Performance modeling and analysis of Bluetooth networks [electronic resource] : polling, scheduling, and traffic control / Jelena Mišić, Vojislav B. Mišić
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Full Text (via Taylor & Francis) |
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| Format: | Electronic eBook |
| Language: | English |
| Published: |
Boca Raton :
Auerbach Publications,
2006.
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Table of Contents:
- Introduction to Bluetooth ; Lower layers of the architecture: RF and baseband; Higher layers of the architecture: LMP and L2CAP; Data transport and link types; Connection state and related modes; Piconet formation: inquiry and paging Intra-piconet polling schemes ; Bluetooth communications and intra-piconet polling; Classification of polling schemes; On segmentation and reassembly policies; Piconet model and performance indicators Analysis of polling schemes ; Performance of exhaustive service; Performance of 1-limited service; E-limited polling; Access and downlink delay; The impact of finite buffers ; Queue length distribution in imbedded Markov points; Uplink queue length distribution; Experimental results Admission control ; Admission control based on queue stability; Admission control based on access delay; Admission control.
- Based on cycle time Performance of TCP traffic ; System model and related work; TCP window size; Queuing analysis of the token bucket filter; The outgoing queue at the baseband level; Performance assessment Piconets with synchronous traffic ; Why the built-in SCO links are bad; pSCO: an improved scheme for synchronous traffic; Performance of the pSCO scheme Adaptive polling and predefined delay bounds ; Adaptive bandwidth allocation; Adaptive polling with cycle control: the ACLS scheme; ACLS performance; Improving the performance of ACLS Scatternet formation ; Introduction; BSF in single-hop networks; BSF in multi-hop networks; Conclusions Bridge topologies and scheduling ; Bridge topologies; Approaches to bridge scheduling; Bridge scheduling in practice; The queuing model and traffic assumptions Rendezvous-based bridge.
- Scheduling ; MS bridge topology; Packet delays: the MS bridge case; Performance of the MS bridge; SS bridge topology; Packet delays: the SS bridge case; Performance of the SS bridge Adaptive bridge scheduling ; Minimization of delays; Adaptive management: the case of the MS bridge; Adaptive management: the case of the SS bridge Walk-in bridge scheduling ; Scatternet model; Service, vacation, and cycle times; Calculating the packet delays; Stability considerations; Scalability Scatternet with finite buffers ; Scatternet model with finite buffers; Uplink/downlink queue length distribution in Markov points; Service, vacation, and cycle times; Blocking probability and packet delays; Simulation results.