Multi-channel mac for ad hoc networks

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Multi-channel mac for ad hoc networks: handling multi-channel hidden terminals using a single transceiver

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International Symposium on Mobile Ad Hoc Networking & Computing archive
Proceedings of the 5th ACM international symposium on Mobile ad hoc networking and computing table of contents

Roppongi Hills, Tokyo, Japan

SESSION: Channelization table of contents

Pages: 222 - 233

Year of Publication: 2004

ISBN:1-58113-849-0

Authors

Jungmin So	University of Illinois at Urbana-Champaign, Urbana, IL
Nitin H. Vaidya	University of Illinois at Urbana-Champaign, Urbana, IL

Sponsors

SIGMOBILE: ACM Special Interest Group on Mobility of Systems, Users, Data and Computing
ACM: Association for Computing Machinery

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ACM New York, NY, USA

Additional Information:

abstract references cited by index terms collaborative colleagues peer to peer

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ABSTRACT

This paper proposes a medium access control (MAC) protocol for ad hoc wireless networks that utilizes multiple channels dynamically to improve performance. The IEEE 802.11 standard allows for the use of multiple channels available at the physical layer, but its MAC protocol is designed only for a single channel. A single-channel MAC protocol does not work well in a multi-channel environment, because of the multi-channel hidden terminal problem . Our proposed protocol enables hosts to utilize multiple channels by switching hannels dynamically, thus increasing network throughput. The protocol requires only one transceiver per host, but solves the multi-channel hidden terminal problem using temporal synchronization. Our scheme improves network throughput signifiantly, especially when the network is highly congested. The simulation results show that our protocol successfully exploits multiple hannels to achieve higher throughput than IEEE 802.11. Also, the performance of our protocol is comparable to another multi-hannel MAC protocol that requires multiple transceivers per host. Since our protocol requires only one transceiver per host, it an be implemented with a hardware complexity comparable to IEEE 802.11.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

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