Provisioning backhaul traffic flows in TDMA/OFDMA infrastructure Wireless Mesh Networks with near-perfect QoS

Scheduling and channel assignment algorithms to provision longer-term backhaul traffic flows in infrastructure TDMA/OFDMA Wireless Mesh Networks (WMNs) with near-perfect QoS are described. A recursive fair stochastic matrix decomposition algorithm is used to compute transmission schedules for all pr...

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Published in2010 IEEE Sarnoff Symposium pp. 1 - 7
Main Author Szymanski, T H
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.04.2010
Subjects
Array signal processing
Delay
edge coloring
Iterative algorithms
low jitter
Matrix decomposition
MIMO
Processor scheduling
Quality of Service
recursive fair stochastic matrix decomposition
scheduling
Scheduling algorithm
Stochastic processes
Telecommunication traffic
Time division multiple access
wireless mesh network
Wireless mesh networks
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ISBN1424455928
9781424455928
DOI10.1109/SARNOF.2010.5469704

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Abstract Scheduling and channel assignment algorithms to provision longer-term backhaul traffic flows in infrastructure TDMA/OFDMA Wireless Mesh Networks (WMNs) with near-perfect QoS are described. A recursive fair stochastic matrix decomposition algorithm is used to compute transmission schedules for all provisioned backhaul traffic flows between BSs. Each schedule consists of a sequence of permutations which specify active edges, which provide near-minimal delay and jitter and near-perfect QoS guarantees on a per-flow basis. A constrained graph coloring algorithm is used to color the permutations, to remove primary conflicts and minimize secondary conflicts. The colored edges are assigned to time-slots and are used to compute the antenna beamforming vectors and transmission power levels. The beamforming can use either a zero-forcing or an iterative MMSE algorithm. Each wireless link achieves a prescribed transmission rate and SINR such that the total transmission power in the WMN is minimized, subject to the per-flow QoS constraints. Extensive simulations of an essentially-saturated hexagonal TDMA/OFDMA WMN supporting backhaul traffic flows are reported.
AbstractList Scheduling and channel assignment algorithms to provision longer-term backhaul traffic flows in infrastructure TDMA/OFDMA Wireless Mesh Networks (WMNs) with near-perfect QoS are described. A recursive fair stochastic matrix decomposition algorithm is used to compute transmission schedules for all provisioned backhaul traffic flows between BSs. Each schedule consists of a sequence of permutations which specify active edges, which provide near-minimal delay and jitter and near-perfect QoS guarantees on a per-flow basis. A constrained graph coloring algorithm is used to color the permutations, to remove primary conflicts and minimize secondary conflicts. The colored edges are assigned to time-slots and are used to compute the antenna beamforming vectors and transmission power levels. The beamforming can use either a zero-forcing or an iterative MMSE algorithm. Each wireless link achieves a prescribed transmission rate and SINR such that the total transmission power in the WMN is minimized, subject to the per-flow QoS constraints. Extensive simulations of an essentially-saturated hexagonal TDMA/OFDMA WMN supporting backhaul traffic flows are reported.
Author Szymanski, T H
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Snippet Scheduling and channel assignment algorithms to provision longer-term backhaul traffic flows in infrastructure TDMA/OFDMA Wireless Mesh Networks (WMNs) with...
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StartPage 1
SubjectTerms Array signal processing
Delay
edge coloring
Iterative algorithms
low jitter
Matrix decomposition
MIMO
Processor scheduling
Quality of Service
recursive fair stochastic matrix decomposition
scheduling
Scheduling algorithm
Stochastic processes
Telecommunication traffic
Time division multiple access
wireless mesh network
Wireless mesh networks
Title Provisioning backhaul traffic flows in TDMA/OFDMA infrastructure Wireless Mesh Networks with near-perfect QoS
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