高效低时延的太赫兹无线个域网双信道MAC协议被引量：1

Efficient and Low Delay Dual-channel MAC Protocol for Terahertz Wireless Personal Area Networks

下载PDF

导出

摘要针对现有的太赫兹无线个域网双信道MAC(medium access control)协议存在信道利用率低,数据传输延迟较大问题,提出了一种高效低时延的太赫兹无线个域网双信道MAC协议--ELD-MAC(Efficient and LowDelay dual channel MAC protocol).ELD-MAC协议通过采用"自适应省略RTS/CTS帧交互过程"机制,可以省去RTS/CTS帧交互过程来减少控制开销;采用"精简测试帧"机制,去掉4字节无用数据字段,来减少控制开销;从而达到提高信道利用率、降低数据传输延迟、提升网络性能的效果.仿真结果表明,相较于TAB-MAC协议,信道利用率提高了11.39%,数据平均延迟降低了12.63%. To address the problems existing in the present dualchannel MAC protocol for terahertz wireless area networks （T-WPANs） , including the channel utilization rate is low, and data transmission delay is high, an efficient and low delay dual-channel MAC protocol for T-WPANs, ELD-MAC, was proposed. Through the scheme, adaptive ellipsis RTS/CTS frame interaction processto omit the RTS/CTS frame interactionand reduce the control overhead, the scheme,simplified test frame, to remove the 4 byte useless data field and reduce the control overhead, so as to improve the the channel utilization, reduce the data transmission delay and improve network performance. Simulation results show that compared with the TABMAC protocol, the channel utilization is improved by 11.39%, and the average data delay is reduced by 12.63%.

作者周海东周逊任智严炎葛理威 ZHOU Hai-dong;ZHOU Xun;REN Zhi;YAN Yan;GE Li-wei(Chongqing Key Laboratory of Mobile Communications Technology,Chongqing University of Posts and Telecommunications,Chongqing 400065,China;Laser Fusion Research Center,China Academy of Engineering Physics,Mianyang 621900,China)

机构地区重庆邮电大学移动通信技术重庆市重点实验室中国工程物理研究院激光聚变研究中心

出处《小型微型计算机系统》 CSCD 北大核心 2018年第9期1957-1961,共5页 Journal of Chinese Computer Systems

基金国家自然科学基金项目(61379159)资助中物院-川大协同创新联合基金项目(XTCT2014010)资助

关键词太赫兹双信道 MAC协议高效低时延 terahertz dual-channel MAC protocol efficient low delay

分类号 TP391 [自动化与计算机技术—计算机应用技术]

引文网络
相关文献

参考文献1

1Cao Jianling,Wang Min,Chen Cong,Ren Zhi.High-throughput low-delay MAC protocol for Tera Hertz ultra-high data-rate wireless networks[J].The Journal of China Universities of Posts and Telecommunications,2016,23(4):17-24. 被引量：8

二级参考文献14

1Akyildiz 1 F, Jornet J M, Hart C. TeraHertz band: next frontier for wireless communications. Physical Communication, 2014, 12(4): 16-32. 被引量：1
2Cherry S. Edholm's law of bandwidth: telecommunications data rates are as predictable as Moore's law. IEEE Spectrum, 2004, 41(7): 58-60. 被引量：1
3Chaiyasoonthom S, Limpaibool P, Mitatha S, et al. High capacity mobile ad hoc network using THz frequency enhancement. International Journal of Communications, Network and System Sciences, 2010, 3( 12): 954-961. 被引量：1
4Ktirner T, Priebe S. Towards THz communications-status in rescarch. standardization and regulation. Journal of Infrared, Millimeter, and Terahcrtz Waves, 2014, 35(1): 53-62. 被引量：1
5Yao J Q. Introduction of THz-wave and its applications. Journal of Chongqing University of Posts and Telecommunications (Natural Science Edition), 2010, 22(6): 703-707 (in Chinese). 被引量：1
6Kfimer T. Towards fiature THz communications systems. Terahertz Science and Technology, 2012, 5(I): 11-17. 被引量：1
7IEEE std 802.15.3c--2009. 1EEE standard for in|bnnation technology-- telecommunications and information exchange between systems--local and metropolitan area networks--specific requirements, pall 15.3: Wireless medium access control (MAC) and physical layer (PHY) spceilications fi~r high rate wireless personal area networks (WPANs), Amendment 2: millimeter-wave-based alternative physical layer extension. 2009. 被引量：1
8IEEE std 802.1lad--2012. IEEE Standard for Information technology-- telecommunications and information exchange between systems--local and metropolitan area networks-specific requirements, part 1 I: wireless LAN medium access control (MAC) and physical layer (PHY) specifications, amendment 3: enhancements for very high throughput in the 60 GHz band. 2012. 被引量：1
9Priebe S, Jastrow C, Jacob M, et al. Channel and propagation measurements at 300 GHz. IEEE Transactions on Antennas and Propagation, 2011, 59(5): 1688-1698. 被引量：1
10Hirata A. Millimeter-wave system technologies for wireless communications, imaging, and sensing. IEICE Electronics Express, 2015, 12(13): 20152003/1 -11. 被引量：1

共引文献7

1邹明芮,周海东,李光彬,任智,周逊.太赫兹无线局域网媒体访问控制协议的优化设计[J].系统工程与电子技术,2017,39(12):2824-2830. 被引量：7
2任智,田洁丽,游磊,吕昱辉.基于网络协调器高效切换的太赫兹无线个域网接入协议[J].计算机应用,2018,38(3):728-733. 被引量：2
3任智,田洁丽,游磊,吕昱辉.高时隙利用率太赫兹无线个域网MAC协议[J].电子技术应用,2018,44(5):103-106.
4周逊,周海东,任智,邹明芮,李光彬.高效快速的太赫兹无线个域网双信道MAC协议[J].计算机应用,2018,38(5):1436-1441. 被引量：3
5任智,严炎,周海东,葛理威.一种可靠高时隙利用率的太赫兹无线个域网MAC协议[J].小型微型计算机系统,2018,39(12):2653-2656. 被引量：4
6任智,吕昱辉,徐兆坤,邹明芮,田洁丽.一种自适应的太赫兹无线个域网高效定向MAC协议[J].电子与信息学报,2019,41(1):99-106. 被引量：7
7王磊,周海东,吴佳琪,张雄.一种快速传输的太赫兹无线个域网MAC协议[J].无线电通信技术,2019,45(6):648-652. 被引量：2

同被引文献1

1徐小龙,高仲合,韩丽娟.基于改进EDD算法的无线传感器网络克隆攻击检测方法[J].通信技术,2016,49(7):902-908. 被引量：2

引证文献1

1夏建川,张秀娟,王斯锋.无线纳米传感网中基于概率的洪泛算法[J].通信技术,2019,52(9):2163-2166.

1周逊,周海东,任智,邹明芮,李光彬.高效快速的太赫兹无线个域网双信道MAC协议[J].计算机应用,2018,38(5):1436-1441. 被引量：3
2Shengnan Pan,Haoyang Tang,Zhanke Song,Jin Li,Yuan Guo.A Novel Dual Channel Fluorescent Probe for Ca^2＋ and Zn^2＋ Based on a Coumarin Schiff Base[J].Chinese Journal of Chemistry,2017,35(8):1263-1269. 被引量：7
3ZHANG Yuzhuo,CAO Yuan,WEN Yinghong,LIANG Liang,ZOU Feng.Optimization of Information Interaction Protocols in Cooperative Vehicle-Infrastructure Systems[J].Chinese Journal of Electronics,2018,27(2):439-444. 被引量：5
4蔡宏伟,雷三宏,卫荣,吴风浪,侯梦薇,樊林.大型医院统一机构数据字典的研究与实践[J].中国数字医学,2018,13(5):52-54. 被引量：9
5赵仲麟,吕东灿,袁超,滕红丽,谷小青,郑宝周,马斌强.化学生物学课程中引入药物分析信息数据库DrugBank内容的探索[J].农业网络信息,2018(4):82-85. 被引量：3
6LI Fan,BI Hongkui,XIONG Jiajun,YU Chenlong,LAN Xuhui.A dual channel perturbation particle filter algorithm based on GPU acceleration[J].Journal of Systems Engineering and Electronics,2018,29(4):854-863. 被引量：1
7木尼拉.塔里甫,安尼瓦尔.加马力,贾志先.一种分布式超梯度的对偶分解CDN负载管理算法[J].计算机工程,2017,43(11):70-75. 被引量：1
8牛亚军,王俊社.无线Mesh网络下编码感知路由算法[J].通信技术,2017,50(9):1976-1981.
9Yu Song,Wangdong Qi,Wenchi Cheng.Energy Efficient MAC Protocol for Wireless Full-Duplex Networks[J].China Communications,2018,15(1):35-44. 被引量：2
10韩玉婧,冯书君,刘巍,谭文华.宫颈癌侵袭转移相关分子标志物的研究进展[J].标记免疫分析与临床,2018,25(8):1242-1245. 被引量：3

小型微型计算机系统

2018年第9期

浏览历史

内容加载中请稍等...

高效低时延的太赫兹无线个域网双信道MAC协议被引量：1

参考文献1

二级参考文献14

共引文献7

同被引文献1

引证文献1

相关作者

相关机构

相关主题

浏览历史

高效低时延的太赫兹无线个域网双信道MAC协议 被引量：1

参考文献1

二级参考文献14

共引文献7

同被引文献1

引证文献1

相关作者

相关机构

相关主题

浏览历史

高效低时延的太赫兹无线个域网双信道MAC协议被引量：1