Toward a Coherent Theory of CSMA and Aloha
Aloha and Carrier Sense Multiple Access (CSMA) are two representative random-access protocols. Despite their simplicity in concept, the performance analysis of Aloha and CSMA networks has long been known as notoriously difficult. Numerous models and analytical approaches have been proposed in the pa...
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| Published in | IEEE transactions on wireless communications Vol. 12; no. 7; pp. 3428 - 3444 |
|---|---|
| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
New York, NY
IEEE
01.07.2013
Institute of Electrical and Electronics Engineers The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1536-1276 1558-2248 |
| DOI | 10.1109/TWC.2013.052813.121605 |
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| Abstract | Aloha and Carrier Sense Multiple Access (CSMA) are two representative random-access protocols. Despite their simplicity in concept, the performance analysis of Aloha and CSMA networks has long been known as notoriously difficult. Numerous models and analytical approaches have been proposed in the past four decades. Yet how to integrate them into a coherent theory remains an open challenge. Toward this end, a unified analytical framework was recently proposed in , based on which a comprehensive study of throughput, delay and stability performance of Aloha networks was presented. In this paper, the framework is further extended to CSMA networks. The analysis shows that both CSMA and Aloha have the same bi-stable property, and the performance of both networks critically depends on the selection of backoff parameters. Different from Aloha, however, substantial gains can be achieved in CSMA networks by reducing the mini-slot length a and the collision-detection time x. The maximum throughput with CSMA is derived as an explicit function of a and x, and shown to be higher than that with Aloha if a <; e 1/ϵ - 1≈0.445. With a small mini-slot length a, CSMA networks are also found to be more robust than Aloha networks thanks to larger stable regions of backoff parameters. To demonstrate how to properly tune the backoff parameters to stabilize the network, the complete stable region of the initial transmission probability q 0 is characterized, and illustrated via the example of p-persistent CSMA with the cutoff phase K=0. The optimal values of q 0 to maximize the network throughput and to minimize the first and second moments of access delay are also obtained, which shed important light on practical network control and optimization. |
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| AbstractList | Aloha and Carrier Sense Multiple Access (CSMA) are two representative random-access protocols. Despite their simplicity in concept, the performance analysis of Aloha and CSMA networks has long been known as notoriously difficult. Numerous models and analytical approaches have been proposed in the past four decades. Yet how to integrate them into a coherent theory remains an open challenge. Toward this end, a unified analytical framework was recently proposed in , based on which a comprehensive study of throughput, delay and stability performance of Aloha networks was presented. In this paper, the framework is further extended to CSMA networks. The analysis shows that both CSMA and Aloha have the same bi-stable property, and the performance of both networks critically depends on the selection of backoff parameters. Different from Aloha, however, substantial gains can be achieved in CSMA networks by reducing the mini-slot length a and the collision-detection time x. The maximum throughput with CSMA is derived as an explicit function of a and x, and shown to be higher than that with Aloha if a <; e 1/ϵ - 1≈0.445. With a small mini-slot length a, CSMA networks are also found to be more robust than Aloha networks thanks to larger stable regions of backoff parameters. To demonstrate how to properly tune the backoff parameters to stabilize the network, the complete stable region of the initial transmission probability q 0 is characterized, and illustrated via the example of p-persistent CSMA with the cutoff phase K=0. The optimal values of q 0 to maximize the network throughput and to minimize the first and second moments of access delay are also obtained, which shed important light on practical network control and optimization. Aloha and Carrier Sense Multiple Access (CSMA) are two representative random-access protocols. Despite their simplicity in concept, the performance analysis of Aloha and CSMA networks has long been known as notoriously difficult. Numerous models and analytical approaches have been proposed in the past four decades. Yet how to integrate them into a coherent theory remains an open challenge. Toward this end, a unified analytical framework was recently proposed in , based on which a comprehensive study of throughput, delay and stability performance of Aloha networks was presented. In this paper, the framework is further extended to CSMA networks. The analysis shows that both CSMA and Aloha have the same bi-stable property, and the performance of both networks critically depends on the selection of backoff parameters. Different from Aloha, however, substantial gains can be achieved in CSMA networks by reducing the mini-slot length a and the collision-detection time x. The maximum throughput with CSMA is derived as an explicit function of a and x, and shown to be higher than that with Aloha if a[less-than]e^frac{1{e}}-1[approximately equal to]0.445. With a small mini-slot length a, CSMA networks are also found to be more robust than Aloha networks thanks to larger stable regions of backoff parameters. To demonstrate how to properly tune the backoff parameters to stabilize the network, the complete stable region of the initial transmission probability q_0 is characterized, and illustrated via the example of p-persistent CSMA with the cutoff phase K=0. The optimal values of q_0 to maximize the network throughput and to minimize the first and second moments of access delay are also obtained, which shed important light on practical network control and optimization. Aloha and Carrier Sense Multiple Access (CSMA) are two representative random-access protocols. Despite their simplicity in concept, the performance analysis of Aloha and CSMA networks has long been known as notoriously difficult. Numerous models and analytical approaches have been proposed in the past four decades. Yet how to integrate them into a coherent theory remains an open challenge. Toward this end, a unified analytical framework was recently proposed in , based on which a comprehensive study of throughput, delay and stability performance of Aloha networks was presented. In this paper, the framework is further extended to CSMA networks. The analysis shows that both CSMA and Aloha have the same bi-stable property, and the performance of both networks critically depends on the selection of backoff parameters. Different from Aloha, however, substantial gains can be achieved in CSMA networks by reducing the mini-slot length a and the collision-detection time x. The maximum throughput with CSMA is derived as an explicit function of a and x, and shown to be higher than that with Aloha if a |
| Author | Lin Dai |
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| Keywords | Performance evaluation access delay Information rate Conceptual analysis Information transmission Optimization Carrier sense multiple access Analytical method Random access Delay time Access protocol Aloha CSMA throughput Collision detection stability |
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| References | ref35 ref13 ref34 ref12 ref37 ref15 ref14 ref31 ref30 ref33 ref11 ref10 ref17 ref19 kurose (ref6) 2004 iosifescu (ref36) 2007 gao (ref16) 0 roberts (ref3) 1972 ref24 ref23 ref26 ref25 bertsekas (ref2) 0 ref20 abramson (ref1) 0; 44 ref22 ref21 hui (ref32) 0 ref28 ref27 murthy (ref7) 2004 ref29 ref8 tsybakov (ref18) 1979; 15 ref9 ref4 ref5 |
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| SubjectTerms | access delay Access methods and protocols, osi model Aggregates Aloha Applied sciences Coherence CSMA Delay Delays Exact sciences and technology Markov processes Mathematical analysis Mathematical models Multiaccess communication Multiple access Network control Networks Optimization Protocols random access stability Stability analysis Studies Systems, networks and services of telecommunications Telecommunications Telecommunications and information theory Teleprocessing networks. Isdn Throughput Transmission and modulation (techniques and equipments) |
| Title | Toward a Coherent Theory of CSMA and Aloha |
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