criterion II : choose k s.t.
Med-Hoc-Net, Chia, 6 September 2002 D. Miorandi & A. Zanella Results (1) N=5, matrix entries uniformly distributed in (0,1). At medium-to-high loads, both criterion offer a remarkable performance improvement. The suboptimal criterion leads to results good, even if far from optimality.
Med-Hoc-Net, Chia, 6 September 2002 D. Miorandi & A. Zanella Results (2) N=5, matrix entries uniformly distributed in (0,1), average density of 0.4. The delays are much lower in the sparse case. Both criterion offer valuable performance improvement.
Med-Hoc-Net, Chia, 6 September 2002 D. Miorandi & A. Zanella Applications Optimal design of a static Bluetooth piconet (e.g., sensor networks). Dynamic reconfiguration of a Bluetooth piconet: Each node keeps an estimate of the traffic generated towards the other nodes. The suboptimal criterion is used to find “better” configurations. Connection admission control: for each request the master checks for admissibility of the resulting traffic matrix; if the answer is negative the request is dropped.
Med-Hoc-Net, Chia, 6 September 2002 D. Miorandi & A. Zanella Conclusion An analytical settlement for the characterization of efficient piconet topologies has been proposed. Two algorithms for the master choice (an optimal and a suboptimal with low computational complexity) have been presented. Simulation have been performed to show the impact on network performance. Some applications have been presented. Next step: towards efficient scatternet topologies.
Med-Hoc-Net, Chia, 6 September 2002 D. Miorandi & A. Zanella Any Questions?