Clock Synchronization in IEEE 802.11 Ad Hoc Networks

机译：IEEE 802.11 Ad Hoc网络中的时钟同步

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In an Independent Basic Service set (IBSS), of IEEE 802.11 standards, it is important that all stations are synchronized to a common clock. When the number of stations in an IBSS is very small, there is a negligible probability that stations may go out of synchronization. More the stations, higher is the probability of getting out of synchronization. Thus, the current IEEE 802.11's synchronization mechanism does not scale; it cannot support a large-scale ad hoc network. To alleviate the synchronization problem, "Adaptive Time Synchronization Procedure" (ATSP) is proposed. ATSP is scalable up to 300 nodes. As the number of nodes increases beyond 300 again synchronization become problem. In this paper, we modify ATSP to further increase the scalability of IEEE 802.11 ad hoc networks. The modified algorithm divides nodes in priority levels depending on their clock speed. This algorithm allows nodes only with highest priority to contend for beacon transmission. Reduction in beacon contention increases scalability of IBSS.

机译：在IEEE 802.11标准的独立基本服务集（IBSS）中，重要的是所有站都必须同步到一个公共时钟。当IBSS中的站数很少时，站可能失去同步的可能性可以忽略不计。站点越多，失去同步的可能性就越高。因此，当前的IEEE 802.11同步机制无法扩展。它不能支持大规模的ad hoc网络。为了缓解同步问题，提出了“自适应时间同步过程”（ATSP）。 ATSP最多可扩展至300个节点。随着节点数量增加到超过300，同步再次成为问题。在本文中，我们修改了ATSP，以进一步提高IEEE 802.11 ad hoc网络的可伸缩性。修改后的算法根据节点的时钟速度将其划分为优先级。该算法允许仅具有最高优先级的节点争夺信标传输。减少信标争用可提高IBSS的可伸缩性。

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《International Conference on Information Technology(CIT 2004); 20041220-23; Hyderabad(IN)》|2004年|P.180-189|共10页
会议地点 Hyderabad(IN)
作者
S.S. Thakur; S. Nandi; D. Goswami; R. Bhattarcharjee;
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Indian Institute of Technology, Guwahati Guwahati-781039, India;

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原文格式 PDF
正文语种 eng
中图分类人工智能理论;
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2. Editorial for the special issue of Ad Hoc Networks journal on Recent advances in analysis and deployment of IEEE 802.11e and IEEE 802.11p protocol families [J] . Jelena Misic, Vojislav B. Misic Ad hoc networks . 2012,第2期

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3. Performance of IEEE 802.11’s Timing Advertisement Against SyncTSF for Wireless Clock Synchronization [J] . Industrial Informatics, IEEE Transactions on . 2017,第1期

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4. A scalable and adaptive clock synchronization protocol for IEEE 802.11-based multihop ad hoc networks [C] . Dong Zhou, Lai, T.H. . 2005

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5. On cooperative medium access control protocols for IEEE 802.11 based wireless ad hoc networks. [D] . Kannan, Lakshmi Narasimhan. 2009

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6. Performance Analysis of the IEEE 802.11p Multichannel MAC Protocol in Vehicular Ad Hoc Networks [O] . Caixia Song 2017

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7. Accurate Clock Synchronization for IEEE 802.11-Based Multi-Hop Wireless Networks [O] . Jui-hao Chiang, Tzi-cker Chiueh 2010

机译：基于IEEE 802.11的多跳无线网络的精确时钟同步
8. IEEE-1588(Trademark) Standard for a Precision Clock Synchronization Protocol for Networked Measurement and Control Systems; Conference paper [R] . Eidson, J. C., Fischer, M., White, J. 2002

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Clock Synchronization in IEEE 802.11 Ad Hoc Networks

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