Constant-Time Distributed Scheduling Policies for Ad Hoc Wireless Networks

Lin, Xiaojun; Rasool, S.B.

doi:10.1109/cdc.2006.376968

Cited by 116 publications

(95 citation statements)

References 17 publications

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“…Subsequently, several policies have been shown to attain (in some cases, for specific topology classses and interference constraints), either the maximum throughput region [1], [5], [18], [21], [23], [24] or a guaranteed fraction thereof [2], [4], [13], [15], [26], while requiring lower computation time. However, whether these algorithms are able to provide low delay guarantees remains largely unknown.…”

Section: Related Workmentioning

confidence: 99%

Delay Guarantees for Throughput-Optimal Wireless Link Scheduling

Kar

Sarkar

Ghavami

et al. 2012

IEEE Trans. Automat. Contr.

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Abstract-We consider the question of obtaining tight delay guarantees for throughout-optimal link scheduling in arbitrary topology wireless ad-hoc networks. We consider two classes of scheduling policies: 1) a maximum queue-length weighted independent set scheduling policy, and 2) a randomized independent set scheduling policy where the independent set scheduling probabilities are selected optimally. Both policies stabilize all queues for any set of feasible packet arrival rates, and are therefore throughput-optimal. For these policies and i.i.d. packet arrivals, we show that the average packet delay is bounded by a constant that depends on the chromatic number of the interference graph, and the overall load on the network. We also prove that this upper bound is asymptotically tight in the sense that there exist classes of topologies where the expected delay attained by any scheduling policy is lower bounded by the same constant. Through simulations we examine the scaling of the average packet delay with respect to the overall load on the network, and the chromatic number of the link interference graph.

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Section: Related Workmentioning

confidence: 99%

Delay Guarantees for Throughput-Optimal Wireless Link Scheduling

Kar

Sarkar

Ghavami

et al. 2012

IEEE Trans. Automat. Contr.

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“…So a question of interest is: can we achieve full throughput with low overheads? Lin and Rasool, in [14], showed that close to 1/3 of the capacity region can be achieved with O(1) overhead, i.e., constant overhead. Gupta et al in [15], and Joo and Shroff in [16] built on this result in [14] and achieved close to 1/2 the capacity region with constant overhead.…”

Section: A Related Workmentioning

confidence: 99%

“…Lin and Rasool, in [14], showed that close to 1/3 of the capacity region can be achieved with O(1) overhead, i.e., constant overhead. Gupta et al in [15], and Joo and Shroff in [16] built on this result in [14] and achieved close to 1/2 the capacity region with constant overhead. In [17], it has been shown that full throughput can be achieved with constant overhead when we consider a node exclusive spectrum sharing model for interference.…”

Section: A Related Workmentioning

confidence: 99%

Past queue length based low-overhead link scheduling in multi-beam wireless mesh networks

Chattopadhyay

Chockalingam

2010

2010 International Conference on Signal Processing and Communications (SPCOM)

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Abstract-Wireless mesh networks with multi-beam capability at each node through the use of multi-antenna beamforming are becoming practical and attracting increased research attention. Increased capacity due to spatial reuse and increased transmission range are potential benefits in using multiple directional beams in each node. In this paper, we are interested in lowcomplexity scheduling algorithms in such multi-beam wireless networks. In particular, we present a scheduling algorithm based on queue length information of the past slots in multi-beam networks, and prove its stability. We present a distributed implementation of this proposed algorithm. Numerical results show that significant improvement in delay performance is achieved using the proposed multi-beam scheduling compared to omnibeam scheduling. In addition, the proposed algorithm is shown to achieve a significant reduction in the signaling overhead compared to a current slot queue length approach.

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“…Lastly, distributed scheduling policies of complexity (1) O have been developed in [18,24,30]. These are known as constant time (CT) scheduling policies [17].…”

Section: Distributed Policiesmentioning

confidence: 99%

“…Therefore, in CT scheduling policies, frames can be wasted with some probability greater than zero. In [30], CT policies are proposed for the 1-hop and 2-hop interference models 11 . The efficiency ratios of these policies were improved in [18,24].…”

Section: Distributed Policiesmentioning

confidence: 99%

Stability-Based Topology Control in Wireless Mesh Networks

Vejarano¹

2012

Wireless Mesh Networks - Efficient Link Scheduling, Channel Assignment and Network Planning Strategies

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Constant-Time Distributed Scheduling Policies for Ad Hoc Wireless Networks

Cited by 116 publications

References 17 publications

Delay Guarantees for Throughput-Optimal Wireless Link Scheduling

Delay Guarantees for Throughput-Optimal Wireless Link Scheduling

Past queue length based low-overhead link scheduling in multi-beam wireless mesh networks

Stability-Based Topology Control in Wireless Mesh Networks

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